Neuroanatomy is the study of the structure and organization of the
nervous system. In contrast to animals with
radial symmetry, whose nervous system consists of a distributed network of cells, animals with
bilateral symmetry
Symmetry in biology refers to the symmetry observed in organisms, including plants, animals, fungi, and bacteria. External symmetry can be easily seen by just looking at an organism. For example, take the face of a human being which has a pla ...
have segregated, defined nervous systems. Their neuroanatomy is therefore better understood. In
vertebrates, the nervous system is segregated into the internal structure of the
brain and
spinal cord (together called the
central nervous system, or CNS) and the series of nerves that connect the CNS to the rest of the body (known as the
peripheral nervous system, or PNS). Breaking down and identifying specific parts of the nervous system has been crucial for figuring out how it operates. For example, much of what neuroscientists have learned comes from observing how damage or "lesions" to specific brain areas affects
behavior
Behavior (American English) or behaviour (British English) is the range of actions and mannerisms made by individuals, organisms, systems or artificial entities in some environment. These systems can include other systems or organisms as wel ...
or other neural functions.
For information about the composition of non-human animal nervous systems, see
nervous system. For information about the typical structure of the Homo sapiens nervous system, see
human brain or
peripheral nervous system. This article discusses information pertinent to the ''study'' of neuroanatomy.
History
thumbnail, 's anatomy of the brain, brainstem, and upper spinal column">J. M. Bourgery's anatomy of the brain, brainstem, and upper spinal column
The first known written record of a study of the anatomy of the human brain is an
ancient Egyptian document, the
Edwin Smith Papyrus
The Edwin Smith Papyrus is an ancient Egyptian medical text, named after Edwin Smith who bought it in 1862, and the oldest known surgical treatise on trauma. From a cited quotation in another text, it may have been known to ancient surgeons as t ...
.
In
Ancient Greece, interest in the brain began with the work of
Alcmaeon, who appeared to have dissected the eye and related the brain to vision. He also suggested that the brain, not the heart, was the organ that ruled the body (what Stoics would call the ''hegemonikon'') and that the senses were dependent on the brain.
The debate regarding the ''hegemonikon'' persisted among ancient Greek philosophers and physicians for a very long time.
Those who argued for the brain often contributed to the understanding of neuroanatomy as well.
Herophilus and
Erasistratus of Alexandria were perhaps the most influential with their studies involving
dissecting human brains, affirming the distinction between the
cerebrum and the
cerebellum
The cerebellum (Latin for "little brain") is a major feature of the hindbrain of all vertebrates. Although usually smaller than the cerebrum, in some animals such as the mormyrid fishes it may be as large as or even larger. In humans, the cerebel ...
, and identifying the
ventricles and the ''
dura mater''. The Greek physician and philosopher
Galen, likewise, argued strongly for the brain as the organ responsible for
sensation and
voluntary motion, as evidenced by his research on the neuroanatomy of
oxen
An ox ( : oxen, ), also known as a bullock (in BrE
British English (BrE, en-GB, or BE) is, according to Oxford Dictionaries, "English as used in Great Britain, as distinct from that used elsewhere". More narrowly, it can refer spec ...
,
Barbary apes, and other animals.
The cultural taboo on human dissection continued for several hundred years afterward, which brought no major progress in the understanding of the anatomy of the brain or of the nervous system. However,
Pope Sixtus IV
Pope Sixtus IV ( it, Sisto IV: 21 July 1414 – 12 August 1484), born Francesco della Rovere, was head of the Catholic Church and ruler of the Papal States from 9 August 1471 to his death in August 1484. His accomplishments as pope include ...
effectively revitalized the study of neuroanatomy by altering the papal policy and allowing human dissection. This resulted in a flush of new activity by artists and scientists of the Renaissance, such as
Mondino de Luzzi,
Berengario da Carpi
Jacopo Berengario da Carpi (also known as Jacobus Berengarius Carpensis, Jacopo Barigazzi, Giacomo Berengario da Carpi or simply Carpus; c. 1460 – c. 1530) was an Italian physician. His book "''Isagoge breves''" published in 1522 made him the mo ...
, and
Jacques Dubois
Jacques Dubois ( Latinised as Jacobus Sylvius; 1478 – 14 January 1555) was a French anatomist. Dubois was the first to describe venous valves, although their function was later discovered by William Harvey. He was the brother of Franciscus Sy ...
, and culminating in the work of
Andreas Vesalius.
In 1664,
Thomas Willis
Thomas Willis FRS (27 January 1621 – 11 November 1675) was an English doctor who played an important part in the history of anatomy, neurology and psychiatry, and was a founding member of the Royal Society.
Life
Willis was born on his pare ...
, a physician and professor at Oxford University, coined the term neurology when he published his text ''Cerebri Anatome'' which is considered the foundation of modern neuroanatomy. The subsequent three hundred and fifty some years has produced a great deal of documentation and study of the neural system.
Composition
At the tissue level, the nervous system is composed of
neurons
A neuron, neurone, or nerve cell is an electrically excitable cell that communicates with other cells via specialized connections called synapses. The neuron is the main component of nervous tissue in all animals except sponges and placozoa. N ...
,
glial cells, and
extracellular matrix. Both neurons and glial cells come in many types (see, for example, the nervous system section of the
list of distinct cell types in the adult human body
There are many different types of cells in the human body.
Cells derived primarily from endoderm
Exocrine secretory epithelial cells
* Brunner's gland cell in duodenum (enzymes and alkaline mucus)
*Insulated goblet cell of respiratory and ...
). Neurons are the information-processing cells of the nervous system: they sense our environment, communicate with each other via electrical signals and chemicals called neurotransmitters which generally act across
synapse
In the nervous system, a synapse is a structure that permits a neuron (or nerve cell) to pass an electrical or chemical signal to another neuron or to the target effector cell.
Synapses are essential to the transmission of nervous impulses from ...
s (close contacts between two neurons, or between a neuron and a muscle cell; note also extrasynaptic effects are possible, as well as release of neurotransmitters into the neural extracellular space), and produce our memories, thoughts, and movements. Glial cells maintain homeostasis, produce
myelin (oligodendrocytes, Schwann cells), and provide support and protection for the brain's neurons. Some glial cells (
astrocytes) can even propagate intercellular
calcium waves over long distances in response to stimulation, and release
gliotransmitters in response to changes in calcium concentration. Wound scars in the brain largely contain astrocytes. The
extracellular matrix also provides support on the molecular level for the brain's cells, vehiculating substances to and from the blood vessels.
At the organ level, the nervous system is composed of brain regions, such as the
hippocampus in mammals or the
mushroom bodies of the
fruit fly. These regions are often modular and serve a particular role within the general systemic pathways of the nervous system. For example, the hippocampus is critical for forming memories in connection with many other cerebral regions. The peripheral nervous system also contains afferent or efferent
nerves, which are bundles of fibers that originate from the brain and spinal cord, or from sensory or motor sorts of peripheral ganglia, and branch repeatedly to innervate every part of the body. Nerves are made primarily of the
axons
An axon (from Greek ἄξων ''áxōn'', axis), or nerve fiber (or nerve fibre: see American and British English spelling differences#-re, -er, spelling differences), is a long, slender projection of a nerve cell, or neuron, in vertebrates, th ...
or dendrites of neurons (axons in case of efferent motor fibres, and dendrites in case of afferent sensory fibres of the nerves), along with a variety of membranes that wrap around and segregate them into
nerve fascicle
A nerve fascicle, is a bundle of nerve fibers belonging to a nerve in the peripheral nervous system. A nerve fascicle is also called a fasciculus. A nerve fascicle is enclosed by perineurium, a layer of fascial connective tissue. Each enclosed ...
s.
The vertebrate nervous system is divided into the central and peripheral nervous systems. The
central nervous system (CNS) consists of the
brain,
retina, and
spinal cord, while the
peripheral nervous system (PNS) is made up of all the nerves and ganglia (packets of peripheral neurons) outside of the CNS that connect it to the rest of the body. The PNS is further subdivided into the somatic and autonomic nervous systems. The
somatic nervous system is made up of "afferent" neurons, which bring sensory information from the somatic (body) sense organs to the CNS, and "efferent" neurons, which carry motor instructions out to the voluntary muscles of the body. The
autonomic nervous system
The autonomic nervous system (ANS), formerly referred to as the vegetative nervous system, is a division of the peripheral nervous system that supplies viscera, internal organs, smooth muscle and glands. The autonomic nervous system is a control ...
can work with or without the control of the CNS (that's why it is called 'autonomous'), and also has two subdivisions, called
sympathetic and
parasympathetic
The parasympathetic nervous system (PSNS) is one of the three divisions of the autonomic nervous system, the others being the sympathetic nervous system and the enteric nervous system. The enteric nervous system is sometimes considered part of t ...
, which are important for transmitting motor orders to the body's basic internal organs, thus controlling functions such as heartbeat, breathing, digestion, and salivation. Autonomic nerves, unlike somatic nerves, contain only efferent fibers. Sensory signals coming from the viscera course into the CNS through the somatic sensory nerves (e.g., visceral pain), or through some particular cranial nerves (e.g., chemosensitive or mechanic signals).
Orientation in neuroanatomy
In anatomy in general and neuroanatomy in particular, several sets of topographic terms are used to denote orientation and location, which are generally referred to the body or brain axis (see
Anatomical terms of location). The axis of the CNS is often wrongly assumed to be more or less straight, but it actually shows always two ventral flexures (cervical and cephalic flexures) and a dorsal flexure (pontine flexure), all due to differential growth during embryogenesis. The pairs of terms used most commonly in neuroanatomy are:
* Dorsal and ventral: Dorsal refers more or less to the top or upper side of the brain, which is symbolized by the floor plate, and ventral to the bottom or lower side. These descriptors originally were used for ''dorsum'' and ''ventrum'' – back and belly – of the body; the belly of most animals is oriented towards the ground; the erect posture of humans places our ventral aspect anteriorly, and the dorsal aspect becomes posterior. The case of the head and the brain is peculiar, since the belly does not properly extend into the head, unless we assume that the mouth represents an extended belly element. Therefore, in common use, those brain parts that lie close to the base of the cranium, and through it to the mouth cavity, are called ventral – i.e., at its bottom or lower side, as defined above – whereas dorsal parts are closer to the enclosing cranial vault. Reference to the roof and floor plates of the brain is less prone to confusion, also allow us to keep an eye on the axial flexures mentioned above. Dorsal and ventral are thus relative terms in the brain, whose exact meaning depends on the specific location.
* Rostral and caudal: ''rostral'' refers in general anatomy to the front of the body (towards the nose, or ''rostrum'' in Latin), and ''caudal'' refers to the tail end of the body (towards the tail; ''cauda'' in Latin). The rostrocaudal dimension of the brain corresponds to its length axis, which runs across the cited flexures from the caudal tip of the spinal cord into a rostral end roughly at the optic chiasma. In the erect Man, the directional terms "superior" and "inferior" essentially refer to this rostrocaudal dimension, because our body and brain axes are roughly oriented vertically in the erect position. However, all vertebrates develop a very marked ventral kink in the neural tube that is still detectable in the adult central nervous system, known as the
cephalic flexure. The latter bends the rostral part of the CNS at a 180-degree angle relative to the caudal part, at the transition between the
forebrain (axis ending rostrally at the optic chiasma) and the
brainstem
The brainstem (or brain stem) is the posterior stalk-like part of the brain that connects the cerebrum with the spinal cord. In the human brain the brainstem is composed of the midbrain, the pons, and the medulla oblongata. The midbrain is cont ...
and
spinal cord (axis roughly vertical, but including additional minor kinks at the pontine and cervical flexures) These flexural changes in axial dimension are problematic when trying to describe relative position and sectioning planes in the brain. There is abundant literature that wrongly disregards the axial flexures and assumes a relatively straight brain axis.
* Medial and lateral: ''medial'' refers to being close, or relatively closer, to the midline (the descriptor ''median'' means a position precisely at the midline). ''Lateral'' is the opposite (a position more or less separated away from the midline).
Note that such descriptors (dorsal/ventral, rostral/caudal; medial/lateral) are relative rather than absolute (e.g., a lateral structure may be said to lie medial to something else that lies even more laterally).
Commonly used terms for planes of orientation or planes of section in neuroanatomy are "sagittal", "transverse" or "coronal", and "axial" or "horizontal". Again in this case, the situation is different for swimming, creeping or quadrupedal (prone) animals than for Man, or other erect species, due to the changed position of the axis. Due to the axial brain flexures, no section plane ever achieves a complete section series in a selected plane, because some sections inevitably result cut oblique or even perpendicular to it, as they pass through the flexures. Experience allows to discern the portions that result cut as desired.
* A mid-sagittal plane divides the body and brain into left and right halves; sagittal sections, in general, are parallel to this median plane, moving along the medial-lateral dimension (see the image above). The term ''sagittal'' refers etymologically to the median suture between the right and left parietal bones of the cranium, known classically as sagittal suture, because it looks roughly like an arrow by its confluence with other sutures (''sagitta''; arrow in Latin).
* A section plane orthogonal to the axis of any elongated form in principle is held to be transverse (e.g., a transverse section of a finger or of the vertebral column); if there is no length axis, there is no way to define such sections, or there are infinite possibilities. Therefore, transverse body sections in vertebrates are parallel to the ribs, which are orthogonal to the vertebral column, which represents the body axis both in animals and man. The brain also has an intrinsic longitudinal axis – that of the primordial elongated neural tube – which becomes largely vertical with the erect posture of Man, similarly as the body axis, except at its rostral end, as commented above. This explains that transverse spinal cord sections are roughly parallel to our ribs, or to the ground. However, this is only true for the spinal cord and the brainstem, since the forebrain end of the neural axis bends crook-like during early morphogenesis into the chiasmatic hypothalamus, where it ends; the orientation of true transverse sections accordingly changes, and is no longer parallel to the ribs and ground, but perpendicular to them; lack of awareness of this morphologic brain peculiarity (present in all vertebrate brains without exceptions) has caused and still causes much erroneous thinking on forebrain brain parts. Acknowledging the singularity of rostral transverse sections, tradition has introduced a different descriptor for them, namely ''coronal'' sections. Coronal sections divide the forebrain from rostral (front) to caudal (back), forming a series orthogonal (transverse) to the local bent axis. The concept cannot be applied meaningfully to the brainstem and spinal cord, since there the coronal sections become horizontal to the axial dimension, being parallel to the axis. In any case, the concept of 'coronal' sections is less precise than that of 'transverse', since often coronal section planes are used which are not truly orthogonal to the rostral end of the brain axis. The term is etymologically related to the ''coronal suture'' of the craneum and this to the position where crowns are worn (Latin ''corona'' means crown). It is not clear what sort of crown was meant originally (maybe just a diadema), and this leads unfortunately to ambiguity in the section plane defined merely as coronal.
* A coronal plane across the human head and brain is modernly conceived to be parallel to the face (the plane in which a king's crown sits on his head is not exactly parallel to the face, and exportation of the concept to less frontally endowed animals than us is obviously even more conflictive, but there is an implicit reference to the ''coronal suture'' of the cranium, which forms between the frontal and temporal/parietal bones, giving a sort of diadema configuration which is roughly parallel to the face). Coronal section planes thus essentially refer only to the head and brain, where a diadema makes sense, and not to the neck and body below.
* Horizontal sections by definition are aligned (parallel) with the horizon. In swimming, creeping and quadrupedal animals the body axis itself is horizontal, and, thus, horizontal sections run along the length of the spinal cord, separating ventral from dorsal parts. Horizontal sections are orthogonal to both transverse and sagittal sections, and in theory, are parallel to the length axis. Due to the axial bend in the brain (forebrain), true horizontal sections in that region are orthogonal to coronal (transverse) sections (as is the horizon relative to the face).
According to these considerations, the three directions of space are represented precisely by the sagittal, transverse and horizontal planes, whereas coronal sections can be transverse, oblique or horizontal, depending on how they relate to the brain axis and its incurvations.
Tools
Modern developments in neuroanatomy are directly correlated to the technologies used to perform
research. Therefore, it is necessary to discuss the various tools that are available. Many of the
histological techniques used to study other tissues can be applied to the nervous system as well. However, there are some techniques that have been developed especially for the study of neuroanatomy.
Cell staining
In biological systems,
staining
Staining is a technique used to enhance contrast in samples, generally at the microscopic level. Stains and dyes are frequently used in histology (microscopic study of biological tissues), in cytology (microscopic study of cells), and in the ...
is a technique used to enhance the contrast of particular features in microscopic images.
Nissl staining
Franz Alexander Nissl (9 September 1860, in Frankenthal – 11 August 1919, in Munich) was a German psychiatrist and medical researcher. He was a noted neuropathologist.
Early life
Nissl was born in Frankenthal to Theodor Nissl and Maria Haas. ...
uses aniline basic dyes to intensely stain the acidic polyribosomes in the
rough endoplasmic reticulum, which is abundant in neurons. This allows researchers to distinguish between different cell types (such as neurons and
glia), and neuronal shapes and sizes, in various regions of the nervous system
cytoarchitecture.
The classic
Golgi stain
Golgi's method is a silver staining technique that is used to visualize nervous tissue under light microscopy. The method was discovered by Camillo Golgi, an Italian physician and scientist, who published the first picture made with the technique ...
uses
potassium dichromate and
silver nitrate to fill selectively with a silver chromate precipitate a few neural cells (neurons or glia, but in principle, any cells can react similarly). This so-called silver chromate impregnation procedure stains entirely or partially the cell bodies and neurites of some neurons -
dendrites,
axon- in brown and black, allowing researchers to trace their paths up to their thinnest terminal branches in a slice of nervous tissue, thanks to the transparency consequent to the lack of staining in the majority of surrounding cells. Modernly, Golgi-impregnated material has been adapted for electron-microscopic visualization of the unstained elements surrounding the stained processes and cell bodies, thus adding further resolutive power.
Histochemistry
Histochemistry uses knowledge about biochemical reaction properties of the chemical constituents of the brain (including notably enzymes) to apply selective methods of reaction to visualize where they occur in the brain and any functional or pathological changes. This applies importantly to molecules related to neurotransmitter production and metabolism, but applies likewise in many other directions chemoarchitecture, or chemical neuroanatomy.
Immunocytochemistry
Immunocytochemistry (ICC) is a common laboratory technique that is used to anatomically visualize the localization of a specific protein or antigen in cells by use of a specific primary antibody that binds to it. The primary antibody allows visual ...
is a special case of histochemistry that uses selective antibodies against a variety of chemical epitopes of the nervous system to selectively stain particular cell types, axonal fascicles, neuropiles, glial processes or blood vessels, or specific intracytoplasmic or intranuclear proteins and other immunogenetic molecules, e.g., neurotransmitters. Immunoreacted transcription factor proteins reveal genomic readout in terms of translated protein. This immensely increases the capacity of researchers to distinguish between different cell types (such as neurons and
glia) in various regions of the nervous system.
In situ hybridization uses synthetic RNA probes that attach (hybridize) selectively to complementary mRNA transcripts of DNA exons in the cytoplasm, to visualize genomic readout, that is, distinguish active gene expression, in terms of mRNA rather than protein. This allows identification histologically (in situ) of the cells involved in the production of genetically-coded molecules, which often represent differentiation or functional traits, as well as the molecular boundaries separating distinct brain domains or cell populations.
Genetically encoded markers
By expressing variable amounts of red, green, and blue fluorescent proteins in the brain, the so-called "
brainbow" mutant mouse allows the combinatorial visualization of many different colors in neurons. This tags neurons with enough unique colors that they can often be distinguished from their neighbors with
fluorescence microscopy, enabling researchers to map the local connections or mutual arrangement (tiling) between neurons.
Optogenetics uses transgenic constitutive and site-specific expression (normally in mice) of blocked markers that can be activated selectively by illumination with a light beam. This allows researchers to study axonal connectivity in the nervous system in a very discriminative way.
Non-invasive brain imaging
Magnetic resonance imaging
Magnetic resonance imaging (MRI) is a medical imaging technique used in radiology to form pictures of the anatomy and the physiological processes of the body. MRI scanners use strong magnetic fields, magnetic field gradients, and radio wave ...
has been used extensively to investigate brain
structure
A structure is an arrangement and organization of interrelated elements in a material object or system, or the object or system so organized. Material structures include man-made objects such as buildings and machines and natural objects such as ...
and
function non-invasively in healthy human subjects. An important example is
diffusion tensor imaging
Diffusion-weighted magnetic resonance imaging (DWI or DW-MRI) is the use of specific MRI sequences as well as software that generates images from the resulting data that uses the diffusion of water molecules to generate contrast in MR images. It ...
, which relies on the restricted diffusion of water in tissue in order to produce axon images. In particular, water moves more quickly along the direction aligned with the axons, permitting the inference of their structure.
Viral-based methods
Certain viruses can replicate in brain cells and cross synapses. So, viruses modified to express markers (such as fluorescent proteins) can be used to trace connectivity between brain regions across multiple synapses. Two tracer viruses which replicate and spread transneuronal/transsynaptic are the
Herpes simplex virus
Herpes simplex virus 1 and 2 (HSV-1 and HSV-2), also known by their taxonomical names ''Human alphaherpesvirus 1'' and '' Human alphaherpesvirus 2'', are two members of the human ''Herpesviridae'' family, a set of viruses that produce viral inf ...
type1 (HSV) and the
Rhabdoviruses
''Rhabdoviridae'' is a family of negative-strand RNA viruses in the order ''Mononegavirales''. Vertebrates (including mammals and humans), invertebrates, plants, fungi and protozoans serve as natural hosts. Diseases associated with member virus ...
. Herpes simplex virus was used to trace the connections between the brain and the stomach, in order to examine the brain areas involved in viscero-sensory processing.
Another study injected herpes simplex virus into the eye, thus allowing the visualization of the
optical pathway from the
retina into the
visual system. An example of a tracer virus which replicates from the synapse to the soma is the
pseudorabies virus
Aujeszky's disease, usually called pseudorabies in the United States, is a viral disease in swine that has been endemic in most parts of the world. It is caused by ''Suid herpesvirus 1'' (SuHV-1). Aujeszky's disease is considered to be the mos ...
. By using pseudorabies viruses with different fluorescent reporters, dual infection models can parse complex synaptic architecture.
Dye-based methods
Axonal transport methods use a variety of dyes (horseradish peroxidase variants, fluorescent or radioactive markers, lectins, dextrans) that are more or less avidly absorbed by neurons or their processes. These molecules are selectively transported
anterogradely (from soma to axon terminals) or
retrogradely (from axon terminals to soma), thus providing evidence of primary and collateral connections in the brain. These 'physiologic' methods (because properties of living, unlesioned cells are used) can be combined with other procedures, and have essentially superseded the earlier procedures studying degeneration of lesioned neurons or axons. Detailed synaptic connections can be determined by correlative electron microscopy.
Connectomics
Serial section electron microscopy has been extensively developed for use in studying nervous systems. For example, the first application of
serial block-face scanning electron microscopy Serial block-face scanning electron microscopy is a method to generate high resolution three-dimensional images from small samples. The technique was developed for brain tissue, but it is widely applicable for any biological samples. A serial block- ...
was on rodent cortical tissue. Circuit reconstruction from data produced by this high-throughput method is challenging, and the Citizen science game
EyeWire has been developed to aid research in that area.
Computational neuroanatomy
Is a field that utilizes various imaging modalities and computational techniques to model and quantify the spatiotemporal dynamics of neuroanatomical structures in both normal and clinical populations.
Model systems
Aside from the
human brain, there are many other animals whose brains and nervous systems have received extensive study as
model systems, including mice,
zebrafish,
fruit fly, and a species of roundworm called
''C. elegans''. Each of these has its own advantages and disadvantages as a model system. For example, the ''C. elegans'' nervous system is extremely stereotyped from one individual worm to the next. This has allowed researchers using
electron microscopy
An electron microscope is a microscope that uses a beam of accelerated electrons as a source of illumination. As the wavelength of an electron can be up to 100,000 times shorter than that of visible light photons, electron microscopes have a hi ...
to map the paths and connections of all of the 302 neurons in this species. The fruit fly is widely studied in part because its genetics is very well understood and easily manipulated. The mouse is used because, as a mammal, its brain is more similar in structure to our own (e.g., it has a six-layered
cortex, yet its genes can be easily modified and its reproductive cycle is relatively fast).
Caenorhabditis elegans
The brain is small and simple in some species, such as the
nematode
The nematodes ( or grc-gre, Νηματώδη; la, Nematoda) or roundworms constitute the phylum Nematoda (also called Nemathelminthes), with plant-Parasitism, parasitic nematodes also known as eelworms. They are a diverse animal phylum inhab ...
worm, where the body plan is quite simple: a tube with a hollow gut cavity running from the mouth to the anus, and a nerve cord with an enlargement (a
ganglion
A ganglion is a group of neuron cell bodies in the peripheral nervous system. In the somatic nervous system this includes dorsal root ganglia and trigeminal ganglia among a few others. In the autonomic nervous system there are both sympatheti ...
) for each body segment, with an especially large ganglion at the front, called the brain. The nematode ''
Caenorhabditis elegans
''Caenorhabditis elegans'' () is a free-living transparent nematode about 1 mm in length that lives in temperate soil environments. It is the type species of its genus. The name is a blend of the Greek ''caeno-'' (recent), ''rhabditis'' (ro ...
'' has been studied because of its importance in genetics. In the early 1970s,
Sydney Brenner chose it as a model system for studying the way that genes control development, including neuronal development. One advantage of working with this worm is that the nervous system of the
hermaphrodite
In reproductive biology, a hermaphrodite () is an organism that has both kinds of reproductive organs and can produce both gametes associated with male and female sexes.
Many Taxonomy (biology), taxonomic groups of animals (mostly invertebrate ...
contains exactly 302 neurons, always in the same places, making identical synaptic connections in every worm. Brenner's team sliced worms into thousands of ultrathin sections and photographed every section under an electron microscope, then visually matched fibers from section to section, to map out every neuron and synapse in the entire body, to give a complete
connectome of the nematode. Nothing approaching this level of detail is available for any other organism, and the information has been used to enable a multitude of studies that would not have been possible without it.
Drosophila melanogaster
''
Drosophila melanogaster'' is a popular experimental animal because it is easily cultured en masse from the wild, has a short generation time, and mutant animals are readily obtainable.
Arthropods
Arthropods (, (gen. ποδός)) are invertebrate animals with an exoskeleton, a Segmentation (biology), segmented body, and paired jointed appendages. Arthropods form the phylum Arthropoda. They are distinguished by their jointed limbs and Arth ...
have a central
brain with three divisions and large
optical lobes behind each eye for visual processing. The brain of a fruit fly contains several million synapses, compared to at least 100 billion in the human brain. Approximately two-thirds of the Drosophila brain is dedicated to
visual processing.
Thomas Hunt Morgan started to work with Drosophila in 1906, and this work earned him the 1933 Nobel Prize in Medicine for identifying chromosomes as the vector of inheritance for genes. Because of the large array of tools available for studying Drosophila genetics, they have been a natural subject for studying the role of genes in the nervous system. The genome has been sequenced and published in 2000. About 75% of known human disease genes have a recognizable match in the genome of fruit flies. Drosophila is being used as a genetic model for several human neurological diseases including the neurodegenerative disorders Parkinson's, Huntington's, spinocerebellar ataxia and Alzheimer's disease. In spite of the large evolutionary distance between insects and mammals, many basic aspects of ''Drosophila'' neurogenetics have turned out to be relevant to humans. For instance, the first biological clock genes were identified by examining ''Drosophila'' mutants that showed disrupted daily activity cycles.
See also
*
Connectogram
*
Outline of the human brain
The following outline is provided as an overview of and topical guide to the human brain:
Human brain – central organ of the nervous system located in the head of a human being, protected by the skull. It has the same general structure as the ...
*
Outline of brain mapping
The following outline is provided as an overview of and topical guide to brain mapping:
Brain mapping – set of neuroscience techniques predicated on the mapping of (biological) quantities or properties onto spatial representations of the ...
*
List of regions in the human brain
The human brain anatomical regions are ordered following standard neuroanatomy hierarchies. Functional, connective, and developmental regions are listed in parentheses where appropriate.
Hindbrain (rhombencephalon)
Myelencephalon
* Med ...
*
Medical image computing
*
Neurology
*
Neurodiversity
Neurodiversity refers to diversity in the human brain and cognition, for instance in sociability, learning, attention, mood and other mental functions.
It was coined in 1998 by sociologist Judy Singer, who helped popularize the concept alo ...
*
Neuroscience
*
Computational anatomy
Citations
Sources
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External links
Neuroanatomy an annual journal of clinical neuroanatomy
Mouse, Rat, Primate and Human Brain Atlases (UCLA Center for Computational Biology)brainmaps.org: High-Resolution Neuroanatomically-Annotated Brain AtlasesBrainInfo for NeuroanatomyBrain Architecture Management System several atlases of brain anatomy
White Matter Atlas Diffusion Tensor Imaging Atlas of the Brain's White Matter Tracts
{{Authority control
Nervous system