Neurotech Pub

This episode features Paradromics CEO Matt Angle in a compelling discussion with Amit Etkin, Founder and CEO of Alto Neuroscience; Maryam Shanechi, Dean's Professor in Electrical and Computer Engineering, Neuroscience, Computer Science, and Biomedical Engineering at USC; and Prasad Shirvalkar, Associate Professor of Neurological Surgery, Neurology and Anesthesia at UC San Francisco. They delve into the intersection of neurotechnology and psychiatry, discussing innovative approaches to treating mental health disorders, the potential of machine learning models, and the challenges associated with obtaining and analyzing brain data. The discussion emphasizes the importance of interdisciplinary collaboration and the promising future of personalized therapies for psychiatric conditions. They also address the limitations of current diagnostic tools like the DSM and the need for scalable, real-world solutions. Guest Quote:“There's artificial intelligence and there's actual intelligence. And that actual intelligence, when it comes to analyzing data, I feel goes a really, really long way. True subject matter expertise.” - Amit EtkinTimestamps:*(00:00) Welcome to Neurotech Pub*(00:45) Icebreaker: Unpopular Beliefs*(05:36) Non-surgical brain activity recording and diagnostics*(13:32) Understanding pain: Subjective reports vs. physical representations*(16:33) Rethinking psychiatry and DSM alignment*(21:07) Determining brain data needs and tool validation*(26:47) The need for explainability in AI algorithms*(35:49) Timescales in mental health interventions*(41:22) Advice for aspiring neurotech researchers*(46:25) Closing Thoughts Want More?Learn about Neurotech Pub on TwitterFollow Paradromics on Twitter, LinkedIn, and InstagramFollow Matt on LinkedIn and Twitter Hosted by Simplecast, an AdsWizz company. See pcm.adswizz.com for information about our collection and use of personal data for advertising.

This episode features Paradromics CEO Matt Angle in a compelling discussion with Sumner Norman, Co-founder & CEO at Forest Neurotech; Ryan Field,CEO at Kernel; and Mary Lou Jepsen, Founder and CEO of Openwater. They share their career influences, discuss the challenges of managing interdisciplinary teams, and explore the future of neuroimaging and brain-computer interfaces (BCIs). Delving into ultrasound and optical-based techniques, they highlight the transformative potential of non-invasive methods for diagnosing and treating brain conditions. Furthermore, they addresses regulatory hurdles, the evolution of focused research organizations, and offers valuable advice for early-career researchers on leveraging industry trends and fundamental research to drive technological advancements. Guest Quote:“And I think what we're trying to work on is the silicon hospital of the future with this capability, like the modern smartphone, that can reach everybody, regardless of income levels or borders.” - Mary Lou Jepsen Timestamps:*(00:00) Welcome to Neurotech Pub*(00:06) Meet the Guests*(02:48) Balancing Mentorship and Startup Demands*(05:36) Interdisciplinary Challenges in Neurotech*(07:11) Hardware Development and Efficiency*(18:12) Medical Device Development and Regulatory Challenges*(23:37) Technical Deep Dive: Optical and Acoustic Signatures*(24:00) Ultrasound in Brain-Computer Interfaces*(34:57) Near-Infrared Spectroscopy and Mental Health*(55:55) Understanding Stroke and Thrombectomy*(56:51) Innovations in Cancer Treatment and Blood Flow Analysis*(57:39) Challenges and Trials in Medical Technology*(58:42) Open Source Medical Technology and Global Collaboration*(58:59) The Evolution of Brain-Computer Interfaces*(01:02:42) Advancements in Ultrasound Technology*(01:03:39) The Role of MEMS and Silicon in Medical Devices*(01:09:29) The Importance of Fundamental Research*(01:14:48) The Future of Neurotechnology and Industry Trends*(01:17:58) Advice for Aspiring Researchers and Entrepreneurs*(01:29:41) Leadership and Transition in Tech Companies*(01:40:07) Focused Research Organizations and Their Impact*(01:46:08) Final Thoughts and Optimism for Neurotech Want More?Learn about Neurotech Pub on TwitterFollow Paradromics on Twitter, LinkedIn, and InstagramFollow Matt on LinkedIn and Twitter Hosted by Simplecast, an AdsWizz company. See pcm.adswizz.com for information about our collection and use of personal data for advertising.

This episode features Paradromics CEO Matt Angle in a compelling discussion with Grayson Zulauf, CEO of Resonant Link; Alex Yeh, CTO and VP of R&D at Neuspera Medical; and Jacob Robinson, Founder and CEO of Motif Neurotech. They explore the latest advancements in neurotechnology, focusing on wireless power transfer, implantable devices, and brain-computer interfaces (BCIs). The conversation highlights transformative innovations in treating mental health conditions like major depressive disorder, OCD, and ADHD with less invasive wireless devices, enhancing patient care and acceptance. Personal stories and insights on market expansion and patient-friendly treatments are shared, along with valuable advice for investors on the potential of neurotechnology in improving overall mental health and medical care.Guest Quote:“The message that I would want to send is, there is a future in which we look at neurotechnologies no differently than we look at cardiac pacemakers.These are life saving devices, in many cases less invasive than a device that goes in your heart. There's no reason why  anybody wouldn't want to feel better. To be healthier mentally and just live a better quality of life. So that's what we're trying to enable” - Jacob RobinsonShow Notes:*(00:00) Welcome to Neurotech Pub*(00:46) Meet the Guests*(02:45) Discussing Industry Competitors*(09:54) Wireless Power Transfer in Medical Devices*(16:38) Exploring Inductive and Magnetoelectric Power*(27:35) Ultrasound in real-world devices*(33:31) Patient Experience and Device Miniaturization*(36:24) Designing for Patient Comfort and Practicality*(38:20) Innovations in Power and Data Transmission*(39:32) Miniaturization and Its Impact*(41:12) Battery Technology in Medical Devices*(43:19) Future of Implantable Batteries*(45:16) Implanted Battery Companies Integer and Resonetics*(46:31) Intermittent Stimulation and Therapy*(49:28) Power Consumption in Future Implants*(59:52) Data Transmission and Compression*(01:05:42) Reflections on the Journey of Medical Innovation*(01:08:36) Final Thoughts and Messages to InvestorsWant More?Follow Neurotech Pub on TwitterFollow Paradromics on Twitter, LinkedIn, and InstagramFollow Matt on LinkedIn and Twitter Hosted by Simplecast, an AdsWizz company. See pcm.adswizz.com for information about our collection and use of personal data for advertising.

We’re back with Part II of our two-part series on Connectomics! In part one we speculated on the legal and ethical implications of emerging technologies in the connectomics field. In part two, we don our lab coats and take a deep dive into the latest research tools, from fixation protocols for the preservation of neural tissue, to multimodal imaging techniques, to the machine intelligence designed to interpret massive data sets and reconstruct the vast neural circuits that make up the connectome. Our guests are:  Kenneth Hayworth, PhD, President and Co-Founder of the Brain Preservation Foundation, Senior Scientist at the Howard Hughes Medical Institute’s Janelia Farm Research Campus (JFRC) Robert McIntyre, CEO at Nectome Jeremy Maitin-Shepard, PhD, Software Engineer–Connectomics at Google In this episode, Ken and Robert from part one return to the pub, and we are also joined by Jeremy Maitin-Shepard, an engineer and researcher at Google, who shares insights into some of the machine intelligence modalities being used to decode previously uncharted neural networks. Check out Jeremy’s recent paper on BioRxiv, as well as his published work at Google. If you missed part one, you can listen and explore the show notes here. Cheers!Show Notes: 0:00 | Intro1:03 | Kenneth Hayworth, PhD1:12 | Robert McKintyre, CEO, Nectome1:17 | Jeremy Maitin-Shepard, PhD1:51 | Setting the record straight 3:09 | The nucleotide sequence of bacteriophage φX1744:22 | Frozen Zoo at San Diego Zoo12:01| Glutaraldehyde and reduction techniques for immunolabeling 17:39 | SWITCH Framework19:14 | Population Responses in V1 Encode Different Figures by Response Amplitude Enhanced mirror neuron network activity and effective connectivity during live interaction among female subjects Permeabilization-free en bloc immunohistochemistry for correlative microscopy 19:57 | Synaptic Signaling in Learning and Memory Structure and function of a neocortical synapse Engineering a memory with LTD and LTP Synapse-specific representation of the identity of overlapping memory engrams 20:28 | Ultrastructure of Dendritic SpinesStructure–stability–function relationships of dendritic spines 24:25 | Reconstructing the connectome 24:32 | Connectomics Research Team at Google 24:55 | Google x HHMI: Releasing the Drosophila Hemibrain Connectome 28:38 | Serial Block-Face Scanning Electron Microscopy 29:22 | Automated Serial Sections to Tape29:45 | Mapping connections in mouse neocortex30:59 | A connectome and analysis of the adult Drosophila central brain 32:14 | Expansion Microscopy34:37 | The future of connectomics 45:13 | Contribution of apical and basal dendrites to orientation encoding in mouse V1 L2/3 pyramidal neurons49:49 | Mice and rats achieve similar levels of performance in an adaptive decision-making task Want More?Follow Neurotech Pub on TwitterFollow Paradromics on Twitter, LinkedIn, and InstagramFollow Matt on LinkedIn and Twitter Hosted by Simplecast, an AdsWizz company. See pcm.adswizz.com for information about our collection and use of personal data for advertising.

Welcome back to Neurotech Pub! In this first installment of two episodes on Connectomics, host and Paradromics CEO Matt Angle kicks off a lively discussion on the rapidly accelerating research in the mapping, preservation, and reconstruction of the human connectome. We explore the ethical and legal ramifications of disruptive technology, and some of the unique challenges faced when driving innovation in emerging industries. Our guests are:  Nita Faraheny, JD, PhD, Everett Distinguished Professor of Law & Philosophy at Duke Law School, the Founding Director of Duke Science & Society, the Faculty Chair of the Duke MA in Bioethics & Science Policy, and principal investigator of SLAP Lab.  Kenneth Hayworth, PhD, President and Co-Founder of the Brain Preservation Foundation, Senior Scientist at the Howard Hughes Medical Institute’s Janelia Farm Research Campus (JFRC) Robert McIntyre, CEO at Nectome As an exciting new development since the recording of this episode, Nita recently published a book, The Battle for Your Brain, which examines many topics in neuroethics, from Connectomics to Brain-Computer Interfaces. It is currently available on Amazon.Keep an eye out for part two in this series, which will take a deep dive into the latest technical and engineering innovations in the connectomics ecosystem. Coming soon!Please be advised that this episode contains a brief discussion of assisted suicide in a medical setting.Show Notes: 0:00 | Episode Intro 1:16 | Nita A. Farahany, JD, PhD1:21 | Kenneth Hayworth, PhD1:27 | Robert McKintyre, CEO, Nectome1:56 | Meeting of the minds 2:53 | Aldehyde-stabilized cryopreservation wins final phase of brain preservation prize3:56 | The Brain Preservation Foundation4:09 | Documentary series on the Brain Preservation Foundation5:21 | Letter of Support for Aldehyde Stabilized Cryopreservation (and ‘next steps’ caveats)5:51 | Nita's 2018 Neuroethics Ted Talk 5:54 | International Neuroethics Society6:25 | Connectomics & new paths in neuroscience 8:10 | Allen Institute for Brain Science8:47 | A connectome and analysis of the adult Drosophila central brain9:33 | A visual intro to synaptic imaging in connectomics10:28 | The structure of the nervous system of the nematode Caenorhabditis elegans 11:16 | Mouse Connectome Project at CIC14:59 | Cryonics controversy 19:00 | Death, taxes, and synapses 20:51 | Uniform Law Commission21:08 | The Uniform Determination of Death Act24:25 | Watch Altered Carbon on Netflix25:49 | Understanding the “Loss of Chance” Doctrine 37:13 | Understanding Physician-Assisted Death, or ‘Death with Dignity’ 40:21 | Euthanasia in the Netherlands46:01 | Autonomy, Dignity, and Consent to Harm, Rutgers Law Review Want More?Follow Neurotech Pub on TwitterFollow Paradromics on Twitter, LinkedIn, and InstagramFollow Matt on LinkedIn and Twitter Hosted by Simplecast, an AdsWizz company. See pcm.adswizz.com for information about our collection and use of personal data for advertising.

Luis de Lecea, Stanford psychiatry professor who studies sleep circuits; Ram Gurumoorthy, neuroscientist-technologist building stimulation sleep wearables; Amy Kruse, venture partner focused on neurotech and sleep startups. They explore why we sleep, DNA repair and glymphatic cleanup, cross-species sleep tricks, neural rhythms and stimulation approaches, and realistic timelines for consumer sleep tech.

The Panel: Jan Scheuermann is an author and public speaker, and self-styled “professional lab rat.” She has spoken at DARPA, the Johns Hopkins Applied Physics Laboratory, and the National Convention of the ALS Association about her experience as a BCI trial participant at UPitt. She is the author of a fictional mystery novel, Sharp as a Cucumber, available on Amazon. You can find out more about Jan and book her for public speaking events on her website or connect with her on LinkedIn. Ian Burkhart is the President of the Ian Burkhart Foundation, which provides equipment not typically covered by insurance that improves independence for those with spinal cord injuries. He is also the Vice President of the North American Spinal Cord Injury Consortium, an advocacy organization that brings individuals with lived experience together with researchers to improve research, care, cure, and policy. In addition, Ian consults on medical device development and user interaction. Ian’s latest project is the BCI Pioneers Coalition, a platform to connect BCI users, researchers, industry, and other stakeholder groups to discuss the future of Brain Computer Interfaces. You can visit him on his website or connect with him on LinkedIn, Twitter, and Instagram. Nathan Copeland is a neurotechnology consultant, speaker, and digital artist. He has spoken at numerous conventions around the world about his experiences in the lab and has been featured in many prominent publications including, but not limited to, Wired, MIT Tech Review, NPR, Fortune, and the Atlantic. He is the creator of the first BCI NFTs, available on OpenSea. You can connect with Nathan on Instagram, Twitter, and Linkedin. 00:00 | Intro0:14 | Neurotech Pub Episode 13: BCI Pioneers Part I0:47 | Neurotech Pub Episode 10: Business Models in Neurotech1:30 | BCI & Identity1:30 | New Yorker - Do Brain Implants Change Your Identity?2:09 | The Utah Array (Blackrock Neurotech)16:05 | Learn more about Hector in Part 117:14 | Talking Form Factors18:36 | CerePlex System22:36 | Support Systems in BCI Adoption38:35 | Get in Touch38:54 | The Ian Burkhart Foundation39:13 | Book Ian as a speaker39:25 | North American Spinal Cord Injury Consortium (NASCIC)40:04 | Where to find Ian40:19 | Contact Nathan40:25 | Nathan on Instagram, LinkedIn, and Twitter40:32 | Nathan's NFTs on OpenSeaLinks to Jan’s lab photos and how to get in touch can be found hereWant More?Follow Paradromics on Twitter, LinkedIn, and InstagramFollow Blackrock Neurotech on Twitter, LinkedIn, and InstagramFollow Taryn on LinkedIn, Instagram, and TwitterFollow Matt on LinkedIn and Twitter Hosted by Simplecast, an AdsWizz company. See pcm.adswizz.com for information about our collection and use of personal data for advertising.

In this very special two part series in collaboration with Blackrock Neurotech, Paradromics CEO Matt Angle and Blackrock Creative Director Taryn Southern co-host a discussion with BCI research pioneers Jan Scheuermann, Ian Burkhart, and Nathan Copeland. In part one, we discuss their personal journeys to becoming BCI pioneers, implant experiences with the Utah Array,  their time in the lab, and some of their current projects. Learn more about Jan, Ian, and Nathan below and stay tuned for part two, coming in July 2022! The Panel: Jan Scheuermann is an author and public speaker, and self-styled “professional lab rat.” She has spoken at DARPA, the Johns Hopkins Applied Physics Laboratory, and the National Convention of the ALS Association about her experience as a BCI trial participant at UPitt. She is the author of a fictional mystery novel, Sharp as a Cucumber, available on Amazon. You can find out more about Jan and book her for public speaking events on her website or connect with her on LinkedIn. Ian Burkhart is the President of the Ian Burkhart Foundation, which provides equipment not typically covered by insurance that improves independence for those with spinal cord injuries. He is also the Vice President of the North American Spinal Cord Injury Consortium, an advocacy organization that brings individuals with lived experience together with researchers to improve research, care, cure, and policy. In addition, Ian consults on medical device development and user interaction. Ian’s latest project is the BCI Pioneers Coalition, a platform to connect BCI users, researchers, industry, and other stakeholder groups to discuss the future of Brain Computer Interfaces. You can visit him on his website or connect with him on LinkedIn, Twitter, and Instagram. Nathan Copeland is a neurotechnology consultant, speaker, and digital artist. He has spoken at numerous conventions around the world about his experiences in the lab and has been featured in many prominent publications including, but not limited to, Wired, MIT Tech Review, NPR, Fortune, and the Atlantic. He is the creator of the first BCI NFTs, available on OpenSea. You can connect with Nathan on Instagram, Twitter, and Linkedin. 00:00 | Intro6:10 | Who came first?7:07 | Jan Scheuermann7:18 | Tim Hemmes & the UPitt/UPMC Team8:05 | New Yorker profile of Jan and the UPitt team8:55 | View Jan’s photos from the lab10:10 | Nathan Copeland13:00 | Parietal Cortex13:22 | Saccade Movements14:12 | The Pioneer Experience16:04 | Neuro Life Study | Additional Reference | Interview with Ian | Archives of PMR18:15 | Mirror Therapy23:50 | Jan in the Pilot Seat25:07 | Ian's Experience in the Car Simulator25:53| Thinking About Thinking31:24 | Jan's novel, Sharp as a Cucumber37:37 | View Jan’s photos from the lab38:04 | Andy Schwartz38:45 | Nathan's NFTs43:22 | Nathan's Instagram45:03 | 15 Minutes of Fame45:12 | A Presidential Greeting45:45 | Jan on 60 Minutes45:54 | Jan in SciAM46:00 | Book Jan as a keynote speaker46:32 | SfN47:05 | Investment in BCI47:17 | The Ian Burkhart FoundationWant More?Follow Paradromics on Twitter, LinkedIn, and InstagramFollow Blackrock Neurotech on Twitter, LinkedIn, and InstagramFollow Taryn on LinkedIn, Instagram, and TwitterFollow Matt on LinkedIn and Twitter Hosted by Simplecast, an AdsWizz company. See pcm.adswizz.com for information about our collection and use of personal data for advertising.

Welcome back to Neurotech Pub!This episode is part two of a two part series on optical methods for recording and stimulating neural activity. Our guests on this episode are Elizabeth Hillman, PhD,  Mark Schnitzer, PhD, and Jacob Robinson, PhD. Last time we talked about optical recording methods, but in this episode we focus on optical stimulation methods. Cheers!Check out video and full transcript here: https://www.paradromics.com/podcast/episode-12-mind-control-with-lasers00:00 | Intro1:37 | Aspirational Papers1:56 | Packer Lab 2:10 | What is the claustrum?2:30 | Ian's paper (but only part of it!)3:02 | Two-Photon Bidirectional Control and Imaging In Vivo3:29 | Inferring Spikes from Calcium Imaging5:45 | Neuropixels are now in humans7:12 | Paper by Pachitariu et al 7:55 | Ian Oldenburg10:02 | Kaufman Lab11:21 | Cortical activity in the null space: permitting preparation without movement12:08 | Motor cortical dynamics shaped by multiple distinct subspaces during naturalistic behavior12:33 | Tickling Cells with Light14:41 | Light-activated ion channels for remote control of neuronal firing14:50 | Remote Control of Behavior through Genetically Targeted Photostimulation of Neurons15:20 | Millisecond-timescale, genetically targeted optical control of neural activity16:03 | Red-shifted Opsins16:52 | eNpHR: a Natronomonas halorhodopsin enhanced for optogenetic applications17:26 | Genetically Targeted Optical Control of an Endogenous G Protein-Coupled Receptor18:16 | Neural Dust18:41 | Wireless magnetothermal deep brain stimulation19:05 | Neural Stimulation Through Ultrasound19:20 | Methods and Modalities: Sculpting Light21:35 | Recent advances in patterned photostimulation for optogenetics22:50 | Two-photon microscopy is now over 30 years old (Denk 1990)25:22 | Optical Recording State of the Art27:06 | Challenges of Deep Tissue 2-Photon Imaging28:21 | Deisseroth Lab28:29 | Temporal Precision of Optical Stimulation29:09 | Simultaneous all-optical manipulation and recording 30:40 | Targeted Ablation in Somatosensory Cortex 33:29 | Commercially Available Fast Opsins34:41 | Recent paper from Deisseroth Lab41:17 | Cortical layer–specific critical dynamics triggering perception42:21 | The Utah Array from Blackrock Neurotech44:52 | Principles of Corticocortical Communication50:43 | The Cost of Cortical Computation51:27 | Behaviour-dependent recruitment of long-range projection neurons in somatosensory cortex (2013) | Spatiotemporal convergence and divergence in the rat S1 "barrel" cortex (1987) | Diverse tuning underlies sparse activity in layer 2/3 vibrissal cortex of awake mice (2019) 52:56 | Gollisch and Meister 200853:22 | Spike Timing-Dependent Plasticity (STDP)1:05:09 | Neurotech Pub Episode 11 -  Let There Be Light1:05:20 | Forecasting the Future1:05:41 | Temporally precise single-cell-resolution optogenetics1:06:16 | Large Scale Ca++ Recordings from Vaziri Lab1:07:11 | Cohen Lab1:07:19 | All Optical Electrophysiology 1:14:19 | Emiliani et al 20151:16:33 | All-Optical Interrogation of Neural Circuits1:16:53 | Mice Strains @ Jackson Lab1:17:00 | The Allen Institute1:20:39 | Neuroscience and Engineering Collaborations1:18:39 | Nicolas Pegard1:18:47 | Adesnik Lab1:24:41 | Shenoy, Sahani, and Churchland 20131:24:52 | Dimensionality reduction for large-scale neural recordings1:25:17 | Matlab: Understanding Kalman Filters1:25:58 | Two-photon excitation microscopy1:26:37 | Emiliani Lab Holography course1:26:57 | Optics by Eugene Hecht1:28:05 | Intro to Optics Course1:29:41 | What the Heck Is a Claustrum?1:33:53 | Cortical activity in the null space: permitting preparation without movement1:34:33 | Neural Manifolds and Learning1:35:19 | Locked-in Syndrome1:36:58 | Sabatini Lab1:37:07 | Probing and regulating dysfunctional circuits using DBS1:39:36 | Sliman Bensmaia | Nicho Hatsopoulos1:39:43 | The science and engineering behind sensitized brain-controlled bionic hands1:41:20 | Michael Long's singing rodents1:42:12 | Engram1:43:06 | Chang Lab1:43:19 | Tim Gardner | Michale FeeWant more? Follow Paradromics & Neurotech Pub on Twitter  Follow Matt A, Ian, Adam, & Matt K on Twitter Hosted by Simplecast, an AdsWizz company. See pcm.adswizz.com for information about our collection and use of personal data for advertising.

Welcome back to Neurotech Pub! This episode is one of a two part series on optical methods for recording and stimulating neural activity. Our guests on this episode are Elizabeth Hillman, PhD,  Mark Schnitzer, PhD, and Jacob Robinson, PhD. So far, our technical dives have focused mainly on direct electrical recording and stimulation of neural activity, but in this episode we deep dive into advantages that all-optical interfaces might have over electrical interfaces, and the challenges in developing them. In addition, we talk about running highly collaborative, interdisciplinary projects that span traditional physics and engineering with biology, a theme that is ever-present in neurotech and is also highlighted in part two of this series. Cheers!Check out full video with transcript here: https://www.paradromics.com/podcast/episode-11-let-there-be-lightShow NotesLatest news & publications since recording: >> Hillman Lab: New publication on SCAPE in Nature Biomedical Engineering>> Robinson Lab: Review article in Optica on Recent advances in lensless imaging>> Robinson Lab: BioRxiv pre-print on in vivo fluorescence imaging1:23 | The Heart and Soul of a Paper2:32| Ultrasmall Mode Volumes in Dielectric Optical Microcavities3:01 | Robinson Lab4:01 | Hillman Lab4:07 | Zuckerman Institute4:15 | Schnitzer Lab4:25 | Howard Hughes Medical Institute4:41| Miniature Fluorescence Microscope9:02 | Discovery of DNA Structure and Function10:25 | Hodgkin–Huxley Equations13:49 | Vessel Dilation in the Brain16:03 | State of the art of Neural Optical Recording18:03 | Long-Term Optical Access to an Estimated One Million Neurons in Mouse Cortex24:56 | Watch the Crystal Skull video27:45 | High-Speed Cellular-Resolution Light Beads Microscopy29:54 | Relationship between spiking activity and calcium imaging32:50 | Analytical & Quantitative Light Microscopy [AQLM]32:59 | Imaging Structure & Function in the Nervous System35:22 | NIH Brain Initiative Cell Census Network (BICCN)35:54 | Allen Brain Atlas: Cell Types40:17 | A Theory of Multineuronal Dimensionality, Dynamics and Measurement46:19 | Dr. Laura Waller's DIY Diffuser Cam50:38 | FlatCam by Robinson Lab53:42 | Advantages of MEG55:06| Random Access Two Photon Scanning Techniques56:07 | Swept Confocally-Aligned Planar Excitation (SCAPE)58:47 | Optics Systems for Implantable BCIs1:00:43 | GCaMP - Janelia GECI reagents1:01:33 | DARPA NESD Program1:04:06 | SCAPE Microscopy for High-Speed Volumetric Imaging of Behaving Organisms1:07:00 | Glial Response to Implanted Electrodes1:07:07 | Brain Tissue Responses to Neural Implants1:09:36 | Two Deaths in Gene Therapy Trial for Rare Muscle Disease1:10:46 | Intrinsic Optical Signal due to Blood Oxygenation1:11:11 | Coupling Mechanism and Significance of the BOLD Signal1:12:10 | DARPA invests in Treating Mood Disorders1:12:57 | Amygdalar Representations of Pain1:13:48 | Fast Optical Signals: Principles, Methods, and Experimental Results1:14:12 | Dr. Larry Cohen's early work in Neurophotonics1:14:42 | Linear Systems Analysis of Functional Magnetic Resonance Imaging | Additional Resource1:16:20 | Flavoprotein Fluorescence Imaging in Neonates | Additional Resource1:18:02 | Pumped Probe Microscopy1:19:26 | Biological Imaging of Chemical Bonds by Stimulated Raman Scattering Microscopy1:19:36 | Coherent Anti-Stokes Raman Scattering microscopy (CARS)1:19:55 | Min Lab @ Columbia1:20:06 | Glucose Analog for Stimulated Raman Scattering1:20:39 | Emerging Paradigms for Aspiring NeurotechnologistsWant more? Follow Paradromics & Neurotech Pub on Twitter  Follow Matt, Elizabeth, Jacob & Mark  Hosted by Simplecast, an AdsWizz company. See pcm.adswizz.com for information about our collection and use of personal data for advertising.