A Brodmann area is a region of the

cerebral cortex The cerebral cortex, also known as the cerebral mantle, is the outer layer of neural tissue of the cerebrum of the brain in humans and other mammals. It is the largest site of Neuron, neural integration in the central nervous system, and plays ...

, in the

human Humans (''Homo sapiens'') or modern humans are the most common and widespread species of primate, and the last surviving species of the genus ''Homo''. They are Hominidae, great apes characterized by their Prehistory of nakedness and clothing ...

or other

primate Primates is an order (biology), order of mammals, which is further divided into the Strepsirrhini, strepsirrhines, which include lemurs, galagos, and Lorisidae, lorisids; and the Haplorhini, haplorhines, which include Tarsiiformes, tarsiers a ...

brain The brain is an organ (biology), organ that serves as the center of the nervous system in all vertebrate and most invertebrate animals. It consists of nervous tissue and is typically located in the head (cephalization), usually near organs for ...

, defined by its

cytoarchitecture Cytoarchitecture (from Greek κύτος 'cell' and ἀρχιτεκτονική 'architecture'), also known as cytoarchitectonics, is the study of the cellular composition of the central nervous system's tissues under the microscope. Cytoarchit ...

, or

histological Histology, also known as microscopic anatomy or microanatomy, is the branch of biology that studies the microscopic anatomy of biological tissue (biology), tissues. Histology is the microscopic counterpart to gross anatomy, which looks at large ...

structure and organization of cells. The concept was first introduced by the German anatomist Korbinian Brodmann in the early 20th century. Brodmann mapped the human brain based on the varied cellular structure across the cortex and identified 52 distinct regions, which he numbered 1 to 52. These regions, or Brodmann areas, correspond with diverse functions including sensation, motor control, and cognition.

History

Brodmann areas were originally defined and numbered by the German

anatomist Anatomy () is the branch of morphology concerned with the study of the internal structure of organisms and their parts. Anatomy is a branch of natural science that deals with the structural organization of living things. It is an old scien ...

Korbinian Brodmann based on the cytoarchitectural organization of

neuron A neuron (American English), neurone (British English), or nerve cell, is an membrane potential#Cell excitability, excitable cell (biology), cell that fires electric signals called action potentials across a neural network (biology), neural net ...

s he observed in the cerebral cortex using the Nissl method of cell staining. Brodmann published his maps of cortical areas in humans, monkeys, and other species in 1909, along with many other findings and observations regarding the general cell types and laminar organization of the mammalian

cortex Cortex or cortical may refer to: Biology * Cortex (anatomy), the outermost layer of an organ ** Cerebral cortex, the outer layer of the vertebrate cerebrum, part of which is the ''forebrain'' *** Motor cortex, the regions of the cerebral cortex i ...

. The same Brodmann area number in different species does not necessarily indicate homologous areas. A similar, but more detailed cortical map was published by Constantin von Economo and Georg N. Koskinas in 1925.

Present importance

Brodmann areas have been discussed, debated, refined, and renamed exhaustively for nearly a century and remain the most widely known and frequently cited cytoarchitectural organization of the human cortex. Many of the areas Brodmann defined based solely on their neuronal organization have since been correlated closely to diverse cortical functions. For example, Brodmann areas 1, 2 and 3 are the

primary somatosensory cortex In neuroanatomy, the primary somatosensory cortex is located in the postcentral gyrus of the brain's parietal lobe, and is part of the somatosensory system. It was initially defined from surface stimulation studies of Wilder Penfield, and parallel ...

; area 4 is the

primary motor cortex The primary motor cortex ( Brodmann area 4) is a brain region that in humans is located in the dorsal portion of the frontal lobe. It is the primary region of the motor system and works in association with other motor areas including premotor c ...

; area 17 is the

primary visual cortex The visual cortex of the brain is the area of the cerebral cortex that processes visual information. It is located in the occipital lobe. Sensory input originating from the eyes travels through the lateral geniculate nucleus in the thalamus ...

; and areas 41 and 42 correspond closely to

primary auditory cortex The auditory cortex is the part of the temporal lobe that processes auditory information in humans and many other vertebrates. It is a part of the auditory system, performing basic and higher functions in hearing, such as possible relations to ...

. Higher order functions of the association cortical areas are also consistently localized to the same Brodmann areas by neurophysiological,

functional imaging Functional imaging (or physiological imaging) is a medical imaging technique of detecting or measuring changes in metabolism, blood flow, regional chemical composition, and absorption. As opposed to structural imaging, functional imaging center ...

, and other methods (e.g., the consistent localization of Broca's speech and language area to the left Brodmann areas 44 and 45). However, functional imaging can only identify the approximate localization of brain activations in terms of Brodmann areas since their actual boundaries in any individual brain require its

examination.

Overview

Different parts of the cerebral cortex are involved in different cognitive and behavioral functions. The differences show up in a number of ways: the effects of localized brain damage, regional activity patterns exposed when the brain is examined using functional imaging techniques, connectivity with subcortical areas, and regional differences in the cellular architecture of the cortex.

Neuroscientist A neuroscientist (or neurobiologist) is a scientist specializing in neuroscience that deals with the anatomy and function of neurons, Biological neural network, neural circuits, and glia, and their Behavior, behavioral, biological, and psycholo ...

s describe most of the cortex—the part they call the

neocortex The neocortex, also called the neopallium, isocortex, or the six-layered cortex, is a set of layers of the mammalian cerebral cortex involved in higher-order brain functions such as sensory perception, cognition, generation of motor commands, ...

—as having six layers, but not all layers are apparent in all areas, and even when a layer is present, its thickness and cellular organization may vary. Scientists have constructed maps of cortical areas on the basis of variations in the appearance of the layers as seen with a microscope. One of the most widely used schemes came from Korbinian Brodmann, who split the cortex into 52 different areas and assigned each a number (many of these Brodmann areas have since been subdivided). For example, Brodmann area 1 is the primary somatosensory cortex, Brodmann area 17 is the primary visual cortex, and Brodmann area 25 is the anterior cingulate cortex. Human motor cortex topography

Many of the brain areas defined by Brodmann have their own complex internal structures. In a number of cases, brain areas are organized into topographic maps, where adjoining bits of the cortex correspond to adjoining parts of the body, or of some more abstract entity. A simple example of this type of correspondence is the primary motor cortex, a strip of tissue running along the anterior edge of the central sulcus. Motor areas innervating each part of the body arise from a distinct zone, with neighboring body parts represented by neighboring zones. Electrical stimulation of the cortex at any point causes a muscle-contraction in the represented body part. This "somatotopic" representation is not evenly distributed, however; the head, for example, is represented by a region about three times as large as the zone for the entire back and trunk. The size of any zone correlates to the precision of motor control and sensory discrimination possible. The areas for the lips, fingers, and tongue are particularly large, considering the proportional size of their represented body parts. The maps for visual areas are

retinotopic Retinotopy () is the mapping of visual input from the retina to neurons, particularly those neurons within the Two-streams hypothesis, visual stream. For clarity, 'retinotopy' can be replaced with 'retinal mapping', and 'retinotopic' with 'retin ...

, meaning that they reflect the topography of the

retina The retina (; or retinas) is the innermost, photosensitivity, light-sensitive layer of tissue (biology), tissue of the eye of most vertebrates and some Mollusca, molluscs. The optics of the eye create a focus (optics), focused two-dimensional ...

: the layer of light-activated neurons lining the back of the eye. In this case too, the representation is uneven: the fovea—the area at the center of the visual field—is greatly overrepresented compared to the periphery. The visual circuitry in the human cerebral cortex contains several dozen distinct retinotopic maps, each devoted to analyzing the visual input stream in a particular way. The primary visual cortex (Brodmann area 17), which is the main recipient of direct input from the visual part of the thalamus, contains many neurons that are most easily activated by edges with a particular orientation moving across a particular point in the visual field. Visual areas farther downstream extract features such as color, motion, and shape. In auditory areas, the primary map is tonotopic. Sounds are parsed according to frequency (i.e., high pitch vs. low pitch) by subcortical auditory areas, and this parsing is reflected by the primary auditory zone of the cortex. As with the visual system, there are a number of tonotopic cortical maps, each devoted to analyzing sound in a particular way. Within a topographic map there can sometimes be finer levels of spatial structure. In the primary visual cortex, for example, where the main organization is retinotopic and the main responses are to moving edges, cells that respond to different edge-orientations are spatially segregated from one another.

For humans and other primates

* Areas 3, 1 and 2 –

Primary somatosensory cortex In neuroanatomy, the primary somatosensory cortex is located in the postcentral gyrus of the brain's parietal lobe, and is part of the somatosensory system. It was initially defined from surface stimulation studies of Wilder Penfield, and parallel ...

in the

postcentral gyrus In neuroanatomy, the postcentral gyrus is a prominent gyrus in the lateral parietal lobe of the human brain. It is the location of the primary somatosensory cortex, the main sensory receptive area for the sense of touch. Like other sensory area ...

(frequently referred to as Areas 3, 1, 2 by convention) * Area 4–

Primary motor cortex The primary motor cortex ( Brodmann area 4) is a brain region that in humans is located in the dorsal portion of the frontal lobe. It is the primary region of the motor system and works in association with other motor areas including premotor c ...

* Area 5 – Superior parietal lobule * Area 6 –

Premotor cortex The premotor cortex is an area of the motor cortex lying within the frontal lobe of the brain just anterior to the primary motor cortex. It occupies part of Brodmann's area 6. It has been studied mainly in primates, including monkeys and human ...

and supplementary motor cortex (secondary motor cortex) ( supplementary motor area) * Area 7 – Visuo-motor coordination * Area 8 – Includes frontal eye fields * Area 9 –

Dorsolateral prefrontal cortex The dorsolateral prefrontal cortex (DLPFC or DL-PFC) is an area in the prefrontal cortex of the primate brain. It is one of the most recently derived parts of the human brain. It undergoes a prolonged period of maturation which lasts into adulthoo ...

* Area 10 – Anterior prefrontal cortex (most rostral part of superior and middle frontal gyri) * Area 11 – Orbitofrontal area (orbital and rectus gyri, plus part of the rostral part of the superior frontal gyrus) * Area 12 – Orbitofrontal area (used to be part of BA11, refers to the area between the superior frontal gyrus and the inferior rostral sulcus) * Area 13 and Area 14^* –

Insular cortex The insular cortex (also insula and insular lobe) is a portion of the cerebral cortex folded deep within the lateral sulcus (the fissure separating the temporal lobe from the parietal lobe, parietal and frontal lobes) within each brain hemisphere ...

* Area 15^* – Anterior

temporal lobe The temporal lobe is one of the four major lobes of the cerebral cortex in the brain of mammals. The temporal lobe is located beneath the lateral fissure on both cerebral hemispheres of the mammalian brain. The temporal lobe is involved in pr ...

* Area 16 –

* Area 17 – Primary visual cortex (V1) * Area 18 – Secondary visual cortex (V2) * Area 19 – Associative visual cortex (V3, V4, V5) * Area 20 – Inferior temporal gyrus * Area 21 – Middle temporal gyrus * Area 22 – Part of the

superior temporal gyrus The superior temporal gyrus (STG) is one of three (sometimes two) gyri in the temporal lobe of the human brain, which is located laterally to the head, situated somewhat above the external ear. The superior temporal gyrus is bounded by: * the l ...

, included in

Wernicke's area Wernicke's area (; ), also called Wernicke's speech area, is one of the two parts of the cerebral cortex that are linked to speech, the other being Broca's area. It is involved in the comprehension of written and spoken language, in contrast to ...

* Area 23 – Ventral

posterior cingulate cortex The posterior cingulate cortex (PCC) is the caudal part of the cingulate cortex, located posterior to the anterior cingulate cortex. This is the upper part of the " limbic lobe". The cingulate cortex is made up of an area around the midline of ...

* Area 24 – Ventral anterior cingulate cortex. * Area 25 – Subgenual area (part of the ventromedial prefrontal cortex) * Area 26 – Ectosplenial portion of the retrosplenial region of the cerebral cortex * Area 27 – Presubiculum * Area 28 – Ventral

entorhinal cortex The entorhinal cortex (EC) is an area of the brain's allocortex, located in the medial temporal lobe, whose functions include being a widespread network hub for memory, navigation, and the perception of time.Integrating time from experience in t ...

* Area 29 – Retrosplenial cortex * Area 30 – Subdivision of retrosplenial cortex * Area 31 – Dorsal

* Area 32 – Dorsal anterior cingulate cortex * Area 33 – Part of anterior cingulate cortex * Area 34 – Dorsal

(on the parahippocampal gyrus) * Area 35 – Part of the perirhinal cortex (in the rhinal sulcus) * Area 36 – Part of the perirhinal cortex (in the rhinal sulcus) * Area 37 –

Fusiform gyrus The fusiform gyrus, also known as the ''lateral occipitotemporal gyrus'','' ''is part of the temporal lobe and occipital lobe in Brodmann area 37. The fusiform gyrus is located between the lingual gyrus and parahippocampal gyrus above, and ...

* Area 38 – Temporopolar area (most rostral part of the superior and middle temporal gyri) * Area 39 – Angular gyrus, considered by some to be part of

* Area 40 – Supramarginal gyrus considered by some to be part of

* Areas 41 and 42 –

Auditory cortex The auditory cortex is the part of the temporal lobe that processes auditory information in humans and many other vertebrates. It is a part of the auditory system, performing basic and higher functions in hearing, such as possible relations to ...

* Area 43 – Primary

gustatory cortex The primary gustatory cortex (GC) is a brain structure responsible for the perception of taste. It consists of two substructures: the anterior insula on the insular lobe and the frontal operculum on the inferior frontal gyrus of the frontal lo ...

* Areas 44 and 45 –

Broca's area Broca's area, or the Broca area (, also , ), is a region in the frontal lobe of the dominant Cerebral hemisphere, hemisphere, usually the left, of the Human brain, brain with functions linked to speech production. Language processing in the brai ...

, includes the opercular part and triangular part of the

inferior frontal gyrus The inferior frontal gyrus (IFG; also gyrus frontalis inferior) is the lowest positioned gyrus of the frontal gyri, of the frontal lobe, and is part of the prefrontal cortex. Its superior border is the inferior frontal sulcus (which divides it ...

* Area 46 –

* Area 47 –

Orbital part of inferior frontal gyrus The orbital part of inferior frontal gyrus also known as the pars orbitalis is the orbital part of the inferior frontal gyrus. In humans, this region is bordered by the triangular part of the inferior frontal gyrus (pars triangularis) and, su ...

* Area 48 – Retrosubicular area (a small part of the medial surface of the temporal lobe) * Area 49 – Parasubicular area in a rodent * Area 52 – Parainsular area (at the junction of the temporal lobe and the insula) (*) Area only found in non-human

s. Some of the original Brodmann areas have been subdivided further, e.g., "23a" and "23b".

Clickable map: lateral surface

:''Note: the lateral view, or side view, of the brain is denoted the 'lateral surface Image:Gray726-Brodman.png, Image mapped Brodmann Areas. Clicking on an area in the picture causes the browser to load the appropriate article., 480px rect 509 186 596 236 Areas 3, 1 & 2 – Primary Somatosensory Cortex rect 474 122 524 172 Area 4 – Primary Motor Cortex rect 602 143 652 193 Area 5 – Somatosensory Association Cortex rect 378 162 428 212 Area 6 – Premotor cortex and Supplementary Motor Cortex (Secondary Motor Cortex)(Supplementary motor area rect 692 178 742 228 Area 7 – Somatosensory Association Cortex rect 259 107 309 157 Area 8 – Includes Frontal eye fields rect 137 162 188 212 Area 9 – Dorsolateral prefrontal cortex rect 31 330 81 380 Area 10 – Anterior prefrontal cortex rect 65 427 116 477 Area 11 – Orbitofrontal area rect 892 459 942 509 Area 17 – Primary visual cortex (V1) rect 834 427 885 477 Area 18 – Secondary visual cortex (V2) rect 770 385 821 435 Area 19 – Associative visual cortex (V3) rect 427 554 477 604 Area 20 – Inferior temporal gyrus rect 474 491 524 541 Area 21 – Middle temporal gyrus rect 635 417 686 467 Area 22 – Superior temporal gyrus rect 673 484 723 534 Area 37 – Fusiform gyrus rect 250 505 301 555 Area 38 – PULA rect 706 307 757 357 Area 39 – Angular gyrus rect 571 315 622 365 Area 40 – Supramarginal gyrus rect 536 394 587 444 Area 41 – Primary and Auditory Association Cortex rect 589 411 634 461 Area 42 – Primary and Auditory Association Cortex rect 416 368 467 418 Area 43 – Primary gustatory cortex rect 282 353 333 403 Area 44 – pars opercularis, part of Broca's area rect 219 378 270 428 Area 45 – pars triangularis, Broca's area rect 144 257 195 307 Area 46 – Dorsolateral prefrontal cortex rect 145 410 196 460 Area 47 – Inferior prefrontal gyrus rect 958 718 960 72
Image Map
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Clickable map: medial surface

:''Note: the view of the section between the right and left hemispheres of the brain is denoted the 'medial surface Image:Gray727-Brodman.png, Image mapped Brodmann Areas. Clicking on an area in the picture causes the browser to load the appropriate article., 480px rect 559 100 648 150 Areas 3, 1 & 2 – Primary Somatosensory Cortex rect 442 99 492 149 area 4 – primary motor cortex rect 538 162 588 212 Area 5 – Somatosensory Association Cortex rect 306 122 356 172 Area 6 – Premotor cortex and Supplementary Motor Cortex (Secondary Motor Cortex)(Supplementary motor area rect 714 155 764 205 Area 7 – Somatosensory Association Cortex rect 193 155 243 205 Area 8 – Includes Frontal eye fields rect 106 211 156 261 Area 9 – Dorsolateral prefrontal cortex rect 35 323 85 373 Area 10 – Anterior prefrontal cortex rect 74 441 124 491 Area 11 – Orbitofrontal area rect 162 404 212 454 Area 12 – Orbitofrontal area rect 819 378 869 428 Area 17 – Primary visual cortex (V1) rect 761 428 811 478 Area 18 – Secondary visual cortex (V2) rect 697 467 747 517 Area 19 – Associative visual cortex (V3) rect 810 233 860 283 Area 19 – Associative visual cortex (V3) rect 860 308 910 358 Area 18 – Secondary visual cortex (V2) rect 563 289 613 339 Area 23 – Ventral Posterior cingulate cortex rect 314 210 364 260 Area 24 – Ventral Anterior cingulate cortex rect 227 434 277 484 Area 25 – Subgenual cortex (part of the Ventromedial prefrontal cortex) rect 512 355 562 405 Area 26 – Ectosplenial portion of the retrosplenial region of the cerebral cortex rect 377 448 427 498 Area 27 – Piriform cortex rect 314 489 364 539 Area 28 – Posterior Entorhinal Cortex rect 571 371 621 421 Area 29 – Retrosplenial cingulate cortex rect 532 419 582 469 Area 30 – Part of cingulate cortex rect 632 264 682 314 Area 31 – Dorsal Posterior cingulate cortex rect 138 330 188 380 Area 32 – Dorsal anterior cingulate cortex rect 234 290 284 340 Area 33 – Part of anterior cingulate cortex rect 305 435 355 485 Area 34 – Anterior Entorhinal Cortex (on the Parahippocampal gyrus) rect 448 450 498 500 Area 35 – Perirhinal cortex (on the Parahippocampal gyrus) rect 448 507 498 557 Area 20 – Inferior temporal gyrus rect 585 482 635 532 Area 37 – Fusiform gyrus rect 265 532 318 582 Area 38 – Temporopolar area rect 958 718 960 72
Image Map
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Criticism

When von Bonin and Bailey constructed a brain map for the macaque monkey, they found the description of Brodmann inadequate and wrote: "Brodmann (1907), it is true, prepared a map of the human brain which has been widely reproduced, but, unfortunately, the data on which it was based was never published" They instead used the cytoarchitectonic scheme of Constantin von Economo and Georg N. Koskinas published in 1925 which had the "only acceptable detailed description of the human cortex".

References

External links

- Brodmann Areas, their functions, and the lateralization of functions across hemispheres
Brodmann
Mark Dubin pages on Brodmann areas.
Brodmann areas
Brodmann areas of cortex involved in language.
Brodmann Illustrations
BrainInfo Illustrations. {{DEFAULTSORT:Brodmann Area Brodmann areas, Cerebrum Anatomy named for one who described it 1909 in biology