ASCO Daily News

Dr. Monty Pal speaks with internationally acclaimed hematologists Dr. Vincent Rajkumar and Dr. Saad Usmani about the AQUILA trial in high-risk smoldering multiple myeloma, as well as advances in CAR-T and other evolving treatment strategies in the myeloma space. TRANSCRIPT Dr. Monty Pal: Hello everyone and welcome to the ASCO Daily News Podcast. I'm your host, Monty Pal. I'm a medical oncologist, underline medical oncologist, a professor, and vice chair of academic affairs at the City of Hope Comprehensive Cancer Center in Los Angeles. You're going to understand why I underlined "medical oncologist" there. I'm actually on the line today with two amazing hematologists. Today, we're going to actually explore treatments for high-risk smoldering multiple myeloma following the FDA's approval last year of daratumumab for the first-ever treatment of this indication. Now, this is based on the AQUILA trial, and this represents a huge shift in our traditional watch-and-wait approach to active disease interception. We're going to consider whether this landmark trial published in The New England Journal translates to day-to-day practice. I think it does, and we'll certainly make an argument for that. And I'm so fortunate today to have two internationally acclaimed experts here in the conversation: Dr. Vincent Rajkumar, senior author on the manuscript, and Dr. Saad Usmani, also an expert in his own right in myeloma. Dr. Rajkumar is the lead investigator of the AQUILA study. He's a professor of medicine and consultant in the divisions of hematology and hematopathology at the Mayo Clinic in Rochester, Minnesota. He actually chairs the Myeloma, Amyloidosis, Dysproteinemia Program. He is also editor-in-chief of the Blood Cancer Journal. Dr. Usmani, he and I actually go way, way back. We actually did the AACR Molecular Biology in Clinical Oncology course, I want to say in 2006, so this is our 20-year anniversary, Saad. He's the chief of the myeloma service at the MSK Cancer Center and a professor of medicine at the Weill Cornell Medical College in New York. Saad, Vincent, welcome. Dr. Saad Usmani: Thank you so much for having me, Monty. Dr. Vincent Rajkumar: Yeah, thanks, Monty. A pleasure to be here. Dr. Monty Pal: Thanks. And just a quick note for our listeners, all of our disclosures are available in the transcript of this episode. First off, Saad, did I get that right? Was it 2006 when we did that course together? Dr. Saad Usmani: Yeah, 20 years. We are coming up to our 20-year anniversary. It's remarkable to have seen our careers move the way they have, Monty. Dr. Monty Pal: Oh my gosh. And for all the fellows who are on the line, that AACR Molecular Biology and Clinical Oncology course, it's sometimes overlooked. Wonderful primer on translational science. Okay, now we're going to get to the heart of the matter here, the AQUILA trial. So this was a study, Vincent, that you led. I wonder if you'd walk us through the primary endpoints in the study. What are we looking at in the AQUILA trial specifically? Dr. Vincent Rajkumar: Thanks so much. Again, as you mentioned, smoldering multiple myeloma has just been a condition that we watch and wait. And the first thing that I want to clarify here is that the AQUILA trial is looking at only a subset of smoldering multiple myeloma. That is the high-risk smoldering multiple myeloma. It was defined the way high-risk smoldering myeloma was defined at the time the trial was designed. It randomized 390 patients. One arm got daratumumab single agent in an attempt to delay progression to active myeloma and possibly prolong survival. And the other arm was the traditional observation. The primary endpoint, therefore, was time to active multiple myeloma. Other endpoints included time to when patients needed to start therapy for active multiple myeloma, which can vary based on physician judgment, and overall survival. Of course, response rate, complete response rate, and others were also endpoints. Dr. Monty Pal: That's interesting. And you know, I wanted you to riff a little bit on this definition of high-risk smoldering myeloma. Can you tell our audience how that's sort of evolved over the years? Dr. Vincent Rajkumar: Yes. I mean, if you step back, monoclonal gammopathy of undetermined significance has only a 1% per year risk of progression. Smoldering multiple myeloma, all comers have a 10% per year risk of progression. And over the years, trials have been done in the whole population, and then more recently, we felt we should really focus on the people with high-risk smoldering, defined as a 50-50 risk of progression in 2 years. That's like a 25% per year risk of progression in the first 2 years, which is a very high risk for the patient and something that would justify prophylactic intervention. And that definition initially was based on just high levels of monoclonal protein like more than 3 grams, the IgA subtype of myeloma, the suppression of uninvolved immunoglobulins. Others have used bone marrow flow cytometry markers, cytogenetics. Those combinations of factors were available at the time the AQUILA trial was designed, and a select combination was used. Later on, we found that we could match almost all of that in a very simple risk stratification using just the percentage of bone marrow plasma cells, the level of the M-spike, and the free light chain ratio, all three of which are available to all patients with smoldering at the time of diagnosis. So you don't need any special testing. So more than 20% plasma cells, more than 20 for the light chain ratio, and more than 2 grams for the M-spike. If someone has any two of the three, that is high-risk smoldering multiple myeloma according to the IMWG, but that definition, of course, came in 2020 after the AQUILA trial completed accrual. Dr. Monty Pal: That's interesting because this sort of flips the traditional paradigm where biomarkers get more and more complex as time goes on. Am I right in saying this sort of simplifies things a little bit? It uses standard laboratory or clinical parameters to gauge this category? Dr. Vincent Rajkumar: Absolutely. People were using suppression of uninvolved immunoglobulins, and those levels are not standardized, often vary by race. Also, the other aspect was the abnormal plasma cells on flow cytometry. Again, labs define it differently. So this makes it much more simple. But the IMWG also did a separate exploratory cohort within that paper where we added cytogenetics and we added scoring systems to improve on this further. So it simplified it for regular clinical practice and for like trials. But if you have a patient in front of you, the IMWG paper also has more complex scoring systems where you can take more than 20; 21 is more than 20, so is 51. And so, you can use the actual numbers that a patient has, additional variables like cytogenetics, and get a more refined estimate of what is the true risk of progression. Dr. Monty Pal: That's really helpful. Now, you told us about the primary endpoints, you've helped us define high-risk smoldering myeloma. Can you give us a sense of the top-line results from AQUILA? Dr. Vincent Rajkumar: Yes, I think the most important one was the primary endpoint, time to multiple myeloma, was at 5 years, the progression-free survival was 63% in the daratumumab arm compared to 41% in the observation arm. So, you know, approximately 60% of patients in the observation arm had already progressed by 5 years. And that number was about 40% for the daratumumab arm. We also looked at time to starting myeloma therapy, which is clinically actually quite meaningful because, you know, myeloma therapy means patients get a quadruplet for induction, they get stem cell transplant, they get endless maintenance, they get ongoing therapy virtually for the entire duration. So, preventing the need for myeloma therapy is in and of itself, I think, a major endpoint. And that at 3 years, 40% of people in the observation arm required full myeloma therapy compared to only 20% in the daratumumab arm. So there's a significant reduction in the risk of developing active myeloma as well as the need for myeloma therapy by using a time-limited 3 years of daratumumab single agent. Dr. Monty Pal: Perfect summary of the results. And maybe, Saad, I'm going to bring you into the conversation now. How does this sort of influence your day-to-day practice for smoldering myeloma? Is this something that you've incorporated for that high-risk subset? Dr. Saad Usmani: Thank you, Monty, and I agree. I think that's a really nice summary from Vincent. This study is very important for several reasons. It's actually the third clinical trial that has demonstrated that patients who are in the high-risk smoldering myeloma category benefit from an early intervention that delays the progression to active myeloma or to end-organ damage. And so having a nuanced discussion with our patients in the clinic becomes very important. Having this discussion around as an option becomes very important. And like Vincent said, when we look at that high-risk smoldering myeloma patient population, someone who has 22, 23% plasma cells versus, you know, 45, 50, you know, it's going to be a different discussion each time. But I think it's a very important first step. And I think this sets up the stage for us to design clinical trials where we can ask other questions on what would be better than daratumumab alone in terms of delaying progression in these patients. The other thing that I do want to highlight, and Vincent touched upon this a little bit, that the treatment in this clinical trial was for a fixed duration of treatment. So it was not forever treatment. This is maybe something that Vincent, you can even comment on a little bit more because the question we get after having this discussion is, "Okay, what do we do with patients who are going to be progressing to active myeloma?" Whether we can utilize anti-CD38 therapies for those. So Vincent, I would love your take on this too. Dr. Vincent Rajkumar: Yeah, I think, you know, the main philosophical change for me was previously, the thing was 'don't treat', and now for high-risk smoldering multiple myeloma, the question is, is daratumumab the best treatment or can we do something better? And those trials are thankfully ongoing. One of them has already completed accrual, isatuximab-len-dex versus len-dex. And another one is ongoing in ECOG, almost close to finishing accrual. And in the future, we'll be trying to see if we can use early intervention to even cure and prevent progression altogether. So we are in this phase where we have one approved regimen, one approved drug, and we are not sure whether we can improve on that. The question is, "is a myeloma-like therapy better than monotherapy" would be the next question, and then what would we do further beyond that? In this context, whenever we have patients like this, one of the questions that comes up, as Saad mentioned, is how does this affect newly diagnosed myeloma therapy if somebody has been treated for smoldering and things like that? How will they be considered for clinical trials? Would they be considered as relapse myeloma or still newly diagnosed myeloma? And those are important discussions for clinical trialists to keep in mind, but I think for clinical practice, your duty is to the patient in front of you. If they have high-risk smoldering myeloma and there's data that there's treatments that can delay progression significantly, delay the need for myeloma therapy significantly, that's the highest priority. We'll cross that bridge. There are so few patients going on clinical trials right now that if such a patient were to later on progress and wants to enter in a newly diagnosed myeloma trial later, years later, we can figure that out later. I feel like the most important discussion is what to do for that patient today. I still prefer a clinical trial if one was available. If one was not available, I'd prefer early intervention, but have an informed discussion with the patient because some of them may wish to delay therapy still. Some of them may have very borderline numbers that you want to watch them closely. Some of them may be having other comorbidities that prevent need for therapy. Some of them maybe have had the smoldering for a long time and you already know it's stable. So a lot of factors go in, and I think it's not a one-size-fits-all. Dr. Monty Pal: This is a terrific discussion, and you know, it sort of segues into maybe a question around biology. And this is something I was going to get to a little bit later, but Saad, I'm glad you brought it up. I'll liken it to the only thing I know, which is kidney cancer. So, you know, in kidney cancer, we use checkpoint inhibitors as adjuvant therapy. And there's this question of whether or not it breeds some resistance in the localized setting to ultimately what the patient might potentially be exposed to in the metastatic setting. Tell me your thoughts on this, Vincent, then maybe Saad separately. If you treat a patient with daratumumab in this high-risk smoldering setting, could it theoretically sort of limit options in the refractory setting now that we have regimens like DRBD that are kind of being utilized, or daratumumab with teclistamab? Vincent, I'll throw that to you first. Dr. Vincent Rajkumar: This is a great question, and it's usually asked when we've done the lenalidomide trials actually. We try to put the question back. If that was your concern, how would you actually solve it? Is it really biology that's going to answer that? Or is it a randomized trial? So the experiment has been done three times now where early intervention has been given. And if there was some detriment because of that, that would be reflected in the overall survival. In all three trials, there's no such detriment seen. In the first lenalidomide-dex trial, there was an improvement in overall survival. In the AQUILA trial again, the confidence interval doesn't cross one, and patients had better long-term survival on AQUILA, but certainly not less. We've also examined PFS2 data, and that doesn't seem to be affected. So yes, there is a theoretical concern, and that concern cannot be allayed for new treatments which we have not even tried, like tec-dara, and whether that effect would be there or not. But so far, I don't see it. And I think the onus is on proof of that in order to prevent people from getting early therapy. Dr. Monty Pal: Yeah. Saad, your thoughts on that? And before you jump in, I'll mention, we're kind of taking the same approach in kidney cancer, we're trying to really do studies to see whether or not, you know, immunotherapy rechallenge in these contexts, you know, really lends any substantial benefit. So far, the results have been interesting. I don't think we have enough numbers as yet to capture the impact of adjuvant therapy as it translates to metastatic, but I see so many similarities between the scenarios that you're facing in myeloma and what we're facing in RCC. Saad, your thoughts? Dr. Saad Usmani: Thanks, Monty. I'll go back to something that Vincent alluded to a few minutes ago about the way that we risk-stratify patients within smoldering myeloma. Right now, we are relying more on a disease burden-based stratification looking at the percentage of plasma cells in the bone marrow, the monoclonal protein, as well as the involved light chain versus the uninvolved light chain ratio. However, there are efforts underway to actually incorporate genomics into that schema and try to refine that definition of high-risk smoldering. And there have been two papers that came out in the latter half of last year. In fact. Dr. Rajkumar and I are co-senior authors on one effort where we can identify genomic myeloma in patients in precursor conditions. One of the key things that came out of that effort was that within the high-risk smoldering myeloma category, about 90% of the patients are genomically myeloma. So this whole debate of whether we need to intervene for those patients, I think, you know, we have sufficient biologic evidence that yes, we need to intervene for those patients. I think that the next real step, like Vincent stated, is how do we intervene in those patients? And those clinical trials kind of are ongoing. We will probably need to have more validation of those genomic models being incorporated, but that's what I see in the future. I wouldn't be concerned for the patients being seen today with that query about the disease biology evolving because if I'm seeing a patient today in March of the first quarter of 2026 and offering them monotherapy daratumumab in their high-risk smoldering situation for the next 3 years and then they progress to myeloma after another couple of years, we are talking about what would be the treatment options for them in 2031, 2032. So I think the field is moving so fast, we have a lot of novel therapies coming into that frontline setting rapidly, so our options at that time would be very different. So, you know, I just wanted to kind of set up the stage for saying, you know, our tools are getting better in delineating which patients will need that intervention. And then eventually, I think, you know, we'll have much better options for newly diagnosed myeloma patients at the time when they need it in the future. Dr. Monty Pal: Just absolutely brilliant, absolutely brilliant. I love that summary. I think that you're absolutely right in saying that, you know, you've got to think about what you're going to do for that patient sort of in the moment, what's going to optimize their outcome and agree that the landscape is evolving very rapidly. I'd be remiss, Saad, if I didn't ask you about something that I've been following in terms of your career trajectory. You've developed quite a reputation for your leadership in trials looking at CAR T-cell therapies for myeloma. Can you give us a sense of where that stands in broad terms? Dr. Saad Usmani: Certainly, Monty. I think the CAR Ts have slowly made their way from late relapse to early relapse. And now we have clinical trials that have completed accrual in the frontline setting comparing them to standard-of-care treatment for both older myeloma patients or transplant-ineligible patients, as well as younger transplant-eligible patients where we're actually trying to replace transplants with BCMA-directed CAR T-cell therapies. The nuance there would be we want to equal or better the survival outcomes that we've accomplished without compromising on the safety side of things for patients. Those therapies are moving into earlier lines. And more excitingly, you know, that's just the first wave of CARs. The next wave of CAR technology is coming, and it's going to be in vivo CARs where we may not need lymphodepleting chemotherapy, we may not even need as stringent regulatory nuances that we do for cellular therapies today. So, you know, I think the field is moving rapidly, and it's going to be a very interesting landscape to see over the next 5 to 6 years. Dr. Monty Pal: Yeah, you know, it's so interesting. I know in the solid tumor space, we're trying to replicate the success that you've had with CAR T and bispecifics, and I do see some light at the end of the tunnel. I'm seeing some really promising agents being developed, but clearly, we have so much to learn from our colleagues in hematology. Well, I have to tell you, this has just been a phenomenal conversation. Vincent, congratulations on your leadership of the AQUILA trial. Clearly, a big paradigm shift in the field. Saad, thank you for offering your expert insights and really giving us also a glimpse at the future of myeloma. Really appreciate having you both on the podcast today. Dr. Vincent Rajkumar: Thank you, Monty. Dr. Saad Usmani: Thank you so much. Dr. Monty Pal: And thank you so much to our listeners for your time today. Finally, if you value the insights that you hear from the ASCO Daily News Podcast, please take a moment to rate, review, and subscribe wherever you get your podcasts. Disclaimer: The purpose of this podcast is to educate and to inform. This is not a substitute for professional medical care and is not intended for use in the diagnosis or treatment of individual conditions. Guests on this podcast express their own opinions, experience, and conclusions. Guest statements on the podcast do not express the opinions of ASCO. The mention of any product, service, organization, activity, or therapy should not be construed as an ASCO endorsement. Follow today's speakers: Dr. Monty Pal @montypal Dr. Vincent Rajkumar @VincentRK Dr. Saad Z. Usmani @szusmani Follow ASCO on social media: ASCO on X ASCO on Bluesky ASCO on Facebook ASCO on LinkedIn Disclosures: Dr. Monty Pal: Speakers' Bureau: MJH Life Sciences, IntrisiQ, Peerview Research Funding (Inst.): Exelixis, Merck, Osel, Genentech, Crispr Therapeutics, Adicet Bio, ArsenalBio, Xencor, Miyarsian Pharmaceutical Travel, Accommodations, Expenses: Crispr Therapeutics, Ipsen, Exelixis Dr. Vincent Rajkumar: Honoraria: Research to Practice, Medscape Patents, Royalties, Other Intellectual Property: Authorship Royalties from Up To Date Dr. Saad Usmani: Consulting or Advisory Role: Janssen Oncology, GlaxoSmithKline, Abbvie, Bristol-Myers Squibb/Celgene, Regeneron, AstraZeneca, Sanofi Research Funding: Janssen Oncology, Bristol-Myers Squibb, K36 Therapeutics, Abbvie, Regeneron

Dr. Monty Pal and Dr. Vamsi Velcheti discuss the evolving treatment landscape in EGFR-mutated non-small cell lung cancer, including landmark trials like FLAURA2, novel drug therapies, and the growing importance of ctDNA and MRD testing. TRANSCRIPT Dr. Monty Pal: Hello, and welcome to the ASCO Daily News Podcast. I'm your host, Dr. Monty Pal. I'm a medical oncologist and professor and vice chair of academic affairs at the City of Hope Comprehensive Cancer Center in Los Angeles. Today, I'm truly delighted to introduce Dr. Vamsi Velcheti, who's a professor of medicine and the chief of hematology-oncology at the Mayo Clinic in Jacksonville, Florida. We'll be discussing the expanding treatment landscape in EGFR-positive lung cancer and how to navigate the challenges of balancing treatment efficacy, toxicity, and patient quality of life in the EGFR-positive space. Just FYI, our full disclosures are available in the transcript of this episode. Vamsi, it's so great to have you on the podcast. Thank you so much for being here. Dr. Vamsi Velcheti: Thank you, Monty. It's a pleasure to be here with you. It's a really exciting topic and there are a lot of updates in the EGFR space. Dr. Monty Pal: So, I'm going to need your help with this because I'll be honest with you, I see very little lung cancer, if any, in my practice. I'm pretty much exclusively kidney cancer these days. I'm coming on 20 years at City of Hope now, and I still remember when trials like ECOG 1599 were presented with, you know, platinum doublets. And, of course, the field has changed a lot since then. But tell us a little bit about the first-line landscape, and I think just for the sake of time, we're going to stick with EGFR-positive disease here. What does it look like these days? Dr. Vamsi Velcheti: Monty, the foundation of care remains the third-generation EGFR inhibitors. These are selective EGFR inhibitors, like osimertinib. We've had an evolution of the development of these TKIs. Like, you know, we had the first-generation, second-generation, not-so-selective EGFR inhibitors. Now we have mutant-selective EGFR inhibitors in the clinic, and they're doing a really good job. And these are quite effective in patients who have classical activating mutations. But the reality is that these have not been transformative. These agents have fundamentally changed the response patterns, excellent CNS penetration, and very good tolerability profile. However, we don't see a lot of durability in terms of the response. So, what's different today is now there have been several trials in combination with these third-generation EGFR inhibitors that have really laid the foundation of how we kind of think about EGFR-positive disease. At the high level, there are a lot of challenges to selecting the patients for these combination-based modalities. I'm assuming we'll be talking more about these different trials and different approaches. Some of these combination-based strategies have really moved the needle in terms of improving overall survival and really improving long-term outcomes and durability in our patients. Dr. Monty Pal: And we are going to get into the weeds on this in just a moment. But I did kick off this podcast talking about chemotherapy, ECOG 1599. It does seem as though chemotherapy is still a component of management in advanced non-small cell lung cancer. So, can you tell us about, perhaps first, you mentioned osimertinib, you know, some of these next-generation EGFR inhibitors. Tell us about the role of chemo plus osimertinib. Dr. Vamsi Velcheti: That's exactly where I was going with the combination-based strategies. You know, we first started off with our earlier trials in the EGFR space evaluating the question of, are targeted therapies, are these highly effective, third-generation, EGFR-selective inhibitors, superior to platinum-doublet chemotherapy? And we've had multiple trials demonstrating that, like the FLAURA trial and in the past with second-generation EGFR inhibitors like erlotinib and gefitinib and afatinib. So, we know that these TKIs actually perform better than platinum-doublet chemotherapy. Now, we have a large, global, phase 3 trial data from the FLAURA2 trial, which looks at the question, "Hey, you know, osimertinib is better than chemotherapy, platinum-doublet chemotherapy. Can we do even better by combining osimertinib with platinum-doublet chemotherapy?" So, FLAURA2 answered that question. This is a large, phase 3 trial, and it's a positive trial with improved durability of disease control and improving overall survival with combination with chemotherapy. So, it's a very important and landmark trial, and essentially combining osimertinib with a platinum-based chemotherapy improved responses, deepened responses, and improved overall survival and really changing the disease trajectory. And this strategy is definitely compelling, especially in patients who have certain clinical high-risk features like, you know, patients who have high disease burden or patients who are sometimes having rapid disease progression early on osimertinib, especially with patients who have a lot of visceral disease burden. So, intensifying treatments up front could alter the natural trajectory of the disease. Dr. Monty Pal: So, you sort of alluded to this in that last part there, but is that kind of how you in clinical practice select? Is it based on, you know, visceral involvement? Is it based on rapidity of disease where you think about adding chemotherapy to osimertinib? Maybe you can give us the corollary. Which patients do you just use osimertinib alone in, for instance? Dr. Vamsi Velcheti: Definitely, there are some patients who have low disease burden and they have the classical mutations, like an exon 19 deletion. And these patients, especially if they don't have a lot of disease burden, they don't have CNS involvement, there may be a subset of patients who could just do fine on osimertinib of course, with close monitoring of the disease. I guess we'll get into that later, how do we do that with either ctDNA or like closer imaging or both. So, there may be some opportunity to kind of escalate patients' treatments based on certain clinical characteristics or radiographic characteristics or certain biological characteristics informed by ctDNA or other approaches. Dr. Monty Pal: No, that's interesting. And you're right, we will chat about ctDNA in just a bit. But before we get there, I think one of the big agents that has really sort of come to the fore in advanced non-small cell lung cancer is amivantamab. I've heard a lot about this in the context of even kidney cancer because in certain subsets, I'm interested in MET-directed therapies and so forth, right? So maybe tell us a little bit about the mechanism of amivantamab first, and then maybe tell us about this pivotal MARIPOSA trial where it's combined with lazertinib. Dr. Vamsi Velcheti: So, the MARIPOSA trial compared lazertinib alone with amivantamab plus lazertinib. And this trial demonstrated overall survival advantage, and there were key differences in terms of tolerability and the safety of amivantamab, which is an EGFR and MET bispecific, and there were certain kind of unique toxicity profiles that make it a little different than the intensification approach with chemotherapy through the FLAURA2 trial. So, there's a trade-off in terms of the toxicity profile. It's a different agent and a different management protocol in terms of dermatological toxicity management that clinicians need to be comfortable with. And also, there are certain unique issues in terms of amivantamab; there's a higher rate of infusion-related reactions, there's an increased risk for edema and VTEs because of amivantamab. Certainly a different toxicity profile, different management paradigm there in terms of longitudinal care of these patients requiring dermatological care and like, you know, close monitoring and prophylaxis VTEs. But having said that, definitely it's a different strategy, and it kind of changes the biology and the natural history of the cancers, and we do see some durability of responses that we see with the MARIPOSA. So, it's certainly a great alternative, at least for some patients. Dr. Monty Pal: That was a great overview of MARIPOSA. Now comes the really difficult question, which is, how do you choose between the two? You have these two great options, right, for EGFR-positive patients. You've already highlighted some of the distinctions in terms of toxicity. I think the audience is well aware of the side effects of chemo-doublet, perhaps even the EGFR-based therapies. Amivantamab is quite new. Give us a sense of how you in clinical practice decide between the two potential options here. Dr. Vamsi Velcheti: Yeah, I think that's the big challenge. I think these are two independent strategies that have evolved through the phase 3, and both of them have demonstrated overall survival benefit. So, the way I think about this is in three dimensions, right? Like, the disease biology, the patient priorities, and feasibility of care delivery. So, when I talk about the disease biology, you know, the mechanism is very different, and MET is a very dominant driver of disease in EGFR-altered patients and it's a significant mechanism of resistance, acquired resistance to TKIs. So, certainly I think there's a patient population that could benefit from a MET-directed therapy up front. However, we don't have great data to kind of really demonstrate how using amivantamab in the front line is going to change that. And are there like perhaps like some patients who we could identify who would benefit from such a strategy? Very recently, there have been some approvals in the second-line setting in lung cancer, not in the EGFR space, but like in generally in lung cancer, with the MET ADCs, and those drugs are approved with a companion diagnostic, which requires MET IHC testing. So, what has happened, at least in large academic practices and also I think in the community now, they have been checking for MET IHC expression more routinely in lung cancer. What we have been doing in our institution is we have been doing MET IHC as a reflex for all patients with EGFR, not just EGFR, but all non-small cell lung cancer patients. What that has done is now, like, we have been increasingly testing patients with EGFR for MET. And there's clearly a subset of patients who have de novo MET expression and a high MET expression. And those patients, I've been kind of like preferentially treating them with the MARIPOSA regimen. But again, I have to caution the audience that we still don't have data that MET IHC is going to help us make those decisions, whether it's better than like a FLAURA2 regimen. But however, in the second-line setting in the CHRYSALIS trial, we know that MET is a very powerful predictor of response to amivantamab. We really need more data there, but that's what I have been doing in my practice. But also, there's a lot of patient preference here. Like, there are some patients who don't want chemotherapy, and they want a non-chemotherapy approach. So, certainly there are some patients who prefer to have amivantamab. And now with the amivantamab, the subcutaneous version, the infusion reactions and the logistics of actual administration of amivantamab are more favorable with the subcutaneous approval. So, those are some of the elements that we need to take into account. Dr. Monty Pal: Well, I want to hone in on that because this subcutaneous administration route has been a big debate that I've seen on social media. Tell us, how much easier does it actually make the amivantamab experience? Does it cut down on the rash? Is it just infusion reactions? What's been your clinical experience? Vamsi Velcheti, MD: So, the subcutaneous administration of amivantamab has definitely improved the infusion reaction issue. Very rarely patients have infusion reaction now with the subcutaneous injections. And also, the infusion time is much, much shorter. Like we don't need a lot of infusion time, which is sometimes a challenge in busy infusion clinics. We need to take that into account. As far as the impact of the subcutaneous formulation on dermatological toxicity, we haven't really seen significant difference in terms of the intensity or rates of dermatological toxicity with subcutaneous. The benefits are really with the infusion reaction, the ease of administration. And interestingly, in the PALOMA trial, it also seems to be, even though this was not the primary endpoint of the study, there seems to be some suggestion that the subcutaneous amivantamab seems to have improved OS compared to the IV amivantamab. We don't really understand why, but that's a finding from the trial that's very intriguing. Dr. Monty Pal: That is really fascinating. I'm kind of curious to see how that's going to pan out. I'm going to shift gears a little bit here. And, you know, as we sort of close, I wanted to talk a little bit about biomarkers. I mean, this is obviously not a lung cancer-specific issue. It's something we think about across the board. But what I will say is that there are certain commonalities, and in bladder cancer, we think a lot now about ctDNA. But you've been way ahead of the game in lung cancer. Tell us how you guys use ctDNA, maybe both from the standpoint of monitoring for mutational status, but if you can, maybe offer some insights into some of these new MRD tests that are available too. Dr. Vamsi Velcheti: Yeah, it's rapidly evolving. Certainly, I think in the lung cancer space, you know, this has really kicked off in the lung cancer space with incorporating ctDNA into the workflow. Of course, you know, like baseline evaluation, we still kind of heavily rely on tissue genomic sequencing. But as you know, with targeted therapy, a lot of these patients have disease that evolves over time, and changes in terms of mutational pattern driving acquired resistance is a major issue across different molecular subtypes. And especially so in EGFR, when there are certain actionable opportunities associated with that transformation. So, we need to kind of have like a longitudinal snapshot of how we monitor these patients. So, the ctDNA has come to be like a tool that has now come to the forefront of clinical workflow, and almost all my patients who are having disease progression have ctDNA for kind of evaluating for resistance and informing treatment decisions, especially in EGFR. But having said that, there are a lot of challenges in terms of using ctDNA as a tool for monitoring. There are a lot of different types of assays and different platforms, and being able to use this as a quantitative tool that would be used along with the CT scans that we routinely use in clinical practice has been a challenge. And I think I would love to hear your perspectives as well, Monty, about how you're thinking about that in bladder and other disease contexts. But having said that, I think there's a lot of opportunity to incorporate ctDNA and MRD assays into clinical decision-making. Right now, in terms of clinical trials and clinical development, there have been some very interesting trials that are currently ongoing, especially in the EGFR space. We know that patients who clear ctDNA, based on some retrospective data and also like some retrospective-prospective data from trials that have already read out, that patients who clear ctDNA early with target therapy tend to do much better. They have a longer durability of response. There may be a subset of patients who have, even though they're having radiographic response, they have persistent ctDNA after a certain time point of initiation of targeted therapy. Those patients may require escalation of therapy. We don't yet know. I can't recommend that as a standard right now because we don't have clinical evidence to support that. But however, some of the clinical trials, like the ELIOS trial that's being done right now, that's actually completed enrollment, we'll hopefully see the results very soon. So, there is an emerging thought that instead of intensifying treatment for all patients with EGFR, there may be a population that may be just fine with frontline osimertinib monotherapy and introducing the intensification strategy at the time of emergence of MRD or progression on ctDNA before radiographic progression. So, there are a lot of adaptive molecular response criteria that we are kind of exploring in clinical trials that could inform how the future is going to look like for EGFR and other perhaps targeted therapies as well. So, it's fascinating, and I think there's a lot of opportunity there. Dr. Monty Pal: You know, you asked for my perspective. I actually think that what you highlighted there is the most interesting opportunity for ctDNA: the ability to de-escalate therapy. In terms of drug development, we've done so much to bring new therapies to patients, and now it's a bit of an embarrassment of riches, but the downside is that I feel like we tend to overtreat a lot of patients in the clinic. So, I definitely view MRD, you know, some of these other ctDNA techniques with methylation and so forth that may not be sort of tumor-dependent or bespoke could be incredibly, incredibly helpful. You touched on sort of the future, right, in this last section here with biomarkers. But give us a sense now in terms of novel drug therapies in the EGFR space. What are you most excited about moving forward in 2026 and beyond? Dr. Vamsi Velcheti: Yeah, I think there's a lot going on in this space, and not just this space, but across lung cancer and others as well. Like looking at the next generation of targets for ADCs. And I think a lot of these have to do with…so far in the drug development space, as you know, the improvements in clinical outcomes has been very incremental. So, we really need to make that big leap. And I think the big leap is not going to come from, in my opinion, from the next ADC, but it's going to come from how we tailor treatments and how we monitor disease better and how do we kind of incorporate the next treatment earlier and not wait for the radiographic progression. So, there's a lot of opportunity there to integrate biomarkers and dynamic biomarkers into clinical trial design and incorporating the recent advances in terms of drug design. You know, we have a lot of assets in the EGFR space, the next-generation EGFR inhibitors that are kind of designed with resistance in mind and rational combination, knowing when to introduce those combinations is also equally important. So, there's a lot going on, really exciting times to be in drug development. The one thing that I really hope will come to the forefront in drug development, not just for lung cancer, but all disease groups, is to kind of really be thoughtful about how we incorporate these really cool molecular monitoring tools and creating a composite score with imaging to be able to like really design the next generation of clinical trials. Dr. Monty Pal: You're so spot-on with that. I definitely think that we're getting to this point where, you know, we could think about the next BiTE, the next CAR-T, the next ADC. But, you know, maybe it's time for us to start really honing in on appropriate applications of these drugs, honing in on the right dose and what have you, because I definitely see some issues there. Vamsi, this has just been terrific. I really want to thank you so much for sharing your fantastic insights with us today on the ASCO Daily News Podcast, and I really appreciate all your efforts to move the field of lung cancer forward. Dr. Vamsi Velcheti: Thanks, Monty. I really enjoyed the conversation. Dr. Monty Pal: Yeah, this was terrific. And thanks to our listeners as well. If you value the insights that you hear from the ASCO Daily News Podcast, please take a moment to rate, review, and subscribe wherever you get your podcasts. Disclaimer: The purpose of this podcast is to educate and to inform. This is not a substitute for professional medical care and is not intended for use in the diagnosis or treatment of individual conditions. Guests on this podcast express their own opinions, experience, and conclusions. Guest statements on the podcast do not express the opinions of ASCO. The mention of any product, service, organization, activity, or therapy should not be construed as an ASCO endorsement. Follow today's speakers: Dr. Monty Pal @montypal Dr. Vamsi Velcheti @VamsiVelcheti Follow ASCO on social media: ASCO on X ASCO on Bluesky ASCO on Facebook ASCO on LinkedIn Disclosures: Dr. Monty Pal: Speakers' Bureau: MJH Life Sciences, IntrisiQ, Peerview Research Funding (Inst.): Exelixis, Merck, Osel, Genentech, Crispr Therapeutics, Adicet Bio, ArsenalBio, Xencor, Miyarsian Pharmaceutical Travel, Accommodations, Expenses: Crispr Therapeutics, Ipsen, Exelixis Dr. Vamsi Velcheti: Honoraria: Galvanize Therapeutics Consulting or Advisory Role: Bristol-Myers Squibb, Merck, AstraZeneca/MedImmune, GSK, Amgen, Taiho Oncology, Novocure, Regeneron, Takeda, Janssen Oncology, Picture Health Research Funding (Inst.): Genentech, Trovagene, Eisai, OncoPlex Diagnostics, Alkermes, NantOmics, Genoptix, Altor BioScience, Merck, Bristol-Myers Squibb, Atreca, Heat Biologics, Leap Therapeutics, RSIP Vision, GlaxoSmithKline

Andrea Apolo, bladder cancer specialist and NCI leader, gives expert commentary on GU cancer advances. They cover KEYNOTE-B15 and EV304/EV303 results for perioperative bladder cancer. Discussions include BCG strain findings, new RCC therapies like belzutifan combinations, adjuvant immunotherapy signals, and improved outcomes in prostate cancer with enzalutamide plus radium-223.

Dr. Monty Pal and Dr. Ari Rosenberg discuss the evolution of treatment strategies in head and neck cancers, including the challenges of treating both HPV-positive and HPV-negative disease and the emergence of blood-based biomarkers to advance personalized therapy across different subtypes. TRANSCRIPT Dr. Monty Pal: Hello and welcome to the ASCO Daily News Podcast. I'm your host, Dr. Monty Pal. I'm a medical oncologist, professor, and vice chair of academic affairs at the City of Hope Comprehensive Cancer Center in Los Angeles. Today, we're going to explore the evolving landscape of treatment strategies in head and neck cancer management, including locoregionally advanced head and neck squamous cell carcinoma, which happens to be on the rise in United States, in part due to spike in HPV-mediated oropharyngeal cancers. We're also going to discuss the emerging strategies of using blood-based biomarkers to really advance personalized therapy. Joining me for this discussion is Dr. Ari Rosenberg. He's a medical oncologist focused on head and neck cancer, and he's an associate professor – congratulations on the recent promotion – at the University of Chicago. The University of Chicago has really produced luminaries in this field, Dr. Rosenberg included. I've had the pleasure of getting to know Dr. Ezra Cohen over the years, who really had his grounding there, and of course Everett Vokes, former ASCO President. I'm really looking forward to this conversation, Ari. Thanks so much for joining us. Dr. Ari Rosenberg: Thanks, Monty. Thanks for the invitation. Dr. Monty Pal: You got it. And just a quick note for our listeners, our full disclosures are going to be in the transcript at the end of this episode. So let's start with the basics, if you don't mind. So, head and neck cancers are very diverse and they're challenging, right? In the sense that they're near vital organs, the treatments, you know, as we all saw during fellowship, if not now in clinical practice. They can really have such a major impact on vital organ function, speech, swallowing, et cetera. Can you just comment on head and neck cancers that are on the rise in the U.S.? I alluded to this briefly. Particularly, we've heard this in the context of colorectal cancer and so forth. Are you actually seeing younger adults being affected by this? Dr. Ari Rosenberg: Yeah, thanks for that. The vast majority of head and neck cancers are head and neck squamous cell carcinomas, as I'm sure many of the listeners recall as well from fellowship or their current training. And as you alluded to, the organ function, long-term and functional quality of life outcomes are quite important, particularly in the context that these develop in high value real estate, parts of our head and neck area that we use for speaking, swallowing, all sorts of other essential functions as well. As you also alluded to, we think of this in two different particular subtypes of head and neck cancer. The historical head and neck cancer from 50, 60 years ago was almost exclusively related to carcinogen exposure, tobacco, alcohol use, and that subtype of carcinogen-induced head and neck cancer has been slowly declining. However, over the last now several decades, we've been seeing an increase in primary oropharyngeal squamous cell carcinoma, mostly tonsil, base of tongue. These are attributable to HPV, human papillomavirus exposure. And that's now the majority of the head and neck cancers that we tend to see in our clinic. As you also alluded to, these have very different prognoses as well. HPV-related head and neck cancer has a much more favorable prognosis where much of the interest has been in can we de-intensify to optimize long-term function? But then the non-HPV-related head and neck cancer, or what we call HPV-negative head and neck cancer, continue to be very, very challenging. We only managed to cure about half of these folks, with many of these patients developing the current disease. These patients, in addition to being difficult to treat, also have major impacts both in terms of the treatments they undergo as well as their disease that can impact their function and quality of life. And you hinted at this a little bit, but we have been seeing an increase in younger patients with HPV-negative head and neck cancer as well, which is quite concerning. Younger patients, oftentimes never smokers, never drinkers, who are developing non-HPV-negative head and neck cancer. And that's been a little bit of a more recent trend that we've been seeing as well. So, definitely a lot of work to be done to optimize and improve outcomes across all of these different head and neck cancer subtypes. Dr. Monty Pal: I mean, I'm just curious, you know, in the context of colorectal cancer, one of the things that we talk about is the potential role of the microbiome driving some of these young-onset cancers with, you know, perhaps there being an impact on, for instance, inflammation and the gut and what have you. Tell me about head and neck cancer. Is this anything known as to why younger patients might be getting diagnosed with non-HPV type cancers? It's odd to me. Dr. Ari Rosenberg: Yeah, it's a great question. A lot of people are working on it. I think we folks have hypotheses, but it hasn't totally panned out exactly what's going on there. It does have a little bit more of a tendency towards women, whereas historically head and neck cancer is much more common in men than it is in women. But lots of people working on that, whether it's related to chronic inflammation, whether it's related to the microbiome. Whether it's related to dental exposure, dental work. So, a lot of folks trying to parse that out because I agree with you, it needs to be identified alongside improving treatment paradigms for these patients, the young ones and the older patients as well. Dr. Monty Pal: Interesting, interesting. You know, one of the phenomena that was sort of coming around when I was in training 25 years ago was this role of sort of induction therapy for head and neck cancers. And of course, it's really come full circle now to include checkpoint inhibitors and so forth. Tell me a little bit about this and how you apply it, maybe in an HPV-mediated context, maybe in a non-HPV context. Dr. Ari Rosenberg: Yeah, absolutely. Induction chemotherapy, as you alluded to, or neoadjuvant chemotherapy, depending on what the locoregional treatment approach is. Similar to other cancer types where systemic control early on has many potential advantages in this setting. Now, in head and neck cancer, even though induction chemotherapy is quite active in head and neck cancer, both HPV-positive and HPV-negative with pretty good response rates. A survival advantage for all comers with local regionally advanced disease remains unproven. There's been two randomized trials, both underpowered, but essentially did not show a survival advantage, showing that induction chemotherapy for all patients with locoregionally advanced and neck cancer can't be justified for a survival advantage. That being said though, there remains a number of potential advantages of giving induction or neoadjuvant chemotherapy, of course, improving systemic control and debulking the disease early on has potential advantages, and predicting the responsiveness to subsequent radiation treatment. We know for some time in head and neck cancer that the percentage of shrinkage or the response to induction chemotherapy actually predicts outcome related to radiation as a dynamic biomarker where response can be used to select patients, for example, for de-escalated radiation has been an area of active investigation, active research. And it also remains a key opportunity to evaluate predictive biomarkers and understanding pre and post treatment to better understand the biology. I'll just add to your question that recently over this past year, we also saw phase 3 data for neoadjuvant immunotherapy for a subset of head and neck cancer that is surgically resectable. And so that's reintroducing the potential benefit in the immunotherapy era of incorporating immunotherapy in the neoadjuvant or the induction setting as part of the evolving treatment paradigm for these diseases. Dr. Monty Pal: That's really interesting. And you kind of alluded to already several topics that I plan to hit on, you know, for instance, the role of immune checkpoint inhibitors, induction, chemotherapy, and so forth. And you started to touch on biomarkers. And of course, I think that's something near and dear to many of us in academic oncology. One thing that we've started talking a lot about in the context of colorectal cancer is circulating tumor DNA. How do you think this might fit in the context of head and neck cancer? Can you give us a flavor for that? Dr. Ari Rosenberg: Yeah, absolutely. In head and neck cancer, the current landscape is most developed for circulating tumor DNA for HPV-related head and neck cancer. The advantage of HPV-related head neck cancer is that you have a distinctive HPV DNA that does tend to spill out into the peripheral blood and can be detected using various different blood-based assays. And because of that advantage as a tissue agnostic approach, it turns out that a number of HPV DNA plasma assays are actually quite sensitive and quite specific. And a number of them have indeed been commercialized. Of course, not only for detecting a baseline, but also grading responsiveness during treatment and probably most importantly in the post-treatment surveillance setting, the detection of HPV DNA in the plasma remains a very important and substantial predictor of developing recurrent disease. There's been a number of trials that have been emerging looking at ctDNA and HPV-related head and neck cancer, using it, for example, as a strategy to deescalate patients. That was something we saw this past ASCO from the Dana-Farber group, and also using it to early detect recurrence and potentially intervene earlier for patients with minimal residual disease positivity. So, that remains evolving and as many folks are, I think, already using it in the clinic. But ctDNA also has a lot of potential for HPV-negative head and neck cancer. This is actually a bit more challenging to develop because you don't have that HPV DNA that you can track predictably because the tumor is an HPV- negative disease are much more heterogeneous, but there are a number of data that are coming out both for personalized assays such as Signatera or some of the other assays that require tumor. Unlike colon cancer, which you referenced, where most patients get surgery upfront, in head and neck cancer, many of the patients receive non-surgical pre-chemoradiation. So sometimes the amount of tumor available to generate a personalized assay is more limited and can be one of the challenges that we see in head neck cancer. But certainly that also seems to be emerging. And there's also further assays that are being developed for HPV-negative head neck cancers, such as methylomic signatures and others that may be tissue informed or tissue agnostic. And these are also emerging, particularly in the post-treatment surveillance setting as strong predictors of recurrent disease. So while we're certainly behind some of these other more common tumor types, colon cancer, lung cancer, we're right there with them and more and more trials are going report out, including a number of trials in our upcoming [University of Chicago] Head and Neck Cancer Symposium where I'll be presenting some data and others in the field will be presenting some data looking at ctDNA both for HPV-positive and for HPV- negative to try to improve outcomes for these patients. Dr. Monty Pal: That's so interesting. I've got to tell you that in kidney cancer, what I deal with day to day is a very low shedding disease, right? So techniques as opposed to ctDNA looking for tumor-informed information, that might be less preferred to something like methylomics where you might not necessarily be so contingent on what's happening in the primary tumor. I'm really interested in you mentioning that. Just a point of clarification, this is something I'm trying to wrap my head around. You'd mentioned circulating tumor HPV DNA, right? I assume this is markedly different from just looking for HPV titers in the patient, right? So is this actually incorporated elements of HPV within, you know, essentially host genome, if you will? Dr. Ari Rosenberg: Yeah, correct. This is circulating tumor HPV DNA. And we think of it biologically as a plasma-based tumor DNA biomarker that's specific for HPV-related head and neck cancers. Dr. Monty Pal: Got it, got it. It makes me wonder whether or not this might be applicable to diseases like cervical cancer and so forth where there's also extensively, you know, biology driven by HPV. Is that fair? Dr. Ari Rosenberg: Yes, definitely. And in the head and neck cancer field, much of this ctDNA actually was derived from a different viral mediated head neck cancer, is less common in the U.S., but nasopharyngeal cancer, which is oftentimes associated with EBV. That has been a biomarker for quite some time in nasopharyngeal cancer. Of course, in places where EBV-associated nasopharyngeal cancer, is endemic, such as East Asia, this has been around for quite some time, but we've been using that in the U.S., and there's been trials that have used EBV DNA plasma to predict recurrence and stratify for adjuvant treatment, for example. And so now with HPV, it's much more applicable to our US population because the vast majority of our head and neck cancer patients that we see in the US that are viral mediated in the US tend to be HPV-related. So having assays that we can use to improve outcomes for that biological subset remains of particular interest for us. Dr. Monty Pal: Yeah, that's fascinating. By the way, for the fellows listening, there's tons of boards pearls here that Dr. Rosenberg shared, EBV-associated cancers, the role of HPV and treatment association. So if you're recertifying anytime soon, I definitely think there's notes to take from this conversation indeed. I wanted to shift gears a little bit. And obviously, you're a prolific researcher. I don't think anyone goes through their fellowship in medical oncology without recounting these experiences of our head and neck patients really suffering from treatment-related toxicities. It's a real challenge. And I'm just wondering, I know a big body of work that you're focused on is really using multimodality treatment paradigms to perhaps reduce the cumulative treatment burden of patients with head and neck cancers. Can you talk about that a little bit? Dr. Ari Rosenberg: Yeah, definitely. Thanks for the question. And before I start going into some of the strategies, I'll just say that head and neck cancer, this is particularly for the fellows that are listening as well, just in reference to your prior comment, that this is really a multidisciplinary disease. At our center, all head and neck cancer patients are seen upfront at that first visit by all three specialties, med onc, rad onc, and surgery, because the choice and sequencing of modalities to optimize not only survival, but also functional quality of life outcome is so critical. And I think that's probably the biggest takeaway for anyone who treats a lot of head and neck cancer or will be treating a lot of head and neck cancer in the clinic. But in terms of more specific attempts at trying to optimize some of those parameters that you described, we really think about these separately in terms of HPV-positive and HPV-negative head and neck cancer. For HPV-positive head and neck cancer, the cure rates are quite high with chemo radiation, although not for everyone. There's still about 15, 10 to 15 % of folks that will develop a recurrence. But for the vast majority of patients, standard chemoradiation is quite a cure to therapy, but the toxicity associated with that can be quite substantial. And so there's been a number of attempts to try to deescalate treatment. It turns out that deescalating everyone with locoregionally advanced HPV-positive head and neck cancer is not a good strategy because it's not able to select out the patients that really do need full dose treatment. And we have seen some negative trials that show inferior outcomes when everyone is deescalated. But what does remain promising is again, trying to select out who the best candidates are for deescalated treatment. The folks at MSK have hypoxia imaging that they're using in trials that looks quite promising to select for the more favorable deescalatable biology. At our center, we've been interested in using induction chemotherapy to stratify response and select patients for deescalated treatment with excellent survival outcomes and reduce toxicity with deescalated treatment. And more recently, ctDNA that us and other groups, such as the Dana-Farber group, is using. And that also looks quite promising. Again, how do you select the patient who will do well with less radiation versus the ones that really need the full doses and volumes of radiation? And then for HPV-negative head and neck cancer, this is a much trickier disease because already the survival outcomes are not like we want it to be. Trying to figure out how to improve survival outcomes remains an important thing. Using immunotherapy seems to be one of the key cornerstones to that. But these are patients that also suffer from a lot of toxicity related to their treatment. We completed a trial not too long ago that we published this past year where we, in HPV-negative head and neck cancer patients, de-intensified the radiation for responders to neoadjuvant chemoimmunotherapy. And those patients did similar, if not even a little bit better, than the non-responders who got full dose treatment. So something that does warrant further investigation as well. How do we not only improve survival for those patients, but also reduce some of the long-term toxicities? Dr. Monty Pal: This is brilliant. I'm taking so many notes as you were mentioning these items. There are so many areas where I think the research crosses over. I already mentioned, know, ctDNA, for instance, and metabolomics and the places where that might apply to kidney cancer. The hypoxia imaging really caught my ear too. Obviously, kidney cancer is disease highly predicated on hypoxia. So thank you for all of this. We've got about a minute or so. So, I'm going to ask you for a really tall task here. Can you tell us what you foresee being some of the biggest challenges that sort of lie ahead and head and neck cancer. You've already kind of alluded to it with ongoing research, but if you had to pick maybe 2, 3 problems, the very most that we really need to get to and head and neck cancer, what would that be? Dr. Ari Rosenberg: Yeah, that's a great question. Obviously, lots of things to be done, but if I'm going to limit it to just a couple, I would say number one is really trying to improve the survival for HPV negative local regionally advanced head and neck cancer. We talked early on about how we are seeing, you know, of course we see many of these people that were smokers and drinkers, but also seeing these in younger patients, in patients without a history of tobacco use. Some of these are very biologically aggressive and we need better treatments beyond surgery, beyond chemo radiation, beyond immunotherapy to improve outcomes for these patients and cure more of them. So, I would say that's one big area. And the other is, which we didn't speak about so much in this talk, but remains one of the biggest challenges that we see in the clinic is the recurrent metastatic head and neck cancer patients. This is an incredibly challenging disease to treat, not only with poor survival, but also with substantial impacts on quality of life and function. mean, these are bad recurrences that cause a lot of pain, functional deficits, really impacts quality of life as well. So developing novel therapies, many of which are currently in clinical trials and many of which are currently continuing to be developed, remains so critical. How do we develop better systemic therapies, better targeted therapies, better biomarkers for recurrent metastatic head neck cancer to improve their survival and quality of life and functional outcomes. Those are the two big areas that require the most work at this time within the head and neck cancer field. Dr. Monty Pal: That's brilliant. I mean, I have to tell you I could probably talk to you all day about this, such a fascinating topic. It's a very exciting time in the field. Thank you, Dr. Rosenberg, for all your incredible contributions and thanks for sharing with us your insights on the ASCO Daily News Podcast. Dr. Ari Rosenberg: Yeah, and thanks for the introduction. Hope to do it again soon. Dr. Monty Pal: And many thanks to our listeners for your time today. If you value the insights that you hear from the ASCO Daily News Podcast, please take a moment to rate, review, and subscribe wherever you get your podcasts. More on today's speakers: Dr. Monty Pal @montypal Dr. Ari Rosenberg @AriRosenbergMD Follow ASCO on social media: ASCO on X ASCO on Bluesky ASCO on Facebook ASCO on LinkedIn Disclosures: Dr. Monty Pal: Speakers' Bureau: MJH Life Sciences, IntrisiQ, Peerview Research Funding (Inst.): Exelixis, Merck, Osel, Genentech, Crispr Therapeutics, Adicet Bio, ArsenalBio, Xencor, Miyarsian Pharmaceutical Travel, Accommodations, Expenses: Crispr Therapeutics, Ipsen, Exelixis Dr. Ari Rosenberg: Stock and Other Ownership Interests: Privo Technologies Consulting or Advisory Role: Nanobiotix, EMD Serono, Vaccitech, Novartis, Eisai, Astellas Pharma, Regeneron, RAPT Therapeutics, Geovax Labs, Janssen, Summit Therapeutics Speakers' Bureau: Coherus Biosciences Research Funding (Inst.): Hookipa Biotech, EMD Serono, Purple Biotech, Bristol-Myers Squibb/Celgene, BeiGene, Abbvie, Astellas Pharma, Pfizer, Janux Therapeutics

Dr. Monty Pal and Dr. Atul Batra discuss the PLANeT study from India, which evaluated low-dose pembrolizumab in addition to neoadjuvant chemotherapy for triple-negative breast cancer, and its place among a growing body of international research on improving efficacy while reducing costs and toxicity with lower doses of immunotherapy. TRANSCRIPT Dr. Monty Pal: Hello and welcome to the ASCO Daily News Podcast. I'm your host, Dr. Monty Pal. I'm a medical oncologist, professor, and vice chair of academic affairs at the City of Hope Comprehensive Cancer Center, Los Angeles. My guest today, I think, is going to be a really riveting one. It's Dr. Atul Batra, who is an additional professor of medical oncology at the All India Institute of Medical Sciences, or AIIMS, in New Delhi. And he's also the senior author of the PLANeT study. It's a very compelling study that evaluated low-dose pembrolizumab in addition to neoadjuvant chemotherapy for triple-negative breast cancer. And it's really a big part of a growing body of research that's showing balanced efficacy when we use lower doses of immunotherapy instead of standard doses to reduce cost, as well as potentially toxicity. I think this has huge implications for our global audience, and I'm so thrilled to have you on the podcast today, Dr. Atul Batra, welcome. Dr. Atul Batra: Thank you, Dr. Pal. Dr. Monty Pal: And we'll just take it with first names from here since we're both friends. I have to give the audience some context. Atul, I had the great honor of visiting AIIMS New Delhi. For those that don't know, this is really, you know, the Harvard Medical School of India. It's the most competitive institution for medical training. And on the back end of that, there's also incredible resources when it comes to clinical trials and infrastructure. I just wanted to have you give the audience sort of a scope of the types of trials that you've been able to do at AIIMS New Delhi. Dr. Atul Batra: Thank you, Monty. So, I work at the All India Institute of Medical Sciences, and we had the honor and pleasure of having Monty here this month. And people are still in awe of his lectures that he delivered there. Coming back to our institute, so it's kind of a medical college. It's one of the oldest ones, it was built in 1956. We are lucky enough that we get the best of the residents and fellows because they have to go through an exam, a competitive exam, and mostly it's them who come to us and we're able to do some good work out here. Regarding the trials that we have conducted, we do conduct some investigator-initiated studies, and we try to answer the questions where we can help our own patients. Like, for example, this PLANeT study. Every other patient in the clinic was almost not able to afford Keytruda at the full dose, pembrolizumab, and we had a lot of evidence creeping in that a lower dose might be helpful. And that's how we planned this study. Before that, there are certain cancers that are peculiar to India, like gallbladder cancer, head and neck cancers. These are much more common in India as compared to the U.S., and there are some good studies that have been conducted from our own institute by our senior colleagues which have been presented at ASCO and published in the JCO. We also did the capecitabine hand-foot syndrome study that was known as the D-ToRCH study: 1% diclofenac gel that became the standard of care to prevent hand-foot syndrome. So, that's kind of a brief overview of investigator-initiated studies. India is slowly and steadily becoming a partner of the global registration trials. And it's more recently, the last five years or so, we have seen that the number of phase 2 and phase 3 trials are increasing and we are able to offer now these trials as well to our patients. Dr. Monty Pal: That was a terrific overview. I just want to highlight for the audience, as we go through some of your discussions today around specific trials, the speed at which this can be done. Just for context, for me to accrue a clinical trial of 30 patients – I think many people have probably come across some of the work that I've done in the microbiome space – at a single institution, 30 patients, right, takes me about a year and a half, two years. We're going to go through some trials today where Dr. Batra and his team have actually, in fact, accrued close to 200 patients over a span of just a year, which is just remarkable by, I would say, any American standard. So, I see a real need for partnership and Atul, I'll kind of get back to that at the end. But without further ado, the focus of this podcast today, I think, is really this terrific presentation you gave in an oral session at ESMO and subsequently published in Annals of Oncology related to the PLANeT study. Would you give the listeners some context around what the study entailed and population and so forth? Dr. Atul Batra: So, we know the KEYNOTE-522 became the standard of care for triple-negative breast cancer, where Keytruda, when added at 200 mg, the standard dose every three weeks with neoadjuvant, increases the pCR from around 51% to 64% by a magnitude of around 13%. However, in India and other low-middle income countries, less than 5% of the patients actually have access to this dose of pembrolizumab. So, our standard of care was actually just chemotherapy till now. And this kind of led us to design this trial. There are data that come from previous trials conducted in India, from the Tata Memorial, done in head and neck space, some other studies done in Hodgkin's lymphoma, that a much lower dose, probably around one-tenth of the dose, works well in these cancers. So, that's where we designed the PLANeT study, where we gave the standard neoadjuvant chemotherapy in the control arm, and in the experimental arm we added 50 mg of pembrolizumab. This was given every six weeks for three doses. So, that's a total of 150 mg over the neoadjuvant period as compared to 1,600 mg that was given in the KEYNOTE-522 study. So, this was almost one-tenth of the study. Dr. Monty Pal: So, a tenth of the dose, which is just remarkable. I mean, that's just such an interesting concept. Dr. Atul Batra: And the results, when we – the primary outcome, this was a phase 2 study. We just wanted to see, is there a signal of activity? And to even our surprise, when we looked at the pathological complete response rates, in the control arm this was 40.5%, and in the experimental arm this was 53.8%. So, a difference came to around 13.3%; it was numerically, I mean, so much similar to what KEYNOTE-522 had with just these many doses. So, this was around 160 patients randomized over one year. We could randomize them in one year because of the load that we see. And the primary endpoint was met, and we could see that the path complete response did show a remarkable increase. We are still following these patients to see whether there is a difference in event-free survival at a longer follow-up. Until now, it's a small follow-up, so the number of events absolute, are different: four events in the experimental arm and 11 events in the control arm. So, we are seeing some signal even in this much short follow-up period as well. But we need to see more of what happens in the longer term. Dr. Monty Pal: That's so impressive. I wonder, with this lower dose, do you attenuate toxicity at all as far as you can gather? Dr. Atul Batra: So, although we shouldn't be doing kind of cross-trial comparisons, but if you look at thyroid dysfunction, we saw that around 10% of our patients had this thyroid dysfunction. This was compared to 15% in the KEYNOTE-522, that was a larger sample size though. But we're seeing that all the toxicities are somewhat less as compared to those in the standard dose. So, the exposure is less, but I mean, I can't really commit definitely on this. For this we would need much more data to say this with more confidence. Dr. Monty Pal: Yeah. I'm going to ask you a really tough question to follow up, and this is probably something that's on everyone's mind after reading a study like this. Is this something that is disease-specific that needs to be replicated across other histologies? The reason I ask this is, you know, you think about paradigms like, for instance, in the States we're toying between intravenous versus subcutaneous delivery of checkpoint inhibitors, and we have studies focused in specific histologies that might justify use across all histologies. With this particular phenomenon, do you think we need to do dedicated studies in renal cell or in colon cancer and other places where, you know, in selected settings we might use checkpoint inhibitors and then decide whether or not there's this dose equivalence, if you will? Dr. Atul Batra: That's a real tough one, though. But I'm happy to share that there are several ongoing studies within India currently. At our institute, my colleagues are leading studies in lung cancer space, cervical cancer. There was already a publication from Tata Memorial Hospital in head and neck cancers and we see that the signal has been consistent throughout. Regarding renal cancer, there was one study that was presented for sure at ASCO from CMC Vellore, that's again a center in South India. That was in RCC at a much lower dose. And for patients who cannot take the full dose, we actually are offering lower dose nivolumab in such patients and we are seeing responses. I mean, we haven't done those randomized trials again because the numbers are much lower in kidney cancers, we know. We could do this trial in triple-negative ones because we had support and we had numbers to conduct this trial. But I'm sure this should be a class effect. I mean, when we can get tumor-agnostic approvals, then some real-world data has come up in almost all tumors, we have seen that consistent effect across tumors. And as we speak of today, I'm also delighted to share that in India, yesterday, we had the first biosimilar of nivolumab and that's now available at a much, much lower price than the original patent product. There was a long ongoing lawsuit that was there, that's over now, and from yesterday onwards, I'm so happy to share here that we would have the first biosimilar of nivolumab that's available. That's going to bring the cost to almost like one-tenth already. Dr. Monty Pal: Wow. That's huge. I'm going to be very selfish here for a second and focus on a study that is in the renal cell space that your group has done. You know, when it came out, I was really sort of intrigued by this study as well and it reflects sort of a different capability, I think, of AIIMS New Delhi, and that's in the, what I'm going to call, biomarker space. This, for the audience, was a prospective effort to characterize germline variants in patients with advanced kidney cancer. And it's something that we talk about a lot in the kidney cancer literature, whether or not we're missing a lot of these so-called hereditary patterns of RCC. Can you tell us a little bit about that study too? Dr. Atul Batra: Yeah, so that was led by one of our fellows, Chitrakshi Nagpal, and she's just completed her fellowship. And two years back we published that. So, that was done in almost 160 consecutive patients that we recruited over the span of just one year and we saw, apart from the common known mutations in RCC, that was around 5% or so, but a lot of other mutations were also seen that we don't generally see in kidney cancers and we see in other cancers like BRCA1, BRCA2 and others. We are still, I mean, doing those analyses to see whether we get more things out of there in the somatic: is there a loss of heterozygosity or was it just present and in there? Dr. Monty Pal: I thought it was a terrific study and again, I was just so blown away at the pace. I mean, as I look at 140 patients accrued over a span of one year, this is something that would take us perhaps three times as long at City of Hope, and that's with a very sort of, what I consider to be large and dedicated kidney cancer program. So, it really underscores, I think, the need for collaboration. And ever since I came back from my visit to you at AIIMS Delhi, I think I've just been sort of transformed in the sense of trying to think of better ways for us to collaborate. One tangible thing that I'm going to get cracking on is seeing whether or not perhaps we can form some partnerships through SWOG or what we call the NCTN, the National Clinical Trials Network here within the U.S. Talk to me about collaboration. I mean, you've been really terrific at this. How do you sort of envision collaboration enhancing the global landscape of oncology? Dr. Atul Batra: That's really amazing, Monty. That's what we need. We have the infrastructure, we have the manpower, we have patients. I mean, these are all high-volume centers. Unfortunately, we are a little less in numbers, so we are more clinically occupied as well. So, sometimes it's kind of tougher, but again, when it comes to helping out the patients, global collaboration, we need to kind of take you guys along with us and have our patients finish trials earlier. This is a win-win situation for patients, one, because they also get exposure or an option to participate in the clinical trials, and second, we can answer all these scientific questions that we have at a much faster pace. All those things can be done within a much shorter span of time for sure. We are so happy to hear that, and with open hands we are ready to collaborate for all these efforts. Dr. Monty Pal: That's awesome. You know, I came back thinking, gosh, this would be so ideal for some of these rare subtypes of kidney cancer. Prospective clinical trials that I'm running in that space where really we're threatened with closure all the time. And if we just sort of extended a hand to, you know, our partners in India and other countries, you know, I'm sure we could get this research done in a meaningful way and that's got to be a win for patients. Atul, I had such a terrific time chatting with you today. I'm looking forward to seeing lots more productivity from your group there. By the way, for our viewership here, take a look and see what AIIMS New Delhi is doing under the leadership of Dr. Batra and others. It is just a real powerhouse and I think that after doing so, you'll be enticed to collaborate as well. I'm hoping this is the first of many times that we have you on the podcast. Thank you so much for joining. Dr. Atul Batra: Thank you so much for having me here, Monty. It was a pleasure as always speaking to you. And thank you again. Dr. Monty Pal: You got it. Well, and thanks to our listeners. I encourage you to check out Dr. Batra's paper. We'll actually have a link to the study in the transcript of this episode. Finally, if you value the insights that you heard today on the ASCO Daily News Podcast, please rate, review, and subscribe wherever you get your podcasts. Disclaimer: The purpose of this podcast is to educate and to inform. This is not a substitute for professional medical care and is not intended for use in the diagnosis or treatment of individual conditions. Guests on this podcast express their own opinions, experience, and conclusions. Guest statements on the podcast do not express the opinions of ASCO. The mention of any product, service, organization, activity, or therapy should not be construed as an ASCO endorsement. More on today's speakers: Dr. Monty Pal @montypal Dr. Atul Batra @batraatulonc Follow ASCO on social media: ASCO on X ASCO on Bluesky ASCO on Facebook ASCO on LinkedIn Disclosures: Dr. Monty Pal: Speakers' Bureau: MJH Life Sciences, IntrisiQ, Peerview Research Funding (Inst.): Exelixis, Merck, Osel, Genentech, Crispr Therapeutics, Adicet Bio, ArsenalBio, Xencor, Miyarsian Pharmaceutical Travel, Accommodations, Expenses: Crispr Therapeutics, Ipsen, Exelixis Dr. Atul Batra: Stock and Other Ownership Interests: Zydus Pharmaceuticals, Glenmark, Caplin Point Laboratories, Laurus Research Funding: AstraZeneca, Astellas Pharma, Alkem Laboratories

Dr. Monty Pal and Dr. Mary Feng discuss the latest advances in metastatic colorectal, gastric, and gastroesophageal cancers that were presented at the 2026 ASCO Gastrointestinal Cancers Symposium.

Dr. Monty Pal and Dr. Hope Rugo discuss advances in antibody-drug conjugates for various breast cancer types as well as treatment strategies in the new era of oral SERDs for HR-positive breast cancer. TRANSCRIPT Dr. Monty Pal: Hello, and welcome to the ASCO Daily News Podcast. I'm your host, Dr. Monty Pal. I'm a medical oncologist and vice chair of academic affairs here at the City of Hope Comprehensive Cancer Center, Los Angeles. Today, I'm thrilled to be joined by Dr. Hope Rugo, an internationally renowned breast medical oncologist and my colleague here at City of Hope, where she leads the Women's Cancers Program and serves as division chief of breast medical oncology. Dr. Rugo is going to share with us exciting advances in antibody-drug conjugates (ADCs) that are expanding treatment options in various breast cancer types. She'll also address some of the complex questions arising in the new era of oral SERDs (selective estrogen receptor degraders) that are revolutionizing treatment in the hormone receptor-positive breast cancer space. Our full disclosures are available in the transcript of this episode. Dr. Rugo, welcome, and thanks so much for being on the podcast today. Dr. Hope Rugo: Thank you. Pleasure to be here. Dr. Monty Pal: So, I'm going to switch to first names if you don't mind. The first topic is actually a really exciting one, Hope, and this is antibody-drug conjugates. I don't know if I've ever shared this with you, but I actually started my training at UCLA, I was a med student and resident there, and it was in Dennis Slamon's lab. I worked very closely with Mark Pegram and a handful of others. This is right around the time I think a lot of HER2-directed therapies were really evolving initially in the clinics. Now we've got antibody-drug conjugates. Our audience is well-familiar with the mechanism there but tell us about how ADCs have really started to reshape therapy for HER2-positive breast cancer. Dr. Hope Rugo: Yeah, I mean, this is a really great place to start. I mean, we have had such major advances in breast cancer just this year, I think really changing the paradigm of treating patients. But HER2-positive disease, we've been used to having sequenced success of new agents. And I think the two biggest areas where we've made advances in HER2-positive disease, which were remarkably advanced this year in 2025, have been in antibody-drug conjugates with trastuzumab deruxtecan and with new oral tyrosine kinase inhibitors (TKIs) that have less of a target on EGFR and more on HER2, so they have an overall more tolerable toxicity profile and therefore a potentially better efficacy in the clinic. At least that's what we're seeing with these new strategies that we couldn't really pursue in the past because of toxicities of the oral TKIs. So, although our topic is ADCs, I'm going to include the TKI because it's so important in our thinking about treating HER2-positive disease. In the metastatic setting, we've seen these remarkable improvements in progression-free and overall survival in the second-line setting with T-DXd, or trastuzumab deruxtecan, compared to T-DM1. And then sequencing ADCs with giving T-DXd after T-DM1 was better than an oral tyrosine kinase or a trastuzumab combination with standard chemotherapy. That was DESTINY-Breast03 and DESTINY-Breast02. So, then we've had other trials since then, and T-DXd has moved into the early-stage setting, which I'll talk about in just a moment. But the next big trial for T-DXd in HER2-positive disease was moving it to the first-line setting to supplant what has become an established treatment for now quite a long time: the so-called CLEOPATRA regimen, which used the combined antibodies trastuzumab, pertuzumab with a taxane as first-line therapy. And then we've proceeded on with maintenance with ongoing HP for patients with responding or stable disease. And we'd seen long-term data showing, you know, at 8 years there was a group of patients whose cancers had never progressed and continued improved overall survival. So, T-DXd was studied in DESTINY-Breast09, either alone or in combination with pertuzumab compared to THP. The patient population had received a little bit more prior treatment, but interestingly, not a lot compared to CLEOPATRA. And they designed the trial to be T-DXd continued until progression with or without pertuzumab versus THP, which would go for six cycles and then stop around six cycles, and then stop and continue HP. Patients who had hormone receptor-positive disease could use hormone therapy, and this is one of the issues with this dataset because, surprisingly in this dataset and one other I'll mention, very few patients took hormone therapy. And even in the maintenance trial, the HER2CLIMB-05, less than 50% took hormone therapy as maintenance. This is kind of shocking to me and highlights an area of really important education, that outcome is improved when you add endocrine therapy for hormone receptor-positive HER2-positive metastatic disease in the maintenance phase, and it's a really important part of treatment. But suffice it to say, you know, you're kind of studying continued chemo versus stopping chemo in maintenance. And T-DXd, as we all expected, in combination with pertuzumab was superior to THP in terms of progression-free survival, really remarkably improved. And you could stop the chemo with toxicity, but most people continued it with T-DXd. Again, not a lot of people got hormone therapy, which is an issue, and you stop the chemo in the control arm. So, this has brought up a lot of interest in trying to use T-DXd as an induction and then go to maintenance, much as we do with the CLEOPATRA regimen with hormone therapy. But it brings up another issue. So first, T-DXd is superior; it's a great treatment. Not everybody needs to have it because we don't know whether it's better to give T-DXd first or second with progression - that we need a little bit longer follow-up. But just earlier this week, interestingly, the third week of December, the U.S. FDA approved T-DXd in the DESTINY-Breast09 approach with pertuzumab. So as I mentioned earlier, there was a T-DXd-alone arm; that arm has not yet reported. So very interesting, we don't know if you need pertuzumab or not. So what about the maintenance? That's the other area where we've made a huge advance here. So, we all want to stop chemo and we want to stop T-DXd. You don't want somebody being nauseated for two years while they're on treatment, and also there's a small number of patients with mostly de novo metastatic HER2-positive disease who are cured of their disease. We'd like to expand that, and I think these new drugs give us the opportunity to improve the number of patients who might be cured from metastatic disease. So the first maintenance study we saw was adding palbociclib, the CDK4/6 inhibitor, to endocrine therapy and HP, essentially. There, we had a remarkable improvement in progression-free survival difference of 15.2 months: 29 to 44 months, really huge. At San Antonio this year, we saw data with this oral tyrosine kinase inhibitor tucatinib, already showed it was great in a triplet, but as maintenance in combination with HP, it showed also a remarkable improvement in progression-free survival. But the numbers were all shifted down. So in PATINA, the control arm was in the 24-month range; here it was the tucatinib-HP arm that was in the 25 months and 16 months for control. So there was a differential benefit in ER-negative and ER-positive disease. So I think we're all thinking that our ideal approach moving forward would be to give T-DXd to most patients, we see how they do, and treat to best response. And then, stop the T-DXd, start HP, trastuzumab, pertuzumab for ER-negative, with tucatinib for ER-positive with palbociclib. We also have early data that suggests that both approaches may reduce the development of brain metastases, an issue in HER2-positive disease, and delay time to progression of brain metastases as seen in HER2CLIMB-05 in very early data - small numbers, but still quite intriguing that you might delay progression of brain metastases with tucatinib that clearly has efficacy in the brain. So, I think that this is a hugely exciting advance for our patients, and these approaches are quickly moving into the early stage setting. T-DXd compared to standard chemo, essentially followed by THP, so a sequenced approach resulted in more pathologic complete responses than a standard THP-AC-type neoadjuvant therapy. T-DXd alone for eight cycles wasn't better, and that's interesting. We still need the sequenced non-cross-resistant chemo. But I think even more importantly, the data from DESTINY-Breast05 looking at T-DXd versus T-DM1 in patients with residual disease after neoadjuvant HER2-targeted therapy showed a remarkable improvement in invasive disease-free survival with T-DXd versus T-DM1, and quite early. It was a high-risk population, higher risk than the T-DM1 trial with KATHERINE, but earlier readout with a remarkable improvement in outcome. We expect to be FDA approved sometime in the first half of 2026. So then we'll get patients who've already had T-DXd who get metastatic disease. But my hope is that with T-DXd, maybe with tucatinib in the right group of patients or even sequenced in very high-risk disease, that we could cure many more patients with early-stage HER2-positive breast cancer and cure a subset, a greater subset of patients with de novo metastatic disease. Dr. Monty Pal: That's brilliant. And you tackled so many questions that I was going to follow up with there: brain metastases, etc. That was sort of looming in my mind. I mean, general thoughts on an ADC versus a TKI in the context of brain mets? Dr. Hope Rugo: Yeah, it's an interesting question because T-DXd has shown quite good efficacy in this setting. And tucatinib, of course, had a trial where they took patients with new brain mets, so a larger population than we've seen yet for the T-DXd trials, and saw that not only did they delay progression of brain metastases and result in shrinkage of existing untreated brain mets, but that patients who develop a new brain met, they could stay on the same assigned treatment. They got stereotactic radiation, and then the patients who were on tucatinib with trastuzumab and capecitabine had a further delay in progression of brain mets compared to those on the placebo arm, even after treatment of a new one that developed on treatment. So, I think it's hard. I think most of us for a lot of brain mets might start with the tucatinib approach, but T-DXd is also a very important treatment. You know, you're kind of trading off a diarrhea, some liver enzyme elevations with tucatinib versus nausea, which you really have to work on managing because it can be long-delayed nausea, and this risk of ILD, interstitial lung disease, that's about 12%, with most but not all trials showing a mortality rate from interstitial lung disease of just under 1 percent. In the early-stage setting, it was really interesting to see that with T-DXd getting four cycles in the neoadjuvant setting, a lot less ILD noted than the patients who got up to 14 cycles, as I think they got a median of 10 cycles in the post-surgical setting, there was a little bit more ILD. But I think we're going to be better and better at finding this earlier and preventing mortality by just stopping drug and treating earlier with steroids. Dr. Monty Pal: And this ILD issue, it always seems to resurface. There are drugs that I use in my kidney cancer clinic, everolimus, common to perhaps the breast cancer clinic as well, pembrolizumab, where I think the pattern of pneumonitis is quite different, right? What is your strategy for recognizing pneumonitis early in this context? Dr. Hope Rugo: Well, it is, and you know, having done the very early studies in everolimus where we gave it in the neoadjuvant setting and we're like, "Hmm, the patient came in with a cough. What's going on?" You know, we didn't know. And you have mouth sores, you know, we were learning about the drug as we were giving it. What we don't do with everolimus and CDK4/6 inhibitors, for example, is grade 1 changes like radiation pneumonitis, we don't stop, we don't treat it. We only treat for symptoms. But because of the mortality associated with T-DXd, albeit small, we stop drug for grade 1 imaging-only asymptomatic pneumonitis, and some of us treat with a half dose of steroids just to try and hasten recovery. We've actually now published or presented a couple of datasets from trials, a pooled analysis and a real-world analysis, that have looked at patients who were retreated after grade 1 pneumonitis or ILD and tolerated drug very well and none of them died of interstitial lung disease, which was really great to see because you can retreat safely and some of these patients stayed on for almost a year benefiting from treatment. So, there's a differential toxicity profile with these drugs and there are risk factors which clearly have identified those at higher risk: prior ILD, for example. A French group said smoking; other people haven't found that, maybe because they smoked more in France, I don't know. And being of Japanese descent is quite interesting. The studies just captured that you were treated in Japan, but I think it's probably being of Japanese descent with many drugs that increases your risk of ILD. And, you know, older patients, people who have hypoxia, those are the patients. So, how do we do this? With everolimus, we don't have specific monitoring. But for T-DXd we do; we do every nine weeks to start with and then every 12 weeks CT scans because most of the events occur relatively early. Somebody who's older and at higher risk now get the first CT at six weeks. Dr. Monty Pal: This is super helpful. And I have to tell you, a lot of these drugs are permeating the bladder cancer space which, you know, is ultimately going to be a component of my practice, so thank you for all this. We could probably stay on this topic of HER2-positive disease forever. I'm super interested in that space still. But let me shift gears a little bit and talk about triple-negative breast cancer and this evolving space of HR-positive, HER2-low breast cancer. I mean, tell us about ADCs in that very sort of other broad area. Dr. Hope Rugo: So triple-negative disease is the absolute hardest subset of disease that we have to treat because if you don't have a great response in the early stage setting, the median survival is very short, you know, under two years for the majority of TNBCs, with the exception of the small percentage of low proliferative disease subsets. The co-question is what do we do for these patients and how do we improve outcome? And sacituzumab govitecan has been one strategy in the later line setting that was shown to improve progression-free and overall survival, the Trop-2 ADC. We had recently three trials presented with the two ADCs, sacituzumab govitecan and the other Trop-2 ADC that's approved for HR-positive disease, datopotamab deruxtecan. And they were studied in the first-line setting. Two trials with SG, sacituzumab govitecan, those trials, one was PD-L1 positive, ASCENT-04. That showed that SG with a checkpoint inhibitor was superior, so pembrolizumab was superior to the standard KEYNOTE-355 type of treatment with either a taxane or gemcitabine and carboplatin with pembrolizumab for patients who have a combined positive score for PD-L1, 10 or greater. So, these are patients who are eligible for a checkpoint inhibitor, and SG resulted in an improved progression-free survival. The interesting thing about that dataset is that few patients had received adjuvant or neoadjuvant checkpoint inhibitor, which is fascinating because we give it to everybody now. But access is an issue and timing of the study enrollment was an issue. The other thing which I think we've all really applauded Gilead for is that there was automatic crossover. So, you could get from the company, to try and overcome some of the enormous disparities worldwide in access to these life-saving drugs, you could get SG through the company for free once you had blinded independent central review confirmation of disease progression. Now, a lot of the people who got the SG got it through their insurance, they didn't bill the company, but 80 percent of patients in the control arm received SG in the second-line setting. So that impacts your ability to look at overall survival, but it's an incredibly important component of these trials. So then at ESMO, we saw the data from SG and Dato-DXd in the first-line metastatic setting for patients who either had PD-L1-negative disease or weren't eligible for an immunotherapy. For the Dato study, TROPION-Breast02, that was 10 percent of the patients who had PD-L1-positive disease but didn't get a checkpoint inhibitor, and for the ASCENT-03 trial population it was only 1 percent. Importantly, the trials allowed patients who relapsed within a year of receiving their treatment with curative intent, and the Dato study, TB-02, allowed patients who relapsed while on treatment or within the first six months, and that was 15 percent of the 20 percent of early relapsers. The ASCENT trial, ASCENT-03, had 20 percent who relapsed between 6 and 12 months. The drugs were better than standard of care chemotherapy, the ADCs in both trials, which is very nice. Different toxicity profiles, different dosing intervals, but better than standard of care chemotherapy in the disease that's hardest for us to treat. And importantly, when you looked at the subset of early relapsers, those patients also did better with the ADC versus chemotherapy, which is incredibly important. And we were really interested in that 15 percent of patients who had early relapse. I actually think that six months thing was totally contrived, invented, you know, categorization and doesn't make any sense, and we should drop it. But the early relapsers were 15 percent of TB-02 and Dato was superior to standard of care chemo. We like survival, but the ASCENT trial again allowed the crossover to an approved ADC that improved survival and 80 percent of patients crossed over. In the Dato trial, they did not allow crossover, they didn't provide Dato, which isn't approved for TNBC but is for HR-positive disease, and they didn't allow, of course, pay for SG. So very few patients actually crossed over in their post-treatment data and in that study, they were able to show a survival benefit. So actually, I think in the U.S. where we can use approved drugs already before there's a fixed FDA approval, that people are already switching to use SG or Dato in the first-line setting for metastatic TNBC that's both PD-L1 positive for SG and PD-L1 negative for both drugs. And I think understanding the toxicity profiles of the two drugs is really important as well as the dosing interval to try and figure out which drug to use. Dr. Monty Pal: Brilliant. Brilliant. Well, I'm going to shift gears a little bit. ADCs are a topic, again, just like HER2-positive disease we could stay on forever. Dr. Hope Rugo: Huge. Yes. Dr. Monty Pal: But we're going to shift gears to another massive topic, which is oral SERDs. In broad strokes, right, this utilization of CDK4/6 inhibitors in the context of HR-positive breast cancer is obviously, you know, a paradigm that's been well established at this point. Where do we sequence in oral SERDs? Where do they fit into this paradigm? Dr. Hope Rugo: Ha! This is a rapidly changing area; we keep changing what we're saying every other minute. And I think that there are three areas of great interest. So one is patients who develop ESR1 mutations that allow constitutive signaling through the estrogen receptor, even when there's not estrogen around, and that is a really important mutation that is subclonal; it develops under the pressure of treatment in about 40 percent of patients. And it doesn't happen when you first walk in the door. And what we've seen is that oral SERDs as single agents are better than standard single-agent endocrine therapy in that setting. The problem that we've had with that approach is that we're now really interested in giving targeted agents with our endocrine therapies, not just in the first-line setting where CDK4/6 inhibitors are our standard of care with survival benefit for ribociclib and, you know, survival benefit in subsets with other CDK4/6 inhibitors, and abemaciclib with a numeric improvement. So we give it first line. The question is, what do you do in the second-line setting? Because of the recent data, we now believe that oral SERDs should be really given with a targeted agent. And some datasets which were recently presented, which I think have helped us with that, have been EMBER-3 and then the most recently evERA BC, or evERA Breast Cancer, that looked at the oral SERD giredestrant with everolimus compared to standard of care endocrine therapy with everolimus, where 100 percent of patients received prior CDK4/6 inhibitor and showed a marked improvement in progression-free survival, including in the subsets of patients with a short response, 6-12 months of prior response to CDK4/6 inhibitor and in those who had a PIK3CA pathway mutation. The thing is that the benefit looks like it's much bigger in the ESR1 mutant population, although response was better, PFS wasn't better in the wild type. So, we're still trying to figure that out. We also saw EMBER-3 with imlunestrant and abemaciclib as a second line. Not everybody had had a prior CDK4/6 inhibitor; they compared it to imlunestrant alone, but still the data was quite striking and seemed to cross the need for ESR1 mutations. And then lastly, we saw data from the single arms of the ELEVATE trial looking at elacestrant with everolimus and abemaciclib and showed these really marked progression-free survival data, even though single-arm, that crossed the mutation status. At least for the everolimus combination, abemaciclib analysis is still to come in the mutated subgroups. But really remarkable PFS, much longer. Single-agent fulvestrant after CDK4/6 inhibitor AI has a PFS in like the three-month range and in some studies, maybe close to five months. These are all at 10-plus months and really looking very good. And so those questions are, is it ESR1 mutation alone? Is it all comers? We'd like all comers, right? We believe in the combination approach and we're learning more about combinations with drugs like capivasertib and other drugs as we move forward. Everybody now wants to combine their targeted agent with an oral SERD because they're clearly here to stay with quite remarkable data. The other issue, so the second issue in the metastatic setting is, does it make a difference if we change to an oral SERD before radiographic imaging evidence of progression? And that was the question asked in the SERENA-6 trial where patients had serial monitoring for the presence of ESR1 mutations in ctDNA. And those who had them without progression on imaging could be randomized to switch to camizestrant with the same CDK4/6 inhibitor or stay on their same AI CDK4/6 inhibitor. And they showed a difference in progression-free survival that markedly favored camizestrant. But interestingly, the people who were on the standard control arm had an ESR1 mutation, we think AIs don't work, they stayed on for nine more months. The patients who were on the camizestrant stayed on for more than 16 months. And they presented some additional subset data which showed the same thing: follow-up PFS data, PFS2, all beneficial in SERENA-6 at the San Antonio [Breast Cancer Symposium]. So, we're still a little bit unclear about that. They did quality of life, and pain was markedly improved. They had a marked delayed time to progression of pain in the camizestrant arm. So this is all a work in progress, trying to understand who should we switch without progression to an oral SERD based on this development of this mutation that correlates with resistance. And, you know, it's interesting because the median time to having a mutation was 18 months and the median time to switch was almost 24 months. And then there were like more than 3,000 patients who hadn't gotten a mutation, hadn't switched, and were still okay. So screening everybody is the big question, and when you would start and who you would change on and how this affects outcome. Patients didn't have access to camizestrant in the control arm, something we can't fix but we have experimental drugs. We're actually planning a trial, I hope in collaboration with the French group Unicancer, and looking at this exact question. You know, if you switch and you change the CDK4/6 inhibitor and then you also allow crossover, what will we see? Dr. Monty Pal: We're coming right to the tail end of our time here, and I could probably go on for another couple of hours with you here. But if you could just give us maybe one or two big highlights from San Antonio, any thoughts to leave our audience with here based on this recent meeting? Dr. Hope Rugo: Yeah, I mean, I talked about a lot of those new data already from San Antonio, and the one that I'd really like to mention which I think was, you know, there were a lot of great presentations including personalized screening presented from the WISDOM trial by my colleague Laura Esserman, fascinating and really a big advance. But lidERA was the big highlight, I think, outside of the HER2CLIMB-05 which I talked about earlier in HER2-positive disease. And this study looked at giredestrant, the oral SERD versus standard of care endocrine therapy as treatment for medium and high-risk early-stage breast cancer. And what they showed, which I think was really remarkable with just about a three-year median follow-up, was an improvement in invasive disease-free survival with a hazard ratio of 0.7. I mean, really quite remarkable and so early. It looked as though this was all driven by the high-risk group, which makes sense, not the medium risk, it's too early. And also that there was a bigger benefit in patients who were on tamoxifen compared to giredestrant versus AI, but for both groups, the confidence intervals didn't cross 1. There's even a trend towards overall survival, even though it's way too early. I think that, you know, really well-tolerated oral drug that could improve outcome in early-stage disease, this is the first advance we've seen in over two decades in the treatment of early-stage hormone receptor-positive disease with just endocrine therapy. I think we think that we don't want to give up CDK4/6 inhibitors because we saw a survival benefit with abemaciclib and a trend with giving ribociclib in the NATALEE trial. So we're thinking that maybe one approach would be to give CDK4/6 inhibitors and then switch to an oral SERD or to have enough data to be able to give oral SERDs with these CDK4/6 inhibitors for early-stage disease. And that's all in the works, you know, lots of studies going on. We're going to see a lot of data with both switching 8,000 patients with an imlunestrant switching trial, an elacestrant trial going on, and safety data with giredestrant with abemaciclib and soon to come ribociclib. So, this is going to change everything for the treatment of early-stage breast cancer, and I hope cure more patients of the most common subset of the most common cancer diagnosed in women worldwide. Dr. Monty Pal: Super exciting. It's just remarkable to hear how this has evolved since 25 years ago, which is really the last time I sort of dabbled in breast cancer. Thank you so much, Hope, for joining us today. These were fantastic insights. Appreciate you being on the ASCO Daily News Podcast and really want to thank you personally for your remarkable contribution to the field of breast cancer. Dr. Hope Rugo: Thank you very much, and thanks for talking with me today. Dr. Monty Pal: You got it. And thanks a lot to our listeners today as well. You'll find links to all the studies we discussed today in the transcript of this episode. Finally, if you value the insights that you hear today on the ASCO Daily News Podcast, please rate, review, and subscribe wherever you get your podcasts. Disclaimer: The purpose of this podcast is to educate and to inform. This is not a substitute for professional medical care and is not intended for use in the diagnosis or treatment of individual conditions. Guests on this podcast express their own opinions, experience, and conclusions. Guest statements on the podcast do not express the opinion of ASCO. The mention of any product, service, organization, activity, or therapy should not be construed as an ASCO endorsement. Follow today's speakers: Dr. Monty Pal @montypal Dr. Hope Rugo @hoperugo Follow ASCO on social media: ASCO on X ASCO on Bluesky ASCO on Facebook ASCO on LinkedIn Disclosures: Dr. Monty Pal: Speakers' Bureau: MJH Life Sciences, IntrisiQ, Peerview Research Funding (Inst.): Exelixis, Merck, Osel, Genentech, Crispr Therapeutics, Adicet Bio, ArsenalBio, Xencor, Miyarsian Pharmaceutical Travel, Accommodations, Expenses: Crispr Therapeutics, Ipsen, Exelixis Dr. Hope Rugo: Honoraria: Mylan/Viatris, Chugai Pharma Consulting/Advisory Role: Napo Pharmaceuticals, Sanofi, Bristol Myer Research Funding (Inst.): OBI Pharma, Pfizer, Novartis, Lilly, Merck, Daiichi Sankyo, AstraZeneca, Gilead Sciences, Hoffman La-Roche AG/Genentech, In., Stemline Therapeutics, Ambryx

Dr. Jason Westin, a professor at MD Anderson and ASCO board member, dives into challenges oncologists may face by 2026, including funding cuts for cancer research and ongoing drug shortages. He emphasizes the need for advocacy, presenting strategies for oncologists to make a difference. Westin discusses the risk of losing U.S. leadership in research due to declining federal investment and explores policy solutions to ensure reliable drug manufacturing. His insights aim to empower oncologists to take an active role in shaping the future of cancer care.

Dr. Linda Duska and Dr. Kathleen Moore discuss key studies in the evolving controversy over radical upfront surgery versus neoadjuvant chemotherapy in advanced ovarian cancer. TRANSCRIPT Dr. Linda Duska: Hello, and welcome to the ASCO Daily News Podcast. I am your guest host, Dr. Linda Duska. I am a professor of obstetrics and gynecology at the University of Virginia School of Medicine. On today's episode, we will explore the management of advanced ovarian cancer, specifically with respect to a question that has really stirred some controversy over time, going all the way back more than 20 years: Should we be doing radical upfront surgery in advanced ovarian cancer, or should we be doing neoadjuvant chemotherapy? So, there was a lot of hype about the TRUST study, also called ENGOT ov33/AGO-OVAR OP7, a Phase 3 randomized study that compares upfront surgery with neoadjuvant chemotherapy followed by interval surgery. So, I want to talk about that study today. And joining me for the discussion is Dr. Kathleen Moore, a professor also of obstetrics and gynecology at the University of Oklahoma and the deputy director of the Stephenson Cancer Center, also at the University of Oklahoma Health Sciences. Dr. Moore, it is so great to be speaking with you today. Thanks for doing this. Dr. Kathleen Moore: Yeah, it's fun to be here. This is going to be fun. Dr. Linda Duska: FYI for our listeners, both of our full disclosures are available in the transcript of this episode. So let's just jump right in. We already alluded to the fact that the TRUST study addresses a question we have been grappling with in our field. Here's the thing, we have four prior randomized trials on this exact same topic. So, share with me why we needed another one and what maybe was different about this one? Dr. Kathleen Moore: That is, I think, the key question. So we have to level-set kind of our history. Let's start with, why is this even a question? Like, why are we even talking about this today? When we are taking care of a patient with newly diagnosed ovarian cancer, the aim of surgery in advanced ovarian cancer ideally is to prolong a patient's likelihood of disease-free survival, or if you want to use the term "remission," you can use the term "remission." And I think we can all agree that our objective is to improve overall survival in a way that also does not compromise her quality of life through surgical complications, which can have a big effect. The standard for many decades, certainly my entire career, which is now over 20 years, has been to pursue what we call primary cytoreductive surgery, meaning you get a diagnosis and we go right to the operating room with a goal of achieving what we call "no gross residual." That is very different – in the olden days, you would say "optimal" and get down to some predefined small amount of tumor. Now, the goal is you remove everything you can see. The alternative strategy to that is neoadjuvant chemotherapy followed by interval cytoreductive surgery, and that has been the, quote-unquote, "safer" route because you chemically cytoreduce the cancer, and so, the resulting surgery, I will tell you, is not necessarily easy at all. It can still be very radical surgeries, but they tend to be less radical, less need for bowel resections, splenectomy, radical procedures, and in a short-term look, would be considered safer from a postoperative consideration. Dr. Linda Duska: Well, and also maybe more likely to be successful, right? Because there's less disease, maybe, theoretically. Dr. Kathleen Moore: More likely to be successful in getting to no gross residual. Dr. Linda Duska: Right. Yeah, exactly. Dr. Kathleen Moore: I agree with that. And so, so if the end game, regardless of timing, is you get to no gross residual and you help a patient and there's no difference in overall survival, then it's a no-brainer. We would not be having this conversation. But there remains a question around, while it may be more likely to get to no gross residual, it may be, and I think we can all agree, a less radical, safer surgery, do you lose survival in the long term by this approach? This has become an increasing concern because of the increase in rates of use of neoadjuvant, not only in this country, but abroad. And so, you mentioned the four prior studies. We will not be able to go through them completely. Dr. Linda Duska: Let's talk about the two modern ones, the two from 2020 because neither one of them showed a difference in overall survival, which I think we can agree is, at the end of the day, yes, PFS would be great, but OS is what we're looking for. Dr. Kathleen Moore: OS is definitely what we're looking for. I do think a marked improvement in PFS, like a real prolongation in disease-free survival, for me would be also enough. A modest improvement does not really cut it, but if you are really, really prolonging PFS, you should see that- Dr. Linda Duska: -manifest in OS. Dr. Kathleen Moore: Yeah, yeah. Okay. So let's talk about the two modern ones. The older ones are EORTC and CHORUS, which I think we've talked about. The two more modern ones are SCORPION and JCOG0602. So, SCORPION was interesting. SCORPION was a very small study, though. So one could say it's underpowered. 170 patients. And they looked at only patients that were incredibly high risk. So, they had to have a Fagotti score, I believe, of over 9, but they were not looking at just low volume disease. Like, those patients were not enrolled in SCORPION. It was patients where you really were questioning, "Should I go to the OR or should I do neoadjuvant? Like, what's the better thing?" It is easy when it's low volume. You're like, "We're going." These were the patients who were like, "Hm, you know, what should I do?" High volume. Patients were young, about 55. The criticism of the older studies, there are many criticisms, but one of them is that, the criticism that is lobbied is that they did not really try. Whatever surgery you got, they did not really try with median operative times of 180 minutes for primary cytoreduction, 120 for neoadjuvant. Like, you and I both know, if you're in a big primary debulking, you're there all day. It's 6 hours. Dr. Linda Duska: Right, and there was no quality control for those studies, either. Dr. Kathleen Moore: No quality control. So, SCORPION, they went 451-minute median for surgery. Like, they really went for it versus four hours and then 253 for the interval, 4 hours. They really went for it on both arms. Complete gross resection was achieved in 50% of the primary cytoreduced. So even though they went for it with these very long surgeries, they only got to the goal half the time. It was almost 80% in the interval group. So they were more successful there. And there was absolutely no difference in PFS or OS. They were right about 15 months PFS, right about 40 months OS. JCOG0602, of course, done in Japan, a big study, 300 patients, a little bit older population. Surprisingly more stage IV disease in this study than were in SCORPION. SCORPION did not have a lot of stage IV, despite being very bulky tumors. So a third of patients were stage IV. They also had relatively shorter operative times, I would say, 240 minutes for primary, 302 for interval. So still kind of short. Complete gross resection was not achieved very often. 30% of primary cytoreduction. That is not acceptable. Dr. Linda Duska: Well, so let's talk about TRUST. What was different about TRUST? Why was this an important study for us to see? Dr. Kathleen Moore: So the criticism of all of these, and I am not trying to throw shade at anyone, but the criticism of all of these is if you are putting surgery to the test, you are putting the surgeon to the test. And you are assuming that all surgeons are trained equally and are willing to do what it takes to get someone to no gross residual. Dr. Linda Duska: And are in a center that can support the post-op care for those patients. Dr. Kathleen Moore: Which can be ICU care, prolonged time. Absolutely. So when you just open these broadly, you're assuming everyone has the surgical skills and is comfortable doing that and has backup. Everybody has an ICU. Everyone has a blood bank, and you are willing to do that. And that assumption could be wrong. And so what TRUST said is, "Okay, we are only going to open this at centers that have shown they can achieve a certain level of primary cytoreduction to no gross residual disease." And so there was quality criteria. It was based on – it was mostly a European study – so ESGO criteria were used to only allow certified centers to participate. They had to have a surgical volume of over 36 cytoreductive surgeries per year. So you could not be a low volume surgeon. Your complete resection rates that were reported had to be greater than 50% in the upfront setting. I told you on the JCOG, it was 30%. Dr. Linda Duska: Right. So these were the best of the best. This was the best possible surgical situation you could put these patients in, right? Dr. Kathleen Moore: Absolutely. And you support all the things so you could mitigate postoperative complications as well. Dr. Linda Duska: So we are asking the question now again in the ideal situation, right? Dr. Kathleen Moore: Right. Dr. Linda Duska: Which, we can talk about, may or may not be generalizable to real life, but that's a separate issue because we certainly don't have those conditions everywhere where people get cared for with ovarian cancer. But how would you interpret the results of this study? Did it show us anything different? Dr. Kathleen Moore: I am going to say how we should interpret it and then what I am thinking about. It is a negative study. It was designed to show improvement in overall survival in these ideal settings in patients with FIGO stage IIIB and C, they excluded A, these low volume tumors that should absolutely be getting surgery. So FIGO stage IIIB and C and IVA and B that were fit enough to undergo radical surgery randomized to primary cytoreduction or neoadjuvant with interval, and were all given the correct chemo. Dr. Linda Duska: And they were allowed bevacizumab and PARP, also. They could have bevacizumab and PARP. Dr. Kathleen Moore: They were allowed bevacizumab and PARP. Not many of them got PARP, but it was distributed equally, so that would not be a confounder. And so that was important. Overall survival is the endpoint. It was a big study. You know, it was almost 600 patients. So appropriately powered. So let's look at what they reported. When they looked at the patients who were enrolled, this is a large study, almost 600 patients, 345 in the primary cytoreductive arm and 343 in the neoadjuvant arm. Complete resection in these patients was 70% in the primary cytoreductive arm and 85% in the neoadjuvant arm. So in both arms, it was very high. So your selection of site and surgeon worked. You got people to their optimal outcome. So that is very different than any other study that has been reported to date. But what we saw when we looked at overall survival was no statistical difference. The median was, and I know we do not like to talk about medians, but the median in the primary cytoreductive arm was 54 months versus 48 months in the neoadjuvant arm with a hazard ratio of 0.89 and, of course, the confidence interval crossed one. So this is not statistically significant. And that was the primary endpoint. Dr. Linda Duska: I know you are getting to this. They did look at PFS, and that was statistically significant, but to your point about what are we looking for for a reasonable PFS difference? It was about two months difference. When I think about this study, and I know you are coming to this, what I thought was most interesting about this trial, besides the fact that the OS, the primary endpoint was negative, was the subgroup analyses that they did. And, of course, these are hypothesis-generating only. But if you look at, for example, specifically only the stage III group, that group did seem to potentially, again, hypothesis generating, but they did seem to benefit from upfront surgery. And then one other thing that I want to touch on before we run out of time is, do we think it matters if the patient is BRCA germline positive? Do we think it matters if there is something in particular about that patient from a biomarker standpoint that is different? I am hopeful that more data will be coming out of this study that will help inform this. Of course, unpowered, hypothesis-generating only, but it's just really interesting. What do you think of their subset analysis? Dr. Kathleen Moore: Yeah, I think the subsets are what we are going to be talking about, but we have to emphasize that this was a negative trial as designed. Dr. Linda Duska: Absolutely. Yes. Dr. Kathleen Moore: So we cannot be apologists and be like, "But this or that." It was a negative trial as designed. Now, I am a human and a clinician, and I want what is best for my patients. So I am going to, like, go down the path of subset analyses. So if you look at the stage III tumors that got complete cytoreduction, which was 70% of the cases, your PFS was almost 28 months versus 21.8 months. Dr. Linda Duska: Yes, it becomes more significant. Dr. Kathleen Moore: Yeah, that hazard ratio is 0.69. Again, it is a subset. So even though the P value here is statistically significant, it actually should not have a P value because it is an exploratory analysis. So we have to be very careful. But the hazard ratio is 0.69. So the hypothesis is in this setting, if you're stage III and you go for it and you get someone to no gross residual versus an interval cytoreduction, you could potentially have a 31% reduction in the rate of progression for that patient who got primary cytoreduction. And you see a similar trend in the stage III patients, if you look at overall survival, although the post-progression survival is so long, it's a little bit narrow of a margin. But I do think there are some nuggets here that, one of our colleagues who is really one of the experts in surgical studies, Dr. Mario Leitao, posted this on X, and I think it really resonated after this because we were all saying, "But what about the subsets?" He is like, "It's a negative study." But at the end of the day, you are going to sit with your patient. The patient should be seen by a GYN oncologist or surgical oncologist with specialty in cytoreduction and a medical oncologist, you know, if that person does not give chemo, and the decision should be made about what to do for that individual patient in that setting. Dr. Linda Duska: Agreed. And along those lines, if you look carefully at their data, the patients who had an upfront cytoreduction had almost twice the risk of having a stoma than the patients who had an interval cytoreduction. And they also had a higher risk of needing to have a bowel resection. The numbers were small, but still, when you look at the surgical complications, as you've already said, they're higher in the upfront group than they are in the interval group. That needs to be taken into account as well when counseling a patient, right? When you have a patient in front of you who says to you, "Dr. Moore, you can take out whatever you want, but whatever you do, don't make me a bag." As long as the patient understands what that means and what they're asking us to do, I think that we need to think about that. Dr. Kathleen Moore: I think that is a great point. And I have definitely seen in our practice, patients who say, "I absolutely would not want an ostomy. It's a nonstarter for me." And we do make different decisions. And you have to just say, "That's the decision we've made," and you kind of move on, and you can't look back and say, "Well, I wish I would have, could have, should have done something else." That is what the patient wants. Ultimately, that patient, her family, autonomous beings, they need to be fully counseled, and you need to counsel that patient as to the site that you are in, her volume of disease, and what you think you can achieve. In my opinion, a patient with stage III cancer who you have the site and the capabilities to get to no gross residual should go to the OR first. That is what I believe. I do not anymore think that for stage IV. I think that this is pretty convincing to me that that is probably a harmful thing. However, I want you to react to this. I think I am going to be a little unpopular in saying this, but for me, one of the biggest take-homes from TRUST was that whether or not, and we can talk about the subsets and the stage III looked better, and I think it did, but both groups did really well. Like, really well. And these were patients with large volume disease. This was not cherry-picked small volume stage IIIs that you could have done an optimal just by doing a hysterectomy. You know, these were patients that needed radical surgery. And both did well. And so what it speaks to me is that anytime you are going to operate on someone with ovary, whether it be frontline, whether it be a primary or interval, you need a high-volume surgeon. That is what I think this means to me. Like, I would want high volume surgeon at a center that could do these surgeries, getting that patient, my family member, me, to no gross residual. That is important. And you and I are both in training centers. I think we ought to take a really strong look at, are we preparing people to do the surgeries that are necessary to get someone to no gross residual 70% and 85% of the time? Dr. Linda Duska: We are going to run out of time, but I want to address that and ask you a provocative question. So, I completely agree with what you said, that surgery is important. But I also think one of the reasons these patients in this study did so well is because all of the incredible new therapies that we have for patients. Because OS is not just about surgery. It is about surgery, but it is also about all of the amazing new therapies we have that you and others have helped us to get through clinical research. And so, how much of that do you think, like, for example, if you look at the PFS and OS rates from CHORUS and EORTC, I get it that they're, that they're not the same. It's different patients, different populations, can't do cross-trial comparisons. But the OS, as you said, in this study was 54 months and 48 months, which is, compared to 2010, we're doing much, much better. It is not just the surgery, it is also all the amazing treatment options we have for these patients, including PARP, including MIRV, including lots of other new therapies. How do you fit that into thinking about all of this? Dr. Kathleen Moore: I do think we are seeing, and we know this just from epidemiologic data that the prevalence of ovarian cancer in many of the countries where the study was done is increasing, despite a decrease in incidence. And why is that? Because people are living longer. Dr. Linda Duska: People are living longer, yeah. Dr. Kathleen Moore: Which is phenomenal. That is what we want. And we do have, I think, better supportive care now. PARP inhibitors in the frontline, which not many of these patients had. Now some of them, this is mainly in Europe, will have gotten them in the first maintenance setting, and I do think that impacts outcome. We do not have that data yet, you know, to kind of see what, I would be really interested to see. We do not do this well because in ovarian cancer, post-progression survival can be so long, we do not do well of tracking what people get when they come off a clinical trial to see how that could impact – you know, how many of them got another surgery? How many of them got a PARP? I think this group probably missed the ADC wave for the most part, because this, mirvetuximab is just very recently available in Europe. Dr. Linda Duska: Unless they were on trial. Dr. Kathleen Moore: Unless they were on trial. But I mean, I think we will have to see. 600 patients, I would bet a lot of them missed the ADC wave. So, I do not know that we can say we know what drove these phenomenal – these are some of the best curves we've seen outside of BRCA. And then coming back to your point about the BRCA population here, that is a really critical question that I do not know that we're ever going to answer. There have been hypotheses around a tumor that is driven by BRCA, if you surgically cytoreduced it, and then chemically cytoreduced it with chemo, and so you're starting PARP with nothing visible and likely still homogeneous clones. Is that the group we cured? And then if you give chemo first before surgery, it allows more rapid development of heterogeneity and more clonal evolution that those are patients who are less likely to be cured, even if they do get cytoreduced to nothing at interval with use of PARP inhibitor in the front line. That is a question that many have brought up as something we would like to understand better. Like, if you are BRCA, should you always just go for it or not? I do not know that we're ever going to really get to that. We are trying to look at some of the other studies and just see if you got neoadjuvant and you had BRCA, was anyone cured? I think that is a question on SOLO1 I would like to know the answer to, and I don't yet, that may help us get to that. But that's sort of something we do think about. You should have a fair number of them in TRUST. It wasn't a stratification factor, as I remember. Dr. Linda Duska: No, it wasn't. They stratified by center, age, and ECOG status Dr. Kathleen Moore: So you would hope with randomization that you would have an equal number in each arm. And they may be able to pull that out and do a very exploratory look. But I would be interested to see just completely hypothesis-generating what this looks like for the patients with BRCA, and I hope that they will present that. I know they're busy at work. They have translational work. They have a lot pending with TRUST. It's an incredibly rich resource that I think is going to teach us a lot, and I am excited to see what they do next. Dr. Linda Duska: So, outside of TRUST, we are out of time. I just want to give you a moment if there were any other messages that you want to share with our listeners before we wrap up. Dr. Kathleen Moore: It's an exciting time to be in GYN oncology. For so long, it was just chemo, and then the PARP inhibitors nudged us along quite a bit. We did move more patients, I believe, to the cure fraction. When we ultimately see OS, I think we'll be able to say that definitively, and that is exciting. But, you know, that is the minority of our patients. And while HRD positive benefits tremendously from PARP, I am not as sure we've moved as many to the cure fraction. Time will tell. But 50% of our patients have these tumors that are less HRD. They have a worse prognosis. I think we can say that and recur more quickly. And so the advent of these antibody-drug conjugates, and we could name 20 of them in development in GYN right now, targeting tumor-associated antigens because we're not really driven by mutations other than BRCA. We do not have a lot of things to come after. We're not lung cancer. We are not breast cancer. But we do have a lot of proteins on the surface of our cancers, and we are finally able to leverage that with some very active regimens. And we're in the early phases, I would say, of really understanding how best to use those, how best to position them, and which one to select for whom in a setting where there is going to be obvious overlap of the targets. So we're going to be really working this problem. It is a good problem. A lot of drugs that work pretty well. How do you individualize for a patient, the patient in front of you with three different markers? How do you optimize it? Where do you put them to really prolong survival? And then we finally have cell surface. We saw at ASCO, CDK2 come into play here for the first time, we've got a cell cycle inhibitor. We've been working on WEE1 and ATR for a long time. CDK2s may hit. Response rates were respectable in a resistant population that was cyclin E overexpressing. We've been working on that biomarker for a long time with a toxicity profile that was surprisingly clean, which I like to see for our patients. So that is a different platform. I think we have got bispecifics on the rise. So there is a pipeline of things behind the ADCs, which is important because we need more than one thing, that makes me feel like in the future, I am probably not going to be using doxil ever for platinum-resistant disease. So, I am going to be excited to retire some of those things. We will say, "Remember when we used to use doxil for platinum-resistant disease?" Dr. Linda Duska: I will be retired by then, but thanks for that thought. Dr. Kathleen Moore: I will remind you. Dr. Linda Duska: You are right. It is such an incredibly exciting time to be taking care of ovarian cancer patients with all the opportunities. And I want to thank you for sharing your valuable insights with us on this podcast today and for your great work to advance care for patients with GYN cancers. Dr. Kathleen Moore: Likewise. Thanks for having me. Dr. Linda Duska: And thank you to our listeners for your time today. You will find links to the TRUST study and other studies discussed today in the transcript of this episode. Finally, if you value the insights that you hear on the ASCO Daily News Podcast, please take a moment to rate, review, and subscribe wherever you get your podcasts. Disclaimer: The purpose of this podcast is to educate and to inform. This is not a substitute for professional medical care and is not intended for use in the diagnosis or treatment of individual conditions. Guests on this podcast express their own opinions, experience, and conclusions. Guest statements on the podcast do not express the opinions of ASCO. The mention of any product, service, organization, activity, or therapy should not be construed as an ASCO endorsement. More on today's speakers: Dr. Linda Duska @Lduska Dr. Kathleen Moore Follow ASCO on social media: @ASCO on X (formerly Twitter) ASCO on Bluesky ASCO on Facebook ASCO on LinkedIn Disclosures of Potential Conflicts of Interest: Dr. Linda Duska: Consulting or Advisory Role: Regeneron, Inovio Pharmaceuticals, Merck, Ellipses Pharma Research Funding (Inst.): GlaxoSmithKline, Millenium, Bristol-Myers Squibb, Aeterna Zentaris, Novartis, Abbvie, Tesaro, Cerulean Pharma, Aduro Biotech, Advaxis, Ludwig Institute for Cancer Research, Leap Therapeutics Patents, Royalties, Other Intellectual Property: UptToDate, Editor, British Journal of Ob/Gyn Dr. Kathleen Moore: Leadership: GOG Partners, NRG Ovarian Committee Chair Honoraria: Astellas Medivation, Clearity Foundation, IDEOlogy Health, Medscape, Great Debates and Updates, OncLive/MJH Life Sciences, MD Outlook, Curio Science, Plexus, University of Florida, University of Arkansas for Medical Sciences, Congress Chanel, BIOPHARM, CEA/CCO, Physician Education Resource (PER), Research to Practice, Med Learning Group, Peerview, Peerview, PeerVoice, CME Outfitters, Virtual Incision Consulting/Advisory Role: Genentech/Roche, Immunogen, AstraZeneca, Merck, Eisai, Verastem/Pharmacyclics, AADi, Caris Life Sciences, Iovance Biotherapeutics, Janssen Oncology, Regeneron, zentalis, Daiichi Sankyo Europe GmbH, BioNTech SE, Immunocore, Seagen, Takeda Science Foundation, Zymeworks, Profound Bio, ADC Therapeutics, Third Arc, Loxo/Lilly, Bristol Myers Squibb Foundation, Tango Therapeutics, Abbvie, T Knife, F Hoffman La Roche, Tubulis GmbH, Clovis Oncology, Kivu, Genmab/Seagen, Kivu, Genmab/Seagen, Whitehawk, OnCusp Therapeutics, Natera, BeiGene, Karyopharm Therapeutics, Day One Biopharmaceuticals, Debiopharm Group, Foundation Medicine, Novocure Research Funding (Inst.): Mersana, GSK/Tesaro, Duality Biologics, Mersana, GSK/Tesaro, Duality Biologics, Merck, Regeneron, Verasatem, AstraZeneca, Immunogen, Daiichi Sankyo/Lilly, Immunocore, Torl Biotherapeutics, Allarity Therapeutics, IDEAYA Biosciences, Zymeworks, Schrodinger Other Relationship (Inst.): GOG Partners

Dr. Pauline Funchain, an expert in immunotherapy toxicities and co-founder of ASPIRE, discusses groundbreaking insights into managing immune-related adverse events. She shares the challenges of diagnosing and treating these unique toxicities compared to traditional autoimmune issues. The conversation dives into balancing immunosuppression with tumor control and explores predictive factors, including genetic influences. Funchain also highlights the nuances of toxicities associated with CAR-T cells and bispecific therapies, emphasizing the need for tailored management strategies.