Neuroanatomy: Difference between revisions

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{{Image|Brain-MRI-location-guide.png|right|350px|[[MRI]] scan of a [[human brain]], with several key anatomical structures labeled. Abbreviations: CC, [[cerebellum]]; DM, dorsal [[midbrain]]; DMT, dorsal medial [[thalamus]]; Hypo, [[hypothalamus]]; LAI/RAI, left/right anterior [[insula]]; LAP/RAP, left/right posterior insula; LCN/RCN, left/right [[caudate nucleus]]; LG, [[lingual gyrus]]; LHipp/RHipp, left/right [[hippocampus]]; LI/RI, left/right insula; PLT, posterior lateral thalamus; VLT, ventral lateral thalamus. Distances from the [[anterior commissure]] and orientation, based on the standard [[Montreal Neurological Institute space]], are (A) 5 mm superior, (B) 5 mm left, (C) 27 mm right, and (D) 19 mm posterior. Distance increases from left-to-right for [[sagittal]] (side) views, posterior-to-anterior for [[coronal]] views, and inferior to superior for [[axial]] (transverse) views. The background image is a high-resolution scan from a single participant (normalized to Montreal Neurological Institute space).}}
'''Neuroanatomy''' is the branch of [[anatomy]] that studies the anatomical organization of the [[nervous system]]. In [[vertebrate]] [[animal]]s, the [[PNS|routes]] that the myriad [[nerve]]s take from the [[brain]] to the rest of the body (or "periphery"), and the internal structure of the brain in particular, are both extremely elaborate. As a result, the study of neuroanatomy has developed into a discipline in itself, although it also represents a specialization within [[neuroscience]]. The delineation of distinct structures and regions of the brain has figured centrally in investigating how it works. For example, much of what neuroscientists have learned comes from observing how damage or "lesions" to specific brain areas affects [[behavior]] or other neural functions.
'''Neuroanatomy''' is the branch of [[anatomy]] that studies the anatomical organization of the [[nervous system]]. In [[vertebrate]] [[animal]]s, the [[PNS|routes]] that the myriad [[nerve]]s take from the [[brain]] to the rest of the body (or "periphery"), and the internal structure of the brain in particular, are both extremely elaborate. As a result, the study of neuroanatomy has developed into a discipline in itself, although it also represents a specialization within [[neuroscience]]. The delineation of distinct structures and regions of the brain has figured centrally in investigating how it works. For example, much of what neuroscientists have learned comes from observing how damage or "lesions" to specific brain areas affects [[behavior]] or other neural functions.


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The [[peripheral nervous system]] is made up of all the neurons in the body outside of the central nervous system, and is further subdivided into the somatic and autonomic nervous systems. The [[somatic nervous system]] is made up of afferent neurons that convey sensory information from the sense organs to the brain and spinal cord, and efferent neurons that carry motor instructions to the muscles.  
The [[peripheral nervous system]] is made up of all the neurons in the body outside of the central nervous system, and is further subdivided into the somatic and autonomic nervous systems. The [[somatic nervous system]] is made up of afferent neurons that convey sensory information from the sense organs to the brain and spinal cord, and efferent neurons that carry motor instructions to the muscles.  


The [[autonomic nervous system]] also has two subdivisions. The [[sympathetic nervous system]] is a set of nerves that activate what has been called the "fight-or-flight" response that prepares the body for action. The [[parasympathetic nervous system]] instead prepares the body to rest and conserve energy.
The [[autonomic nervous system]] also has two subdivisions. The [[sympathetic nervous system]] is a set of nerves that activate what has been called the "fight-or-flight" response that prepares the body for action. The [[parasympathetic nervous system]] instead prepares the body to rest and conserve energy.[[Category:Suggestion Bot Tag]]
 
 
==External links==
* [http://www.neuroanatomy.org Neuroanatomy] is an annual journal of clinical neuroanatomy.
* [http://www.loni.ucla.edu/Atlases/ Mouse, Rat, Primate and Human Brain Atlases (UCLA Center for Computational Biology)] <!-- broken link requires a fix, 2006-05-05 -->
 
* [http://brainmaps.org brainmaps.org: High-Resolution Neuroanatomically-Annotated Brain Atlases]
 
* [http://braininfo.rprc.washington.edu/menumain.html BrainInfo for Neuroanatomy]
 
* [http://www.sylvius.com High quality neuroanatomical visual glossary with several hundred entries]
 
* [http://www.stjudebgem.org/web/mainPage/mainPage.php Brain Gene Expression Map], mouse gene expression neuroanatomical resource from [[St. Jude Children's Research Hospital]]
 
[[Category:Biology]]
[[Category:Health Sciences ]]

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(CC) Image: Macey et al., 2007
MRI scan of a human brain, with several key anatomical structures labeled. Abbreviations: CC, cerebellum; DM, dorsal midbrain; DMT, dorsal medial thalamus; Hypo, hypothalamus; LAI/RAI, left/right anterior insula; LAP/RAP, left/right posterior insula; LCN/RCN, left/right caudate nucleus; LG, lingual gyrus; LHipp/RHipp, left/right hippocampus; LI/RI, left/right insula; PLT, posterior lateral thalamus; VLT, ventral lateral thalamus. Distances from the anterior commissure and orientation, based on the standard Montreal Neurological Institute space, are (A) 5 mm superior, (B) 5 mm left, (C) 27 mm right, and (D) 19 mm posterior. Distance increases from left-to-right for sagittal (side) views, posterior-to-anterior for coronal views, and inferior to superior for axial (transverse) views. The background image is a high-resolution scan from a single participant (normalized to Montreal Neurological Institute space).

Neuroanatomy is the branch of anatomy that studies the anatomical organization of the nervous system. In vertebrate animals, the routes that the myriad nerves take from the brain to the rest of the body (or "periphery"), and the internal structure of the brain in particular, are both extremely elaborate. As a result, the study of neuroanatomy has developed into a discipline in itself, although it also represents a specialization within neuroscience. The delineation of distinct structures and regions of the brain has figured centrally in investigating how it works. For example, much of what neuroscientists have learned comes from observing how damage or "lesions" to specific brain areas affects behavior or other neural functions.

The human nervous system is divided into the central and peripheral nervous systems. The central nervous system consists of the brain and spinal cord, and plays a key role in controlling behavior.

The peripheral nervous system is made up of all the neurons in the body outside of the central nervous system, and is further subdivided into the somatic and autonomic nervous systems. The somatic nervous system is made up of afferent neurons that convey sensory information from the sense organs to the brain and spinal cord, and efferent neurons that carry motor instructions to the muscles.

The autonomic nervous system also has two subdivisions. The sympathetic nervous system is a set of nerves that activate what has been called the "fight-or-flight" response that prepares the body for action. The parasympathetic nervous system instead prepares the body to rest and conserve energy.