I rarely use the words transformative or breakthrough for neuroscience findings. The brain is complex, noisy, chaotic, and often unpredictable. One intriguing result under one condition may soon fail for a majority of others. Whats more, paradigm-shifting research trends often require revolutionary tools. When were lucky, those come once a decade.
But I can unabashedly say that the 2010s saw a boom in neuroscience breakthroughs that transformed the field and will resonate long into the upcoming decade.
In 2010, the idea that wed be able to read minds, help paralyzed people walk again, incept memories, or have multi-layered brain atlases was near incomprehensible. Few predicted that deep learning, an AI model loosely inspired by neural processing in the brain, would gain prominence and feed back into decoding the brain. Around 2011, I asked a now-prominent AI researcher if we could automatically detect dying neurons in a microscope image using deep neural nets; we couldnt get it to work. Today, AI is readily helping read, write, and map the brain.
As we cross into the next decade, it pays to reflect on the paradigm shifts that made the 2010s the decade of the brain. Even as a boo humbug skeptic Im optimistic about the next decade for solving the brains mysteries: from genetics and epigenetics to chemical and electrical communications, networks, and cognition, well only get better at understanding and tactfully controlling the supercomputer inside our heads.
Weve covered brain-computer interfaces (BCIs) so many times even my eyes start glazing over. Yet I still remember my jaw dropping as I watcheda paralyzed man kick off the 2014 World Cupin a bulky mind-controlled exosuit straight out ofEdge of Tomorrow.
Flash forward a few years, and scientists have already ditched the exosuit for an implanted neural prosthesis that replaces severed nerves to re-establish communication between the brains motor centers and lower limbs.
The rise in BCIs owes much tothe BrainGate project, which worked tirelessly to decode movement from electrical signals in the motor cortex, allowingparalyzed patients to use a tablet with their mindsoroperate robotic limbs. Today, prosthetic limbs coated with sensors can feed back into the brain, giving patients mind-controlled movement, sense of touch, and an awareness of where the limb is in space. Similarly, by decoding electrical signals in the auditory or visual cortex, neural implants can synthesize a persons speech by reconstructing what theyre hearing or re-create images of what theyre seeingor even of what theyre dreaming.
For now, most BCIsespecially those that require surgical implantsare mainly used to give speech or movement back to those with disabilities or decode visual signals. The brain regions that support all these functions are on the surface, making them relatively more accessible and easier to decode.
But theres plenty of interest in using the same technology to target less tangible brain issues, such as depression, OCD, addiction, andother psychiatric disordersthat stem from circuits deep within the brain. Several trials using implanted electrodes, for example, have shown dramatic improvement in peoplesuffering from depressionthat dont respond to pharmaceutical drugs, but the results vary significantly between individuals.
The next decade may see non-invasive ways to manipulate brain activity, such as focused ultrasound, transcranial magnetic or direct current stimulation (TMS/tDCS), and variants of optogenetics. Along with increased understanding of brain networks and dynamics, we may be able to play select neural networks like a piano and realize the dream of treating psychiatric disorders at their root.
Rarely does one biological research field get such tremendous support from multiple governments. Yet the 2010s saw an explosion in government-backed neuroscience initiatives from theUS,EU,and Japan, with China, South Korea, Canada, and Australia in the process of finalizing their plans. These multi-year, multi-million-dollar projects focus on developing new tools to suss out the brains inner workings, such as how it learns, how it controls behavior, and how it goes wrong. For some, the final goal is to simulate a working human brain inside a supercomputer, forming an invaluable model for researchers to test out their hypothesesand maybe act as a blueprint for one day reconstructing all of a persons neural connections, called the connectome.
Even as initial announcementsweremet with skepticismwhat exactly is the project trying to achieve?the projects allowed something previously unthinkable. The infusion of funding provided a safety blanket to develop new microscopy tools to ever-more-rapidly map the brain, resulting in a toolkit of new fluorescent indicators that track neural activation and map neural circuits. Even rudimentary simulations have generated virtual epilepsy patients to help more precisely pinpoint sources of seizures. A visual prosthesis to restore sight,a memory prosthesisto help those with faltering recall, anda push for non-invasive waysto manipulate human brains all stemmed from these megaprojects.
Non-profit institutions such as the Allen Institute for Brain Science have also joined the effort, producingmap after mapat different resolutions of various animal brains. The upcoming years will see individual brain maps pieced together into comprehensive atlases that cover everything from genetics to cognition, transforming our understanding of brain function from paper-based 2D maps into multi-layered Google Maps.
In a way, these national programs ushered in the golden age of brain science, bringing talent from other disciplinesengineers, statisticians, physicists, computer scientistsinto neuroscience. Early successes will likely drive even more investment in the next decade, especially as findings begin translating into actual therapies for people who dont respond to traditional mind-targeting drugs. The next decade will likely see innovative new tools that manipulate neural activity more precisely and less-invasively than optogenetics. The rapid rise in the amount of data will also mean that neuroscientists will quickly embrace cloud-storage options for collaborative research and GPUs and more powerful computing cores to process the data.
First, brain to AI. The physical structure and information flow in the cortex inspired deep learning, the most prominent AI model today. Ideas such as hippocampal replaythe brains memory center replays critical events in fast forward during sleep to help consolidate memoryalso benefit AI models.
In addition, the activation patterns of individual neurons merged with materials science to build neuromorphic chips, or processors thatfunction more like the brain, rather than todays silicon-based chips. Althoughneuromorphic chipsremain mainly an academic curiosity, theyhave the potentialto perform complicated, parallel computations at a fraction of the energy used by processors today. As deep neural nets get ever-more power hungry, neuromorphic chips may present a welcome alternative.
In return, AI algorithms that closely model the brain are helping solve long-time mysteries of the brain, such ashow the visual cortex processes input. In a way, the complexity and unpredictability of neurobiology is shriveling thanks to these computational advancements.
Although crossovers between biomedical research and digital software have long existedthink programs that help with drug designthe match between neuroscience and AI isfar stronger and more intimate. As AI becomes more powerful and neuroscientists collaborate outside their field, computational tools will only unveil more intricacies of neural processing, including more intangible aspects such as memory, decision-making, or emotions.
I talk a bunch about the brains electrical activity, but supporting that activity are genes and proteins. Neurons also arent a uniform bunch; multiple research groups are piecing together a whos who of the brains neural parts and their individual characteristics.
Although invented in the late 2000s, technologies such as optogenetics and single-cell RNA sequencing were widely adopted by the neuroscience community in the 2010s. Optogenetics allows researchers to control neurons with light, even in freely moving animals going about their lives. Add to that a whole list of rainbow-colored proteins to tag active cells, and its possible to implant memories. Single-cell RNA sequencing is the queen bee of deciphering a cells identity, allowing scientists to understand the geneticexpressionprofile of any given neuron. This tech is instrumental in figuring out the neuron populations that make up a brain at any point in timeinfancy, youth, aging.
But perhaps the crown in new tools goes to brain organoids, or mini-brains, that remarkably resemble those of preterm babies, making them excellent models of the developing brain. Organoids may be our best chance of figuring out the neurobiology of autism, schizophrenia, and other developmental brain issues that are difficult to model with mice. This decade is when scientists established a cookbook for organoids of different types; the next will see far more studies that tap into their potential for modeling a growing brain. With hard work and luck, we may finally be able to tease out the root causes of these developmental issues.
Shelly Xuelai Fan is a neuroscientist-turned-science writer. She completed her PhD in neuroscience at the University of British Columbia, where she developed novel treatments for neurodegeneration. While studying biological brains, she became fascinated with AI and all things biotech. Following graduation, she moved to UCSF to study blood-based factors that rejuvenate aged brains. She is the co-founder of Vantastic Media, a media venture that explores science stories through text and video, and runs the award-winning blog NeuroFantastic.com. Her first book, Will AI Replace Us? (Thames & Hudson) will be out April 2019.
This article was originally published in Singularity Hub
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These Breakthroughs Made the 2010s the Decade of the Brain - Qrius
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