LEADER 00000cam 22005658i 4500
001 on1147950170
003 OCoLC
005 20200722045805.0
006 m o d
007 cr |||||||||||
008 200327t20212021nyu ob 001 0 eng
010 2020015000
020 9781259642494|qelectronic book
020 1259642496|qelectronic book
020 |z9781259642487|q(paperback)
035 (OCoLC)1147950170
040 DLC|beng|erda|cDLC|dOCLCO|dOCLCQ|dMUU|dSTJ
042 pcc
049 STJJ
050 00 QM451
060 10 WL 300
082 00 611/.8|223
099 WORLD|aWIDE|aWEB|aE-BOOK|aMCGRAW
100 1 Martin, John H.|q(John Harry),|d1951-|eauthor.
245 10 Neuroanatomy :|btext and atlas /|cJohn H. Martin ; medical
photography by Howard J. Radzyner ; illustrated by Michael
E. Leonard.
250 Fifth edition.
264 1 New York :|bMcGraw Hill,|c[2021]
264 4 |c©2021
300 1 online resource :|billustrations (some color)
336 text|btxt|2rdacontent
337 computer|bn|2rdamedia
338 online resource|bnc|2rdacarrier
504 Includes bibliographical references and index.
505 0 Organization of the central nervous system -- Structural
and functional organization of the central nervous system
-- Vasculature of the central nervous system and the
cerebrospinal fluid -- Somatic sensation : spinal
mechanosensory systems -- Somatic sensation : spinal
systems for pain, temperature, and itch -- Somatic
sensation : trigeminal and viscerosensory systems -- The
visual system -- The auditory system -- Chemical senses :
taste and smell -- Descending motor pathways and the motor
function of the spinal cord -- Cranial nerve motor nuclei
and brain stem motor functions -- The vestibular system
and eye movements -- The cerebellum -- The basal ganglia -
- The hypothalamus and regulation of bodily functions --
The limbic system and cerebral circuits for reward,
emotions, and memory.
520 "Neuroanatomy plays a crucial role in the health science
curriculum by preparing students to understand the
anatomical basis of neurology and psychiatry. Imaging the
human brain, in both the clinical and research setting,
helps us to identify its basic structure and connections.
And when the brain becomes damaged by disease or trauma,
imaging localizes the extent of the injury. Functional
imaging helps to identify the parts of the brain that
become active during our thoughts and actions, and reveals
brain regions where drugs act to produce their
neurological and psychiatric effects. Complementary
experimental approaches in animals-such as mapping neural
connections, localizing particular neuroactive chemicals
within different brain regions, and determining the
effects of lesioning or inactivating a brain region-
provide the neuroscientist with the tools to study the
biological substrates of normal and disordered behavior.
To interpret this wealth of clinical and basic science
information requires a high level of neuroanatomical
competence. Knowledge of human neuroanatomy is becoming
increasing more important for procedures to treat central
nervous system diseases. Therapeutic electrophysiological
interventions target specific brain regions, such as deep
brain stimulation (DBS) of the basal ganglia for Parkinson
disease. Interventional neuroradiology is a chosen
approach for treating many vascular abnormalities, such as
repair of arterial aneurysms. Surgery to resect a portion
of the temporal lobe is the treatment of choice to reduce
the incidence of seizures for many patients with epilepsy.
Neurosurgeons routinely use high-resolution imaging tools
to characterize the functions and even the connections of
regions surrounding tumors, to resect the tumor safely and
minimize risk of loss of speech or motor function.
Mathematical modeling of brain tissue characteristics
based on high-resolution MRI is used to guide placement of
surface electrodes for transcranial magnetic and direct
current electric stimulation. Each of these innovative
approaches clearly requires that the clinical team have a
sufficient knowledge of functional neuroanatomy-that is,
to have knowledge of brain functions and in which
structures these functions are localized-to design and
carry out these tasks. And this demand for knowledge of
brain structure, function, and connectivity will only be
more important in the future as higher-resolution imaging
and more effective interventional approaches are developed
to repair the damaged brain. Neuroanatomy helps to provide
key insights into disease by providing a bridge between
molecular and clinical neural science. We are learning the
genetic and molecular bases for many neurological and
psychiatric diseases, such as amyotrophic lateral
sclerosis, Huntington disease, and schizophrenia.
Localizing defective genes to particular brain regions,
neural circuits, and even neuron classes helps to further
our understanding of how pathological changes in brain
structure alter brain function. And this knowledge, in
turn, will hopefully lead to breakthroughs in treatments
and even cures. An important goal of Neuroanatomy: Text
and Atlas is to prepare the reader for interpreting the
new wealth of human brain images-structural, functional,
and connectivity-by developing an understanding of the
anatomical localization of brain functions. To provide a
workable focus, this book is largely restricted to the
central nervous system. It takes a traditional approach to
gaining neuroanatomical competence: Because the basic
imaging picture is a two-dimensional slice through the
brain (e.g., CT or MRI scan), the locations of structures
and consideration of their functions are examined on two-
dimensional myelin-stained sections through the human
central nervous system. All chapters have been revised for
the fifth edition of Neuroanatomy: Text and Atlas to
reflect advances in neural science since the last edition,
with many new full color illustrations. Designed as a self
-study guide and resource for information on the structure
and function of the human central nervous system, this
book can serve as both text and atlas for an introductory
laboratory course in human neuroanatomy"--|cProvided by
publisher.
588 Description based on online resource; title from
electronic title page (AccessMedicine, viewed July 22,
2020).
650 0 Neuroanatomy.
650 0 Neuroanatomy|vAtlases.
650 7 Neuroanatomy.|2fast|0(OCoLC)fst01036307
650 7 Neuroanatomie.|2gnd|0(DE-588)4171577-9
650 7 Zentralnervensystem.|2gnd|0(DE-588)4067637-7
650 12 Central Nervous System|xanatomy & histology.
|0(DNLM)D002490Q000033
655 2 Atlas.|0(DNLM)D020466
655 7 Atlases.|2fast|0(OCoLC)fst01423875
655 7 Scientific atlases.|2fast|0(OCoLC)fst01941304
655 7 Atlases.|2lcgft
776 08 |iPrint version:|aMartin, John H. (John Harry), 1951-
|tNeuroanatomy|bFifth edition.|dNew York : McGraw Hill,
[2021]|z9781259642487|w(DLC) 2020014999
|w(OCoLC)1089493151
994 C0|bSTJ
