Principles Of Neural Science By Kandel Pdf
Principles of Neural Science, 5e The field's definitive work from a team of world-renowned authors. Principles of Neural Science, Fifth Edition (Principles of Neural Science (Kandel)): 118: Medicine & Health Science Books @ Amazon.com. PDF In the preface, the editors. Adams and Victor's Principles of Neurology. 'Principles of Neural Science edited by Eric R.
This is a massive volume that provides a detailed sense of 'the principles of neural science,' the work's title. Basic statistics: the book weighs about nine pounds; it is 1709 pages long; it has 67 chapters; there are six appendices; 79 authors are involved; the book is divided up into 9 parts, each with numerous chapters. To compare, the fourth edition (published in 2000) had about 1400 pages. This volume is not meant for a general audience, but it is a wonderful resource for those who can wor This is a massive volume that provides a detailed sense of 'the principles of neural science,' the work's title. Basic statistics: the book weighs about nine pounds; it is 1709 pages long; it has 67 chapters; there are six appendices; 79 authors are involved; the book is divided up into 9 parts, each with numerous chapters. To compare, the fourth edition (published in 2000) had about 1400 pages.
This volume is not meant for a general audience, but it is a wonderful resource for those who can work their way through its many chapters. I have found earlier volumes in this series very helpful for one part of my academic research agenda (the political implications of human biology).
Let's take a look at the structure of the volume, to illustrate the substance of the book. Part I provides an overall perspective on the scope of the book. The chapters examine the role of the brain in behavior, a summary of nerve cells and their function, and the relationship between genes, the brain, and behavior.
With this serving as an introduction, Part II goes on to examine cells and the molecular biology of the neuron. Among subjects covered: The structure and nature of neurons and glial cells (which support neurons) and the electrical properties of neurons.
Part III focuses on synapses, which provide for communication between and among neurons. How do synapses operate? What are chemical and electrical modes of operation?
What is the role of neurotransmitters? Finally, this section considers diseases of the nerve and systems that they support. Part IV is very important for my research interests-'The Neural Basis of Cognition.' How does the brain and its structure affect cognition Chapter 15 describes the structure of the central nervous system and how the cerebral cortex, for example, affects cognition.
Neurology
In the chapter is a discussion of how the cerebral cortex is organized by layers AND by columns. Other important chapters in this section include effects on cognitive functioning of the brain outside the cerebral cortex and how functional imaging of cognition works (and the limitations with the use of such technology). Part V summarizes our understanding of perception, how we come to experience the world around us.
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The somatosensory system, touch, pain, vision (with five chapters devoted to the subject), the inner ear, hearing, and smell and taste. The chapters herein explore the various elements in making movement possible.
We learn of the different brain areas and other support systems underlying movement and locomotion. How do people process information? Part VII concentrates on this, and this segment is also of relevance for my own research interests. Part VIII targets development and emergence of behavior. The one chapter in this section that is most poignant to me is Chapter 59-'The Aging Brain.'
The chapter speaks to what we know of the effects of aging on the brain and its functioning. Finally, section IX, 'Language, Affect, and Learning.'
These represent key issues of interest in our understanding of central features of being human. This book is not something that most of us would skim. But it is a compendium that well illustrates what we know about the structure and function of the brain. For those interested in the subject, this is an important work. This text represents a bloated hodgepodge of factoids and neo-phrenology. The problem is that molecular detail is rich, and higher level explanations are vapid.
There is little substantive middle ground tying the two together. Concepts and tools to bridge that gap do exist. They include network theory (just how do neurons compute logic, and how does network structure constrain flows to lead to appropriate 'information processing'?), complexity concepts such as emergence and agent based modeling This text represents a bloated hodgepodge of factoids and neo-phrenology. The problem is that molecular detail is rich, and higher level explanations are vapid. There is little substantive middle ground tying the two together.
Concepts and tools to bridge that gap do exist. A fundamental chunk of any neuroscientist's educational career will be spent with one's nose in this book.
I have heard people using this book for Ph. Preparations, and am using it myself as an undergraduate student. What is most brilliant about Kandel's work is his ability to write for a range of audiences. Principles of Neural Science is not difficult to read. Any student with a few elementary sciences courses behind them will be able to understand all of what is put forth in this great wor A fundamental chunk of any neuroscientist's educational career will be spent with one's nose in this book. I have heard people using this book for Ph. Preparations, and am using it myself as an undergraduate student.
What is most brilliant about Kandel's work is his ability to write for a range of audiences. Principles of Neural Science is not difficult to read. Any student with a few elementary sciences courses behind them will be able to understand all of what is put forth in this great work.
Diagrams are beautifully unstylized and two-dimensional. The layout of this text is spacious, providing the reader with room to absorb the often-heavy concepts within its pages. Despite such simplicities, its breadth is impressive. Complaints: it is very heavy. Impractically so.
I think I've developed bicep muscles where there were none before. The edition I am using is somewhat lacking in the details of current neuroscientific research trends (eg. Neuroimaging, addiction circuitry). This has been frustrating at times, when trying to understand the underlying principles behind a research publication I'm studying. However, this is perhaps to its benefit.
The content of 'Principles' is solid and standard. It is cautious when approaching a recently-discovered concept. This property will lead to a remarkable lifespan for this textbook. Though neuroscience as a whole is in rapid evolution, I don't believe that this book has been swept up in the currents of its frenzy.
Thus, Principles is any neuroscientist's best mate. The Kandell, Schwartz and Jessel text on neuroscience is by far the most complete account of scientific theory on the brain and its mechanical and biochemical structures. Unfortunately, the fourth edition was published in 2000, and a great many advances have been made since then. Many of the structures and theories proposed are now out of date, and several things that are listed as unknown or untested have been better resolved. The upcoming publication of a fifth edition is very highly anticipat The Kandell, Schwartz and Jessel text on neuroscience is by far the most complete account of scientific theory on the brain and its mechanical and biochemical structures. Unfortunately, the fourth edition was published in 2000, and a great many advances have been made since then.
Many of the structures and theories proposed are now out of date, and several things that are listed as unknown or untested have been better resolved. The upcoming publication of a fifth edition is very highly anticipated but has been postponed more than once. After its release was pushed back many times, the 5th edition finally came out within the past year, and I have been reading it on my laptop’s Kindle app throughout my first year of core PhD courses and in preparing for my qualifying exam. I had read some of the 4th edition during undergrad, as well. In general my feelings towards the book are warm, and I do expect that if you read the textbook, dear reader of this review, you will learn a lot from it.
Positives 1) Does a good job of not trying to After its release was pushed back many times, the 5th edition finally came out within the past year, and I have been reading it on my laptop’s Kindle app throughout my first year of core PhD courses and in preparing for my qualifying exam. I had read some of the 4th edition during undergrad, as well. In general my feelings towards the book are warm, and I do expect that if you read the textbook, dear reader of this review, you will learn a lot from it.
Positives 1) Does a good job of not trying to be Alberts’.Molecular Biology of the Cell. The sections on cell biology, the central dogma, and non-neuroscience-related signaling pathways are refreshingly bare-boned.
Seek resources elsewhere if you want to go ham on transcription, translation, and the MAPKKK-MAPKK-MAPK cascade. 2) Perception, sensation, and movement were not the reasons that I first became interested in neuroscience, and, generalizing from my one example as is de rigueur in book reviews, I think that is true of most students. And while this might be just Stockholm syndrome, I’m actually quite happy that there is so much detail and care put into these sections which make up around 1/3rd of the text.
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These fields are way more tractable to study than the sexy emotion, learning, and personal identity, yet the most of the principles that have been discovered there are likely to generalize. As an example of this, consider the work of Charles Sherrington, who among other accomplishments won the 1932 Nobel for explaining spinal reflexes as a balance of excitation and inhibition. And now that we have some fancy techniques like conditional genetic KOs and optogenetics, we know that a variety of other phenomena, from critical periods to anxiety, are also regulated via a very similar balance of excitation and inhibition. 3) Most chapters do an excellent job of motivating their material. For example, they emphasize themes from the history of how people have thought about the brain, e.g. James and Freud. There are also a few references to art and literature, such as Gabriel Garcia-Marquez, that are really money.
4) Most fundamentally, this is the eminent textbook on how your mind works and how you are able to understand the words that you are currently reading. And there are some chapters, especially the last three (65 – 67), that really delve into this. What’s there not to love? Negatives 1) In general neuroscience tries very hard to distinguish itself from psychology and this makes good sense in terms of specialization. But the field is still operating in the wake of Karl Lashley, a famous experimentalist who in the 1930s concluded that brain regions had “equipotentiality” for learning mazes not because his lesions were flawed but because his tasks were not specific enough. Designing behavioral tasks is not trivial. Yet, you will not read much about the principles behind how to do so, and nothing about the matching law or Rescorla-Wagner.
(My bias: I did some research in learning and behavior in undergrad.) 2) For one of our classes we read an older (3rd edition) version of Chapter 13 on Neurotransmitters. There were way more equations explaining different models of neurotransmitter vesicle release patterns, e.g. Explaining the use of the Poisson distribution as an approximation for the binomial. It doesn’t make sense that the text has become less quantitative at the same time that math has become easier to use to explain phenomena, as a result of advances in systems biology and just programming generally. 3) Why does searching for “optogenetics” yield me zero results? 4) I prefer my pedagogical material to be structured in the format of.example 1.,.example 2., (.optional example 3.), and.inducted principle.
The examples only matter insofar as they motivate the principles. Kandel’s textbook strays slightly too far from this, I think. In particular, the text tends to enshrine the examples, such CREB, CamKII, PKA, and the ilk, as worthy of our worship in and of themselves. This sets the trend for how neuroscience courses should be taught and for that reason it is a bit troubling. Look, it's probably generally seen as the best neuroscience textbook only because it is the largest and densest neuroscience information resource. When one eventually gets to the point of using a neuroscientific 'fact' in empirical research or theory they need to know how it was found, and this can only be done in sufficient detail by reading the original paper, textbooks will not suffice for the practioner.
And with that assumption, the cramming of information in this book comes with the loss of Look, it's probably generally seen as the best neuroscience textbook only because it is the largest and densest neuroscience information resource. When one eventually gets to the point of using a neuroscientific 'fact' in empirical research or theory they need to know how it was found, and this can only be done in sufficient detail by reading the original paper, textbooks will not suffice for the practioner. And with that assumption, the cramming of information in this book comes with the loss of wider perspective, emphasis and hand-holding which is the normal appeal of a textbook.
I'd say Kandel's book is particular hype comes from the added appeal to those who find it difficult to find small particular details about a concept that were otherwise too functionally insignificant to reference in other competing textbooks which have a greater consideration of keeping a concise, easy-to-read-and-follow, generalised overview. Kandel is an American neuropsychiatrist who was a recipient of the 2000 Nobel Prize in Physiology or Medicine for his research on the physiological basis of memory storage in neurons. He shared the prize with Arvid Carlsson and Paul Greengard. Kandel, who had studied psychoanalysis, wanted to understand how memory works. His mentor, Harry Grundfest, said, “If you want to understand the brai Eric R.
Kandel is an American neuropsychiatrist who was a recipient of the 2000 Nobel Prize in Physiology or Medicine for his research on the physiological basis of memory storage in neurons. He shared the prize with Arvid Carlsson and Paul Greengard. Kandel, who had studied psychoanalysis, wanted to understand how memory works. His mentor, Harry Grundfest, said, “If you want to understand the brain you’re going to have to take a reductionist approach, one cell at a time.” So he studied the neural system of a simple animal, Aplysia, a snail with very large nerve cells. Kandel is a professor of biochemistry and biophysics at the Columbia University College of Physicians and Surgeons and a Senior Investigator in the Howard Hughes Medical Institute.
He was also the founding director of the Center for Neurobiology and Behavior, which is now the Department of Neuroscience at Columbia. Kandel authored In Search of Memory: The Emergence of a New Science of Mind (WW Norton), which chronicles his life and research. The book was awarded the 2006 Los Angeles Times Book Award for Science and Technology.