111. Renzo Huber: Layer-fMRI, high-resolution fMRI, and the delicate balance between gourmet chef and janitor

Damian Blasi is a professor at the Pompeu Fabra University in Barcelona. We talk about his article 'Over-reliance on English hinders cognitive science', linguistic diversity, how to study across the world's languages, his career path, and much more.BJKS Podcast is a podcast about neuroscience, psychology, and anything vaguely related, hosted by Benjamin James Kuper-Smith.Support the show: https://geni.us/bjks-patreonTimestamps0:00:00: Why Damian studied physics0:06:31: How to deal with small, sparse, incomplete, imbalanced, noisy, and non-independent observational data0:09:38: Evolutionary advantages of different languages0:14:01: How Damian started doing research on linguistics0:20:09: How to study a language you don't speak0:28:58: Start discussing Damian's paper 'Over-reliance on English hinders cognitive science'0:48:25: What can experimental scientists do about the vast differences between cultures, especially of difficult to reach peoples? And how different are languages and cultures really?1:10:15: Why is New Guinea so (linguistically) diverse?1:17:34: Should I learn a common or a rare language? And where?1:29:09: A book or paper more people should read1:32:31: Something Damian wishes he'd learnt sooner1:33:56: Advice for PhD students/postdocsPodcast linksWebsite: https://geni.us/bjks-podBlueSky: https://geni.us/pod-bskyDamian's linksWebsite: https://geni.us/blasi-webGoogle Scholar: https://geni.us/blasi-scholarBlueSky: https://geni.us/blasi-bskyBen's linksWebsite: https://geni.us/bjks-webGoogle Scholar: https://geni.us/bjks-scholarBlueSky: https://geni.us/bjks-bskyReferencesWorld Atlas of Languages: https://en.wal.unesco.org/world-atlas-languagesThe Andamanese group that's hostile to strangers: https://en.wikipedia.org/wiki/Sentinelese"the war situation has developed not necessarily to Japan's advantage" https://en.wikipedia.org/wiki/Hirohito_surrender_broadcastBakker (2022). The sounds of life.Blasi ... Neubig (2021). Systematic inequalities in language technology performance across the world's languages. arXiv.Blasi ... Bickel (2019). Human sound systems are shaped by post-Neolithic changes in bite configuration. Science.Blasi ... Majid (2022). Over-reliance on English hinders cognitive science. Trends in cognitive sciences.Everett (2023). A myriad of tongues.Floyd ... Enfield (2018). Universals and cultural diversity in the expression of gratitude. Royal Society Open Science.Gordon (2004). Numerical cognition without words: Evidence from Amazonia. Science.Hossenfelder (2018). Lost in math.Koyama & Rubin (2022). How the world became rich.Nettle (1998). Explaining global patterns of language diversity. Journal of anthropological archaeology.Pica ... Dehaene (2004). Exact and approximate arithmetic in an Amazonian indigene group. Science.Skirgård ... Gray (2023). Grambank reveals the importance of genealogical constraints on linguistic diversity and highlights the impact of language loss. Science Advances.

Gordon Pennycook is an Associate Professor at Cornell University. We talk about his upbringing in rural Northern Canada, how he got into academia, and his work on misinformation: why people share it and what can be done about it.BJKS Podcast is a podcast about neuroscience, psychology, and anything vaguely related, hosted by Benjamin James Kuper-Smith.Support the show: https://geni.us/bjks-patreonTimestamps0:00:00: Straight outta Carrot River: From Northern Canada to publishing in Nature0:37:01: Exploration vs focusing on one topic: finding your research topic0:48:57: A sense of having made it0:54:17: Why apply reasoning research to religion?0:59:45: Starting working on misinformation 1:08:20: Defining misinformation, disinformation, and fake news1:15:52: Social media, the consumption of news, and Bayesian updating1:24:48: Reasons for why people share misinformation1:35:57: Are social media companies listening to Pennycook et al?1:38:19: Using AI to change conspiracy beliefs1:44:59: A book or paper more people should read1:46:33: Something Gordon wishes he'd learnt sooner1:48:12: Advice for PhD students/postdocsPodcast linksWebsite: https://geni.us/bjks-podBlueSky: https://geni.us/pod-bskyGordon's linksWebsite: https://geni.us/pennycook_webGoogle Scholar: https://geni.us/pennycook-scholarBlueSky: https://geni.us/pennycook-bskyBen's linksWebsite: https://geni.us/bjks-webGoogle Scholar: https://geni.us/bjks-scholarReferencesCostello, Pennycook & Rand (2024). Durably reducing conspiracy beliefs through dialogues with AI. Science.Dawkins  (2006). The God Delusion.MacLeod, ... & Ozubko (2010). The production effect: delineation of a phenomenon. Journal of Experimental Psychology: Learning, Memory, and Cognition.Nowak & Highfield (2012). Supercooperators: Altruism, evolution, and why we need each other to succeed.Pennycook, ... & Fugelsang (2012). Analytic cognitive style predicts religious and paranormal belief. Cognition.Pennycook, Fugelsang & Koehler (2015). What makes us think? A three-stage dual-process model of analytic engagement. Cognitive Psychology.Pennycook, Cheyne, Barr, Koehler & Fugelsang (2015). On the reception and detection of pseudo-profound bullshit. Judgment and Decision making.Pennycook & Rand (2019). Lazy, not biased: Susceptibility to partisan fake news is better explained by lack of reasoning than by motivated reasoning. Cognition.Pennycook & Rand (2021). The psychology of fake news. Trends in cognitive sciences.Rand (2016). Cooperation, fast and slow: Meta-analytic evidence for a theory of social heuristics and self-interested deliberation. Psychological Science.Stanovich (2005). The robot's rebellion: Finding meaning in the age of Darwin.Tappin, Pennycook & Rand (2020). Thinking clearly about causal inferences of politically motivated reasoning: Why paradigmatic study designs often undermine causal inference. Current Opinion in Behavioral Sciences.Thompson, Turner & Pennycook (2011). Intuition, reason, and metacognition. Cognitive Psychology.

Renzo Huber is a staff scientist at NIH. We talk about his work on layer-fMRI: what it  is, how Renzo got into it, how to do it, when it makes sense to do it, what the future holds, and much more.Support the show: https://geni.us/bjks-patreonTimestamps0:00:00: How Renzo got into high-resolution fMRI0:11:28: The difference between 3T and 7T fMRI0:22:46: Is a bigger fMRI scanner always better?0:33:35: Layer-fMRI0:56:28: For what types of research is layer-fMRI most useful?1:02:35: How to do layer-fMRI and make it reproducible1:19:21: The future of layer-fMRI1:27:02: A book or paper more people should read1:30:37: Something Renzo wishes he'd learnt sooner1:33:11: Advice for PhD students/postdocsPodcast linksWebsite: https://geni.us/bjks-podTwitter: https://geni.us/bjks-pod-twtRenzo's linksWebsite: https://geni.us/huber-webGoogle Scholar: https://geni.us/huber-scholarTwitter: https://geni.us/huber-twtBen's linksWebsite: https://geni.us/bjks-webGoogle Scholar: https://geni.us/bjks-scholarTwitter: https://geni.us/bjks-twtReferences and links mentionedEpisode with Peter Bandettini: https://geni.us/bjks-bandettiniEpisode with Emily Finn: https://geni.us/bjks-finnRenzo's blog about layer fMRI: https://layerfmri.com/YouTube channel on layer fMRI: https://www.youtube.com/@layerfmri/Bastos, ... & Friston (2012). Canonical microcircuits for predictive coding. Neuron.Bollmann & Barth (2021). New acquisition techniques and their prospects for the achievable resolution of fMRI. Progress in Neurobiology.Boulant, ... & Le Bihan (2024). In vivo imaging of the human brain with the Iseult 11.7-T MRI scanner. Nature Methods.Finn, ... & Bandettini (2019). Layer-dependent activity in human prefrontal cortex during working memory. Nature Neuroscience.Feynman (1985). "Surely you're joking, Mr. Feynman!": adventures of a curious character.Haarsma, Kok & Browning (2022). The promise of layer-specific neuroimaging for testing predictive coding theories of psychosis. Schizophrenia Research.Huber, ... & Bandettini (2017). High-resolution CBV-fMRI allows mapping of laminar activity and connectivity of cortical input and output in human M1. Neuron.Huber, ... & Möller (2019). Non-BOLD contrast for laminar fMRI in humans: CBF, CBV, and CMRO2. Neuroimage.Huber, ... & Bandettini (2020). Sub-millimeter fMRI reveals multiple topographical digit representations that form action maps in human motor cortex. Neuroimage.Huber, ... & Kronbichler (2023). Evaluating the capabilities and challenges of layer-fMRI VASO at 3T. Aperture Neuro.Huber, ... & Horovitz (2023). Laminar VASO fMRI in focal hand dystonia patients. Dystonia.Persichetti, ... & Martin (2020). Layer-specific contributions to imagined and executed hand movements in human primary motor cortex. Current Biology.Polimeni, ... & Wald (2010). Laminar analysis of 7 T BOLD using an imposed spatial activation pattern in human V1. Neuroimage.

Ella Marushchenko is a scientific illustrator who runs a studio of artists and scientists that creates cover art, scientific and illustrations, and more. We talk about her unlikely path from artist in Russia to scientific illustrator in the US, digital vs classic art, how to interact as scientists with illustrators, how to improve scientific figures, and much more.BJKS Podcast is a podcast about neuroscience, psychology, and anything vaguely related, hosted by Benjamin James Kuper-Smith.Support the show: https://geni.us/bjks-patreonTimestamps0:00:00: Ella's unlikely path to doing scientific illustrations0:33:17: Running a studio for scientific illustrations0:36:30: The process of commissioning a scientific figure0:46:44: The changing landscape of scientific publications and communication0:50:15: Unhelpful things to avoid when interacting with a science illustrator0:59:06: Who are scientific illustrations for?1:06:36: The purpose of illustrations in science1:16:09: How to learn to improve scientific figures1:22:30: How to become a scientific illustrator1:26:10: A book or paper more people should read1:27:48: Something Ella wishes she'd learnt sooner1:29:10: Advice for PhD students/postdocsPodcast linksWebsite: https://geni.us/bjks-podTwitter: https://geni.us/bjks-pod-twtElla's linksWebsite: https://geni.us/marushchenko-webTwitter: https://geni.us/marushchenko-twtBen's linksWebsite: https://geni.us/bjks-webGoogle Scholar: https://geni.us/bjks-scholarTwitter: https://geni.us/bjks-twtReferences and linksSome pictures by Sergey Krasnov: https://www.flickr.com/photos/sergey_krasnov/Sergiy Minko: https://scholar.google.com/citations?user=TMotc_wAAAAJScience diagrams that look like shitposts: https://x.com/scienceshitpostMy photo of the elephant at the Muséum national d'histoire naturelle: https://www.bjks.blog/nature/3n6ljuy6noa5470tdsbcuicltu48dfEpisode about Cajal: https://geni.us/bjks-ehrlich Bulgakov (1967). The Master and Margarita.

Roberto Bottini is an Associate Professor at the University of Trento. We talk about his recent work on unusual cognitive maps in blind people, image spaces, metaphors, and he gives me some advice for writing successful grant applications.BJKS Podcast is a podcast about neuroscience, psychology, and anything vaguely related, hosted by Benjamin James Kuper-Smith.Support the show: https://geni.us/bjks-patreonTimestamps0:00:00: Roberto's background0:03:20: Start discussing Roberto's paper on altered grid cells in visually impaired people: theoretical background0:16:28: Methods & results: walking on a clock face / altered grid cells: fourfold symmetry0:47:48: Start discussing Roberto's paper on cognitive maps and image spaces (TiCS)0:52:05: Egocentric and allocentric perspectives0:55:27: Metaphors and analogies1:00:08: Tips for grant applications1:14:18: A book or paper that more people should read1:18:38: Something Roberto wishes he'd learnt sooner1:20:30: Advice for PhD students/postdocsPodcast linksWebsite: https://geni.us/bjks-podTwitter: https://geni.us/bjks-pod-twtRoberto's linksWebsite: https://geni.us/bottini-webGoogle Scholar: https://geni.us/bottini-scholarTwitter: https://geni.us/bottini-twtBen's linksWebsite: https://geni.us/bjks-webGoogle Scholar: https://geni.us/bjks-scholarTwitter: https://geni.us/bjks-twtReferencesAronov, ... & Tank (2017). Mapping of a non-spatial dimension by the hippocampal–entorhinal circuit. Nature.Bisiach & Luzzatti (1978). Unilateral neglect of representational space. Cortex.Bottini & Doeller (2020). Knowledge across reference frames: Cognitive maps and image spaces. Trends in Cognitive Sciences.Casasanto (2009). Embodiment of abstract concepts: good and bad in right-and left-handers. Journal of experimental psychology: General.Constantinescu, ... & Behrens (2016). Organizing conceptual knowledge in humans with a gridlike code. Science.Derdikman, ... & Moser (2009). Fragmentation of grid cell maps in a multicompartment environment. Nature neuroscience.Eichenbaum (2014). Time cells in the hippocampus: a new dimension for mapping memories. Nature Reviews Neuroscience.Gardenfors (2004). Conceptual spaces: The geometry of thought.Gentner (1983). Structure-mapping: A theoretical framework for analogy. Cognitive science.He & Brown (2019). Environmental barriers disrupt grid-like representations in humans during navigation. Current Biology.Horner, ... & Burgess (2016). Grid-like processing of imagined navigation. Current Biology.Jaynes (1976). The Origin of Consciousness in the Breakdown of the Bicameral Mind.Park, ... & Boorman (2021). Inferences on a multidimensional social hierarchy use a grid-like code. Nature Neuroscience.Sigismondi, ... & Bottini (2024). Altered grid-like coding in early blind people. Nature Communications.Stangl, ... & Wolbers (2018). Compromised grid-cell-like representations in old age as a key mechanism to explain age-related navigational deficits. Current Biology.Tolman (1948). Cognitive maps in rats and men. Psychological Review.Whittington, ... & Behrens (2022). How to build a cognitive map. Nature Neuroscience.

Robert (Bob) Wilson is an Associate Professor of Psychology at Georgia Tech. We talk about his tutorial paper (w/ Anne Collins) on computational modelling, and some of his recent work on detecting phishing.BJKS Podcast is a podcast about neuroscience, psychology, and anything vaguely related, hosted by Benjamin James Kuper-Smith.Support the show: https://geni.us/bjks-patreonTimestamps0:00:00: Bob's strange path through computational cognitive neuroscience0:07:37: Phishing: a computational model with real-life applications0:25:46: Start discussing Bob's paper 10 simple rules for computational modeling of behavioral data0:32:15: Rule 0: Why even do computational modelling?0:46:24: Rules 1 & 2: Design a good experiment & Design a good model1:02:51: Rule 3: Simulate!1:05:48: Rules 4 & 5: Parameter estimation and recovery1:18:28: Rule 6: Model recovery1:25:55: Rules 7 & 8: Collect data and validate the model1:33:15: Rule 9: Latent variable analysis1:36:24: Rule 10: Report your results1:37:46: Computational modelling and the open science movement1:40:17: A book or paper more people should read1:43:35: Something Bob wishes he'd learnt sooner1:47:18: Advice for PhD students/postdocsPodcast linksWebsite: https://geni.us/bjks-podTwitter: https://geni.us/bjks-pod-twtRobert's linksWebsite: https://geni.us/wilson-webGoogle Scholar: https://geni.us/wilson-scholarTwitter: https://geni.us/wilson-twtBen's linksWebsite: https://geni.us/bjks-webGoogle Scholar: https://geni.us/bjks-scholarTwitter: https://geni.us/bjks-twtReferencesEpisodes w/ Paul Smaldino: https://geni.us/bjks-smaldinohttps://geni.us/bjks-smaldino_2Bechara, Damasio, Damasio, & Anderson (1994). Insensitivity to future consequences following damage to human prefrontal cortex. Cognition.Feng, Wang, Zarnescu & Wilson (2021). The dynamics of explore–exploit decisions reveal a signal-to-noise mechanism for random exploration. Scientific Reports.Grilli, ... & Wilson (2021). Is this phishing? Older age is associated with greater difficulty discriminating between safe and malicious emails. The Journals of Gerontology: Series B.Hakim, Ebner, ... & Wilson (2021). The Phishing Email Suspicion Test (PEST) a lab-based task for evaluating the cognitive mechanisms of phishing detection. Behavior research methods.Harootonian, Ekstrom & Wilson (2022). Combination and competition between path integration and landmark navigation in the estimation of heading direction. PLoS Computational Biology.Hopfield (1982). Neural networks and physical systems with emergent collective computational abilities. PNAS.MacKay (2003). Information theory, inference and learning algorithms.Miller, Eugene & Pribram (1960). Plans and the Structure of Behaviour.Sweis, Abram, Schmidt, Seeland, MacDonald III, Thomas, & Redish (2018). Sensitivity to “sunk costs” in mice, rats, and humans. Science.Walasek & Stewart (2021). You cannot accurately estimate an individual’s loss aversion using an accept–reject task. Decision.Wilson & Collins (2019). Ten simple rules for the computational modeling of behavioral data. Elife.

Nick Wise is a postdoc in fluid dynamics at Cambridge University. We talk about his 'detective work' on publication fraud which has gotten more than 800 papers retracted to date, including tortured phrases, discovering Facebook groups and Telegram channels in which people sell authorships on papers, how 'Special' issues can be exploited, and what we can do about this.BJKS Podcast is a podcast about neuroscience, psychology, and anything vaguely related, hosted by Benjamin James Kuper-Smith.Support the show: https://geni.us/bjks-patreonTimestamps0:00:00: How Nick got involved with publication fraud: tortured phrases0:18:26: Why do people try to publish nonsense papers?0:24:27: The ecosystem of fraudulent publishing0:30:22: 'Special' issues0:49:02: How does Nick do this detective work?1:00:37: What can we do about publication fraud?1:38:52: There are practically no jobs to work full-time on fraud detection1:49:37: A book or paper more people should read1:55:13: Something Nick wishes he'd learnt sooner1:57:21: Advice for PhD students/postdocsPodcast linksWebsite: https://geni.us/bjks-podTwitter: https://geni.us/bjks-pod-twtNick's linksWebsite: https://geni.us/n-wise-webGoogle Scholar: https://geni.us/n-wise-scholarTwitter: https://geni.us/n-wise-twtBen's linksWebsite: https://geni.us/bjks-webGoogle Scholar: https://geni.us/bjks-scholarTwitter: https://geni.us/bjks-twtReferences & linksEpisodes with Eugenie Reich: https://geni.us/bjks-reichEpisode with Elisabeth Bik: https://geni.us/bjks-bikEpisode with Adam Mastroianni: https://geni.us/bjks-mastroianni_2Dorothy Bishop awards 2024: https://www.ukrn.org/2024/03/28/winners-of-the-2024-dorothy-bishop-prize/Nick's guest blog post on Dorothy Bishop's blog: http://deevybee.blogspot.com/2022/10/what-is-going-on-in-hindawi-special.htmlNick's talk at Cambridge: https://sms.cam.ac.uk/media/4117618Everything Hertz podcast: https://everythinghertz.com/James Heathers's series of posts on Hindawi: https://jamesclaims.substack.com/p/the-hindawi-files-part-1-the-timelineCoffeezilla: https://www.youtube.com/@CoffeezillaBarnaby Jack's talk at DefCon: https://www.youtube.com/watch?v=FkteGFfvwJ0Cabanac, Labbé & Magazinov (2021). Tortured phrases: A dubious writing style emerging in science. Evidence of critical issues affecting established journals. arXiv.Mastroianni & Ludwin-Peery (2022). Things could be better. https://doi.org/10.31234/osf.io/2uxwkReich (2009). Plastic fantastic: How the biggest fraud in physics shook the scientific world.

This is the 2nd part of my interview with Eugenie Reich, who is a lawyer who represents scientific whistleblowers, and a former investigative science journalist. We talk about her transition from journalism to law, and discuss the legal aspects of scientific fraud: why fraudsters rarely go to prison, what whistleblowers are legally allowed to do, how and when to seek legal advice, and much more. Obviously, none of this is legal advice, but hopefully it provides some useful pointers.BJKS Podcast is a podcast about neuroscience, psychology, and anything vaguely related, hosted by Benjamin James Kuper-Smith.Support the show: https://geni.us/bjks-patreonTimestamps0:00:00: How Eugenie went from science journalist to being a lawyer and defending whistleblowers0:13:15: Why do most people who commit scientific fraud not go to prison?0:32:36: What are whistleblowers allowed to do?0:48:24: What if I get sued for reporting scientific misconduct?0:56:32: How do fraudsters try to intimidate whistleblowers?1:01:24: What if I can't afford legal help?1:06:18: Eugenie's plans for the futurePodcast linksWebsite: https://geni.us/bjks-podTwitter: https://geni.us/bjks-pod-twtEugenie's linksWebsite: https://geni.us/reich-webTwitter: https://geni.us/reich-twtBen's linksWebsite: https://geni.us/bjks-webGoogle Scholar: https://geni.us/bjks-scholarTwitter: https://geni.us/bjks-twtReferences and linksWoo-Suk Hwang affair: https://en.wikipedia.org/wiki/Hwang_affairTheranos: https://en.wikipedia.org/wiki/TheranosCassava: https://www.science.org/content/article/company-misled-investors-possible-alzheimer-s-drug-sec-chargesEric Poehlman: https://en.wikipedia.org/wiki/Eric_PoehlmanLuk van Parijs: https://en.wikipedia.org/wiki/Luk_Van_ParijsThe Scientific Integrity Fund: https://scientificintegrityfund.org/Reich (2009). Plastic fantastic: How the biggest fraud in physics shook the scientific world.Reich (2011). Fraud case we might have seen coming. Nature News.

Eugenie Reich is an attorney who represents scientific whistleblowers, and a former investigative science journalist. We talk about her previous work as a science journalist, in particular her book Plastic Fantastic about one of the biggest fraud cases in physics, the case of Jan-Hendrik Schön. We'd planned to also discuss Eugenie's current work as an attorney, but spent all our time on the Schön case. Eugenie kindly agreed to do another interview, in which we cover the legal aspects of fraud, which will be the next episode (#106).BJKS Podcast is a podcast about neuroscience, psychology, and anything vaguely related, hosted by Benjamin James Kuper-Smith.Support the show: https://geni.us/bjks-patreonTimestamps0:00:00: One of the biggest fraud cases in physics/all of science0:05:47: How and why Eugenie started writing about the Schön case0:09:26: Why did Schön commit fraud?0:19:30: Schön's PhD: he never saved any original data0:30:05: Bell Labs vs. Schön's PhD lab: long-term revolutions vs. short-term applications0:36:42: Schön's first work at Bell Labs was 'unpublishable'0:41:42: How to get away with fraud: pretend you collected data in another lab0:47:45: Bertram Batlogg and the role of the supervisors of fraudsters0:56:20: How the bursting of the Dot-Com Bubble and 9/11 may (indirectly) have exacerbated Schön's fraud1:01:09: How to use your colleagues' ideas to commit better fraud1:05:05: How Schön's fraud unraveled1:13:45: What is Schön doing now?1:18:11: A book or paper more people should read1:20:20: Something Eugenie wishes she'd learnt sooner1:22:58: Advice for PhD students/postdocsPodcast linksWebsite: https://geni.us/bjks-podTwitter: https://geni.us/bjks-pod-twtEugenie's linksWebsite: https://geni.us/reich-webTwitter: https://geni.us/reich-twtBen's linksWebsite: https://geni.us/bjks-webGoogle Scholar: https://geni.us/bjks-scholarTwitter: https://geni.us/bjks-twtReferences and linksEpisode with Simine Vazire: https://geni.us/bjks-vazireEpisode with Elisabeth Bik: https://geni.us/bjks-bikBell Labs (2002). The Schon report: https://media-bell-labs-com.s3.amazonaws.com/pages/20170403_1709/misconduct-revew-report-lucent.pdfReich (2009). Plastic fantastic: How the biggest fraud in physics shook the scientific world.Shapin & Schaffer (1985). Leviathan and the air-pump: Hobbes, Boyle, and the experimental life.

James (Mac) Shine is a PI and fellow at the University of Sydney. We talk about his background in sports, using fMRI to integrate various parts of neuroscience, collaboration, and much more.BJKS Podcast is a podcast about neuroscience, psychology, and anything vaguely related, hosted by Benjamin James Kuper-Smith.Support the show: https://geni.us/bjks-patreonTimestamps0:00:00: Mac's sporting background0:07:46: Overview of Mac's review in Nature (w/ Emily Finn and Russell Poldrack)0:14:03: The role of great editors in improving scientists and their work0:32:53: Connecting different levels of description0:40:07: Integration and specialisation0:48:49: You can scan any animal with fMRI - but they're usually anaesthetised0:54:13: The transfer from human fMRI to animal electrophysiology1:01:53: N=1 studies and layer-fMRI in clinical neuroscience1:16:17: Collaboration and building a multidisciplinary lab1:26:52: The magic formula in science: annoyance, excitement, and a constructive mindset1:34:51: Writing grants as a test to oneself, and the art of reframing1:41:52: A book or paper more people should read1:43:37: Something Mac wishes he'd learnt sooner1:45:43: Advice for PhD students/postdocsPodcast linksWebsite: https://geni.us/bjks-podTwitter: https://geni.us/bjks-pod-twtMac's linksWebsite: https://geni.us/shine-webGoogle Scholar: https://geni.us/shine-scholarTwitter: https://geni.us/shine-twtBen's linksWebsite: https://geni.us/bjks-webGoogle Scholar: https://geni.us/bjks-scholarTwitter: https://geni.us/bjks-twtReferences and linksOHMB interview: https://www.youtube.com/watch?v=ucDj_94ovaUBoyden, ... & Deisseroth (2005). Millisecond-timescale, genetically targeted optical control of neural activity. Nature Neuroscience.Finn, Poldrack & Shine (2023). Functional neuroimaging as a catalyst for integrated neuroscience. Nature.Friston, ... (2017). Active inference: a process theory. Neural Computation.Munn, ... Larkum & Shine (2023). A thalamocortical substrate for integrated information via critical synchronous bursting. PNAS.Newbold, ... & Dosenbach (2020). Plasticity and spontaneous activity pulses in disused human brain circuits. Neuron.Pezzulo & Cisek (2016). Navigating the affordance landscape: feedback control as a process model of behavior and cognition. TiCS.Poldrack, ... (2015). Long-term neural and physiological phenotyping of a single human. Nature Communications.Rao & Ballard (1999). Predictive coding in the visual cortex: a functional interpretation of some extra-classical receptive-field effects. Nature Neuroscience.Shine, ... (2011). Visual misperceptions and hallucinations in Parkinson's disease: dysfunction of attentional control networks?. Movement Disorders.Shine, ... & Poldrack (2016). The dynamics of functional brain networks: integrated network states during cognitive task performance. Neuron.Shine, ... & Poldrack (2016). Temporal metastates are associated with differential patterns of time-resolved connectivity, network topology, and attention. PNAS.Shine & Poldrack (2018). Principles of dynamic network reconfiguration across diverse brain states. NeuroImage.