Here are 100 books that How the Brain Lost Its Mind fans have personally recommended if you like
How the Brain Lost Its Mind.
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Being a creative person, I studied design to make the world better… only to realise that great ideas and designs often falter because we hold ourselves back by the way we think. I had to study philosophy to understand what is limiting us. And then I left my own design work behind to study the practices expert creatives (like top design professionals) have developed to get past these roadblocks. Having discovered how they can create new frames, time and time again, it has become my mission to empower other people to do this – not only on a project level, but taking these practices to the organizational sector and societal transformation.
In this classic book, Kuhn introduces the idea of a "paradigm" and shows that real progress comes through paradigm shifts.
That hit me like a rock when I first read it. I love how in the second edition, Kuhn talks about the difficulties of deep change: "the problem is that the new paradigm is always worse than the old one."
The new paradigm may be better in some way, but it is also sketchy, unformed, and it creates lots of new uncertainties. So, for somebody to shift to a new paradigm always requires a leap of faith!
A good book may have the power to change the way we see the world, but a great book actually becomes part of our daily consciousness, pervading our thinking to the point that we take it for granted, and we forget how provocative and challenging its ideas once were-and still are. "The Structure of Scientific Revolutions" is that kind of book. When it was first published in 1962, it was a landmark event in the history and philosophy of science. And fifty years later, it still has many lessons to teach. With "The Structure of Scientific Revolutions", Kuhn challenged long-standing…
A moving story of love, betrayal, and the enduring power of hope in the face of darkness.
German pianist Hedda Schlagel's world collapsed when her fiancé, Fritz, vanished after being sent to an enemy alien camp in the United States during the Great War. Fifteen years later, in 1932, Hedda…
I am a professor of neurology at the University of Cincinnati, interested in the many ways in which we acquire impairments in movements, in cognition, or in both. I have sought to measure these behaviors, quantify their responses to different pharmacological treatments, and determine how they inform the biology of the aging brain. In publications along the way, I have increasingly questioned how we classify neurological diseases and treat those affected.
This book explains the tight connection between Alzheimer’s disease and education, health, income, and environment, and why the rate of Alzheimer’s disease in the population actually decreased in the decades following the most important societal changes enacted after World War II. Social safety, environmental protections, and income inequality have had far greater impact than any of the pharmacological approaches ever attempted. The authors make the compelling case that brain health is intimately connected to societal health.
Have the social safety nets, environmental protections, and policies to redress wealth and income inequality enacted after World War II contributed to declining rates of dementia today-and how do we improve brain health in the future?
For decades, researchers have chased a pharmaceutical cure for memory loss. But despite the fact that no disease-modifying biotech treatments have emerged, new research suggests that dementia rates have actually declined in the United States and Western Europe over the last decade. Why is this happening? And what does it mean for brain health in the future?
I am a professor of neurology at the University of Cincinnati, interested in the many ways in which we acquire impairments in movements, in cognition, or in both. I have sought to measure these behaviors, quantify their responses to different pharmacological treatments, and determine how they inform the biology of the aging brain. In publications along the way, I have increasingly questioned how we classify neurological diseases and treat those affected.
Stan Prusiner received the Nobel Prize of Medicine in 1997 for identifying what at the time was considered a novel mechanism of neurodegeneration: the prions. These “infectious proteins” were responsible for ravaging the brains of animals suffering from scrapie and mad cow disease, and of humans with Creutzfeldt-Jakob disease. Although I have come to doubt that prions are a cause of rapidly progressive dementia and may instead represent a consequence, Prusiner’s memoir is filled with moments of skepticism, self-doubt, adversity, and intellectual rivalries –the ingredients for a gripping drama in neurosciences.
A first-person account of a revolutionary scientific discovery that is now helping to unravel the mysteries of brain diseases
In 1997, Stanley B. Prusiner received a Nobel Prize, the world's most prestigious award for achievement in physiology or medicine. That he was the sole recipient of the award for the year was entirely appropriate. His struggle to identify the agent responsible for ravaging the brains of animals suffering from scrapie and mad cow disease, and of humans with Creutzfeldt-Jakob disease, had been waged largely alone and in some cases in the face of strenuous disagreement.
Sine, a professor of creative writing, accompanies Sam, a neuroscientist, on a conference trip to a Hotel Castle. Sam wants to present a new device, the "monitor." Sine hopes to recover from tending to her mother who just passed away.
When they arrive, Sine is in a dream-like state. Real…
I am a professor of neurology at the University of Cincinnati, interested in the many ways in which we acquire impairments in movements, in cognition, or in both. I have sought to measure these behaviors, quantify their responses to different pharmacological treatments, and determine how they inform the biology of the aging brain. In publications along the way, I have increasingly questioned how we classify neurological diseases and treat those affected.
This collection of essays blew my mind. Researchers in a range of disciplines were asked to elaborate on why a given idea in their field should be put to rest. There is a chapter dedicated to big data, nature versus nurture, cause and effect, race, Linnaean classification, etc. The book’s essays inspired me to shape a section on “Reductionism and related ideas that will die” as part of a solicited article I wrote with Tony Lang in 2018 aiming to predict the future of Parkinson’s disease research in the 2020s (Ben Stecher credited it as his reason to relocate to Cincinnati to work with us in our CCBP study). This book is also a reminder that progress requires new ideas, and most cannot emerge without first abandoning outdated ones (as Kuhn articulated).
An idea that must die in neurology is the clinico-pathologic model of classifying neurodegenerative diseases: abnormalities on brain…
The bestselling editor of This Explains Everything brings together 175 of the world's most brilliant minds to tackle Edge.org's 2014 question: What scientific idea has become a relic blocking human progress? Each year, John Brockman, publisher of Edge.org-"The world's smartest website" (The Guardian)-challenges some of the world's greatest scientists, artists, and philosophers to answer a provocative question crucial to our time. In 2014 he asked 175 brilliant minds to ponder: What scientific idea needs to be put aside in order to make room for new ideas to advance? The answers are as surprising as they are illuminating. In : *…
I am immersed in the topic of brain and mental health every single day. I love devouring books on the topic because it helps me personally with my diagnosed bipolar depression. I know what it’s like to attempt suicide and to live with chronic thoughts that can be overwhelming. So, reading books like these helps me better balance my brain health, and they help me offer hope to others to whom I can recommend these kinds of books. As host of the Hinesights Podcast, where I interview folks in the field of mental health from all walks of life, being able to put a list like this together is a gift.
I truly loved this book because Dr. Daniel Amen is the best in his class. He is a dedicated brain scientist, author, and life changer. I’ve read all of his books because they teach us all how to benefit our brains to change our lives forever.
This book has helped me personally, and so has his research. He's a personal friend and one hell of a game-changer when it comes to recognizing the importance of altering the conversation from mental health to brain health.
He is an important figure of this or any time; the world is lucky he's here to make us all better, one brain at a time.
NEW YORK TIMES BESTSELLER • In this completely revised and updated edition, neuropsychiatrist Dr. Daniel Amen includes effective "brain prescriptions" that can help heal your brain and change your life.
“Perfection in combining leading-edge brain science technology with a proven, user-friendly, definitive, and actionable road map to safeguard and enhance brain health and functionality.”—David Perlmutter, M.D., New York Times bestselling author of Grain Brain
In Change Your Brain, Change Your Life, renowned neuropsychiatrist Daniel Amen, M.D., includes new, cutting-edge research gleaned from more than 100,000 SPECT brain scans over the last quarter century and scientific evidence that your anxiety, depression,…
I began research as an undergraduate at Harvard College, initially studying the effects of vitamin A deficiency on the photoreceptors in the eye that capture the light and initiate vision. After receiving my PhD and starting my own laboratory, I became fascinated with the other four classes of cells/neurons found in the retina, which begin the analysis of visual information: two being in the outer retina and two in the inner retina. We mapped out the synaptic interactions among the neurons, recorded from them, and began to put together the neural circuitries that underlie the visual messages that are sent to other parts of the brain.
This fascinating book is essentially the story of prefrontal lobotomies and the surgery that was developed to carry out the procedure. Although it did help certain violent patients, it had serious side effects not recognized initially and was used inappropriately on too many patients (including President Kennedy’s sister).
The book recounts the history of why the procedure was developed and many of the scientists and surgeons involved. It provides a perfect case study of the caution needed when a new, thought to be miraculous, treatment for any disease is first tried.
In an age of splendor, a heretic king strips Egypt bare—forcing his queen to quell rebellion and plunging his children into a conspiracy against the crown.
Salvation in the Sun follows Nefertiti as she ascends the throne beside Pharaoh Amenhotep—soon to become Akhenaten—just as he declares war on Egypt’s ancient…
I’m a British neuroscientist and writer who’s been using computers to study the brain since 1998, and writing about it since 2016. How I ended up a neuroscientist is hard to explain, for my formative years were spent devouring science books that were not about the brain. That’s partly because finding worthwhile books about the brain is so hard – few delve into how the brain actually works, into the kinds of meaty details that, for example, Hawking offered us on physics and Dawkins on evolution. So I wrote one to solve that problem; and the books on my list are just that too: deep, insightful works on how the brain does what it does.
We neuroscientists know a lot about how brains are, but not how they come to be. This book fills that huge hole: it explains how genetics and development shape the growing brain, and the consequences this has for our personalities and our mental disorders. Mitchell’s thesis is that the stochastic nature of development is key to understanding much of the variation between brains, and it has changed the way I think about the wiring of brains.
A leading neuroscientist explains why your personal traits are more innate than you think
What makes you the way you are-and what makes each of us different from everyone else? In Innate, leading neuroscientist and popular science blogger Kevin Mitchell traces human diversity and individual differences to their deepest level: in the wiring of our brains. Deftly guiding us through important new research, including his own groundbreaking work, he explains how variations in the way our brains develop before birth strongly influence our psychology and behavior throughout our lives, shaping our personality, intelligence, sexuality, and even the way we perceive…
I am a clinical psychologist who has specialised in neurodiversity and neurodivergence for the past twenty years. Human brains, emotions, and behaviour have always fascinated me, hence why I studied psychology. Neurodiversity was a natural field to enter for someone interested in both child development and neuroscience. I am also an avid reader and wax lyrical about the value of literature for understanding both one’s inner self and the world around us.
This is a book written by experts in neuroscience and social cognition, with graphics provided by artist Daniel Locke. The graphic format is one big reason why I love this novel. Not everyone loves reading text, and in keeping with the neurodiversity principle that not everyone learns in the same way, illustrated texts can make imbibing knowledge a pleasure rather than a chore.
The authors are world-renowned in their fields and have done a superb job of making learning about the social brain fun and accessible. They cover topics such as how we learn from copying others, free will, empathy, and perspective-taking, to name a few.
Also, if you are a book sniffer like me (you know who you are!) or someone who likes the feel and look of a book, I think you’ll love this book.
'Charming and addictively accessible' STEVEN PINKER
'Original, authoritative and beautiful' BRIAN COX
'The most wonderful adventure' ROBIN INCE
A brilliantly illustrated journey through the wonders and mysteries of the human brain - from a renowned husband-and-wife team of cognitive neuroscientists.
Professors and husband-and-wife team Uta and Chris Frith have pioneered major studies of brain disorders throughout their nearly fifty-year career. In Two Heads, their distinguished careers serve as a prism through which they share the compelling story of the birth of neuroscience and their paradigm-shifting discoveries across areas as wide-ranging as autism and schizophrenia research, and new frontiers of social…
Kevin Davis is the author of three non-fiction books about the criminal
justice system, The Wrong Man,Defending the Damned and The Brain Defense. Davis has also authored eight
nonfiction children’s books. He’s an award-winning journalist and magazine
writer based in Chicago.
This was a much-needed cautionary examination of the increasing hype
about neuroscience. Following a period in which neuroscience suddenly
became a pop culture phenomenon, Brainwashed aims to tamp things down. The book
takes issue with how mainstream media trumpeted studies that supposedly show
how the brain “lights up” when we kiss, listen to music or engage in other
activities. Satel and Lilienfied explain what brain scans and neuroscientific
reports really reveal and don’t reveal.
What can't neuroscience tell us about ourselves? Since fMRI,functional magnetic resonance imaging,was introduced in the early 1990s, brain scans have been used to help politicians understand and manipulate voters, determine guilt in court cases, and make sense of everything from musical aptitude to romantic love. But although brain scans and other neurotechnologies have provided ground-breaking insights into the workings of the human brain, the increasingly fashionable idea that they are the most important means of answering the enduring mysteries of psychology is misguided,and potentially dangerous.In Brainwashed , psychiatrist and AEI scholar Sally Satel and psychologist Scott O. Lilienfeld reveal how…
Born the heir of a master woodcutter in a queendom defined by guilds and matrilineal inheritance, nonbinary Sorin can’t quite seem to find their place. At seventeen, an opportunity to attend an alchemical guild fair and secure an apprenticeship with the…
I have wondered about what goes on in the brains of animals and people since I was a youth. My research career began by studying how some genes affect behavior. Little surprise, it turns out, that many such “behavioral” genes influence the way the brain is built. So, I began to study brain development using embryos from a variety of experimental laboratory animals and developed a university course on this topic. When I retired, I decided to share what I learned. The other books on this list are great examples of readable books that would likely be exciting to anyone else interested in the story of how the human brain is built.
Not only does this book provide an up-to-date account of where science is at in terms of our basic understanding of how the brain works, but it also succeeds in putting this knowledge into a compelling history of basic discoveries. I really enjoyed this aspect of Cobb's book and tried to incorporate it into my book.
So, I found it to be an excellent introduction to neuroscience and a great book about the process of how science progresses in jumps. It engenders real excitement in this still very lively field of study and celebrates the key advances in our conceptual understanding of the brain.
This is the story of our quest to understand the most mysterious object in the universe: the human brain.
Today we tend to picture it as a computer. Earlier scientists thought about it in their own technological terms: as a telephone switchboard, or a clock, or all manner of fantastic mechanical or hydraulic devices. Could the right metaphor unlock the its deepest secrets once and for all?
Galloping through centuries of wild speculation and ingenious, sometimes macabre anatomical investigations, scientist and historian Matthew Cobb reveals how…
