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A Wisdom Archive on anterior

anterior A selection of articles related to anterior

We recommend this article: anterior - 1, and also this: anterior - 2.

anterior, Anatomical terms of location, Anatomical terms of location - Directions, Anatomical terms of location - Planes, Anatomical terms of location - Relative directions, Anatomical terms of location - Relative motions, Anatomical terms of location - General usage, Anatomical terms of location - Relative directions in the limbs, Anatomical terms of location - Usage in human anatomy, Nomina Anatomica Veterinaria

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ARTICLES RELATED TO anterior

anterior: Encyclopedia II - Brodmann area 32 - Human

In the human this area is known as dorsal anterior cingulate area 32, and it refers to a subdivision of the cytoarchitecturally defined cingulate region of cerebral cortex. In the human it forms an outer arc around the anterior cingulate gyrus. The cingulate sulcus defines approximately its inner boundary and the superior rostral sulcus (H) its ventral boundary; rostrally it extends almost to the margin of the frontal lobe. Cytoarchitecturally it is bounded internally by the ventral anterior cingulate area 24, externally by medial mar ...

See also:

Brodmann area 32, Brodmann area 32 - Human, Brodmann area 32 - Guenon

Read more here: » Brodmann area 32: Encyclopedia II - Brodmann area 32 - Human

anterior: Encyclopedia II - Coelophysis - Description

Coelophysis bauri is the earliest well known dinosaur. C. bauri was a lightly built dinosaur, between two to three meters in length, and less than a meter tall at the hips. The name Coelophysis means "hollow form" or "hollow process, so named because of its hollow limb bones. Despite being an early dinosaur, the evolution of the theropod body form had already advanced greatly from creatures like Herrerasaurus and Eoraptor. Coelophysis had an elongated snout with large fenestrae which helped to reduce skull weight, while narrow struts of bones preserved the structural integrity of the skul ...

See also:

Coelophysis, Coelophysis - Description, Coelophysis - Behavior, Coelophysis - Classification, Coelophysis - History of discovery, Coelophysis - Trivia

Read more here: » Coelophysis: Encyclopedia II - Coelophysis - Description

anterior: Encyclopedia II - Brodmann area 6 - Human

Brodmann area 6, or BA6, is part of the frontal cortex in the human brain. Situated just anterior to the primary motor cortex (BA4), it is sometimes called premotor cortex. The medial part of BA6 is also referred to as supplementary motor area. This large area of the frontal cortex is believed to play a role in the planning of complex, coordinated movements. Brodmann area 6 is also called agranular frontal area 6 in humans because it lacks in internal granular cortical layer (layer IV). It is a subdivision of the cytoarc ...

See also:

Brodmann area 6, Brodmann area 6 - Human, Brodmann area 6 - Guenon

Read more here: » Brodmann area 6: Encyclopedia II - Brodmann area 6 - Human

anterior: Encyclopedia II - Brodmann area 40 - The parietal operculum PO

Brodmann area 40 - Anatomy. This region, forming the superior bank of the sylvian fissure, as studied in the cat, contains the secondary somatosensory representation, 'S-II', and a second somatotopic representation (parietal ventral, or PV). Anatomically, primate S-II receives inputs from area 3 and area 1, and projects to PV and area 7. PV has projections to area 5 and premotor areas. Brodmann area 40 - Function. Single cell recording in primates show neurons with larger receptive fields than primary somatosensory cortex, responding to ...

See also:

Brodmann area 40, Brodmann area 40 - The parietal operculum PO, Brodmann area 40 - Anatomy, Brodmann area 40 - Function

Read more here: » Brodmann area 40: Encyclopedia II - Brodmann area 40 - The parietal operculum PO

anterior: Encyclopedia II - Brodmann area 25 - Human

Brodmann area 25 (BA25) is an area in the cerebral cortex of the brain and delineated based on its cytoarchitectonic characteristics. It is also called the subgenual area or area subgenualis. It is the 25th "Brodmann area" defined by Korbinian Brodmann (thus its name). BA25 is located in the cingulate region as part of the subcallosal area. One study has noted that BA25 is metabolically overactive in treatment-resistant depression and has found that chronic deep brain stimulation in the white matter adjacent to the area were a su ...

See also:

Brodmann area 25, Brodmann area 25 - Human, Brodmann area 25 - Guenon, Brodmann area 25 - External reference

Read more here: » Brodmann area 25: Encyclopedia II - Brodmann area 25 - Human

anterior: Encyclopedia II - Consonant harmony - Examples

There are several kinds of consonant harmony. One of the most commonly found, called sibilant harmony, requires all the sibilants of the word to belong either to the anterior class (s-like sounds) or the nonanterior class (sh-like sounds). Such patterns are found in Navajo, Kinyarwanda, and elsewhere. Various Austronesian languages exhibit consonant harmony among the liquid consonants, with [r] assimilating at a distance to [l] or vice versa. Likewise, in Sanskrit, [n] is retroflexed to [ṇ] if certain consonants pr ...

See also:

Consonant harmony, Consonant harmony - Examples

Read more here: » Consonant harmony: Encyclopedia II - Consonant harmony - Examples

anterior: Encyclopedia II - Deltoid muscle - Action

The anterior fibres are involved in shoulder abduction when the shoulder is externally rotated. The anterior deltoid is weak in strict transverse flexion but assists the pectoralis major during shoulder transverse flexion / shoulder flexion (elbow slightly inferior to shoulders). The posterior fibres are strongly involved in transverse extension particularly since the latissimus dorsi is very weak in strict transverse extension. The posterior deltoid is ...

See also:

Deltoid muscle, Deltoid muscle - Origin, Deltoid muscle - Insertion, Deltoid muscle - Innervation, Deltoid muscle - Action, Deltoid muscle - Structure

Read more here: » Deltoid muscle: Encyclopedia II - Deltoid muscle - Action

anterior: Encyclopedia II - Parietal lobe - Anatomy

The central sulcus separates the parietal lobe from the frontal lobe, and the parieto-occipital sulcus separates the parietal and occipital lobe. The parietal lobe can be subdivided into the superior parietal lobule and the inferior parietal lobule with the two separated by the intraparietal sulcus. The parietal operculum forms the superior wall of sylvian fissure. It includes Brodmann areas 3, 5, 7, 39 and 40. ...

See also:

Parietal lobe, Parietal lobe - Anatomy, Parietal lobe - Function, Parietal lobe - Pathology

Read more here: » Parietal lobe: Encyclopedia II - Parietal lobe - Anatomy

anterior: Encyclopedia II - Clitoris - Development and formation

The female clitoris corresponds to homologous parts of the male penis, i.e., embryologically it comes from the same tissue that forms the penis. The trigger for forming a penis instead of a clitoris is the action of testosterone in utero. The organ is formed out of corpus cavernosum, a rich collection of capillary tissue with a substantial presence of nerve tissue. It contains roughly the same number of nerve endings as the penis[1], and ...

See also:

Clitoris, Clitoris - Development and formation, Clitoris - Recognition of existence, Clitoris - Body modification, Clitoris - Popular culture

Read more here: » Clitoris: Encyclopedia II - Clitoris - Development and formation

anterior: Encyclopedia II - Digenea - Morphology

Digenea - Key features. Characteristic features of the digenea include a tegument. They possess a vermiform, unsegmented body-plan. There are typically 2 suckers, an anterior oral sucker surrounding the mouth, and a ventral sucker sometimes termed the acetabulum, on the ventral surface. Monostome is a term used to describe worms with one sucker (oral). Flukes with an oral sucker and an acetabulum at the posterior end of the body are called Amphistomes. Distomes are flukes with an oral sucker and a ventral sucker, but the ventral sucker if somewh ...

See also:

Digenea, Digenea - Morphology, Digenea - Key features, Digenea - Reproductive system, Digenea - Digestive system, Digenea - Nervous system, Digenea - Life cycles, Digenea - Human digenean infections, Digenea - Schistosomiasomes, Digenea - non-Schistosomiasomes, Digenea - Important publications

Read more here: » Digenea: Encyclopedia II - Digenea - Morphology

anterior: Encyclopedia II - Dextro-Transposition of the great arteries - Treatment

If the diagnosis is made in a standard hospital or other clinical facility, the baby will be transferred to a children's hospital, if such facilities are available, for specialized paediatric treatment and equipment. The patient will require constant monitoring and care in an intensive care unit (ICU). Dextro-Transposition of the great arteries - Palliative. Palliative treatment is normally administered prior to corrective surgery in order to reduce the symptoms of d-TGA (and any other complications), giving the newborn or infant a better ch ...

See also:

Dextro-Transposition of the great arteries, Dextro-Transposition of the great arteries - Overview, Dextro-Transposition of the great arteries - Description, Dextro-Transposition of the great arteries - Variations and similar defects, Dextro-Transposition of the great arteries - Symptoms and diagnoses, Dextro-Transposition of the great arteries - Prenatal d-TGA, Dextro-Transposition of the great arteries - Symptoms, Dextro-Transposition of the great arteries - Diagnosis, Dextro-Transposition of the great arteries - Prognosis, Dextro-Transposition of the great arteries - Treatment, Dextro-Transposition of the great arteries - Palliative, Dextro-Transposition of the great arteries - Corrective, Dextro-Transposition of the great arteries - Post-operative, Dextro-Transposition of the great arteries - Follow-up, Dextro-Transposition of the great arteries - Statistics

Read more here: » Dextro-Transposition of the great arteries: Encyclopedia II - Dextro-Transposition of the great arteries - Treatment

anterior: Encyclopedia II - Brodmann area 24 - Guenon

In the guenon this area is referred to as area 24 of Brodmann-1905. It includes portions of the cingulate gyrus and the frontal lobe. The cortex is thin; it lacks the internal granular layer (IV) so that the densely distributed, plump pyramidal cells of sublayer 3b of the external pyramidal layer (III) merge with similar cells of the internal pyramidal layer (V); the multiform layer (VI) is very thin (Brodmann-1905). Note that Brodmann later divided this area into two areas, area 24 of Brodmann-1909 an ...

See also:

Brodmann area 24, Brodmann area 24 - Human, Brodmann area 24 - Guenon

Read more here: » Brodmann area 24: Encyclopedia II - Brodmann area 24 - Guenon

anterior: Encyclopedia II - Brodmann area 23 - Subdivisions

The area has been subdivided further: In the macaque (Macaca fascicularis) the following subdivisions have been suggested1: 23i (internal) 23e (external) 23v (ventral), the most caudalventral (inferior) portion and with most highly developed layer IV. An other suggestion is for macaque (Macaca mulatta)2 23a, adjacent to the callosal sulcus thus closest to B ...

See also:

Brodmann area 23, Brodmann area 23 - Human, Brodmann area 23 - Guenon, Brodmann area 23 - Subdivisions

Read more here: » Brodmann area 23: Encyclopedia II - Brodmann area 23 - Subdivisions

anterior: Encyclopedia II - Bird - High-level taxonomy

Birds form a class, whose scientific name is Aves. The founding species of class Aves probably lived in the Jurassic period. According to the most recent consensus, Class Aves and a sister group, the family Crocodylidae, together form a group of unnamed rank, the Archosauria. The class of birds separated early into two superorders, the Paleognathae (mostly flightless birds like ostriches), and the wildly diverse Neognatha ...

See also:

Bird, Bird - High-level taxonomy, Bird - Bird orders, Bird - Evolution, Bird - Reproduction, Bird - Mating systems and parental care, Bird - Respiration, Bird - Other anatomy, Bird - Birds and humans, Bird - Trivia

Read more here: » Bird: Encyclopedia II - Bird - High-level taxonomy

anterior: Encyclopedia II - Primary auditory cortex - Function of primary auditory cortex

As with other primary sensory cortical areas, auditory sensations only reach perception if received and processed by a cortical area. Neurons in the auditory cortex are organised according to the frequency of sound to which they respond best. Neurons at one end of the auditory cortex respond best to low frequencies, neurons at the other respond best to high frequencies. There are multiple auditory areas (much like the multiple areas in the visual cortex) which can be distinguished anatomically and on the basis that they contain a comp ...

See also:

Primary auditory cortex, Primary auditory cortex - Function of primary auditory cortex, Primary auditory cortex - Brodmann area 41, Primary auditory cortex - Brodmann area 42

Read more here: » Primary auditory cortex: Encyclopedia II - Primary auditory cortex - Function of primary auditory cortex

anterior: Encyclopedia II - Dentures - Problems with Complete Dentures

Problems with dentures include the fact that patients are not used to having something in their mouth that is not food. The brain senses this appliance as "food" and sends messages to the salivary glands to produce more saliva and to secrete it at a higher rate. New dentures will also be the inevitable cause of sore spots as they rub and press on the mucosa. A few denture adjustments for the weeks following insertion of the dentures can take care of this issue. Another problem with dentures is keeping them in place. There are three rules governing the existence of removable oral applia ...

See also:

Dentures, Dentures - History, Dentures - Problems with Complete Dentures, Dentures - Support, Dentures - Stability, Dentures - Retention, Dentures - Conclusion, Dentures - Mini implants

Read more here: » Dentures: Encyclopedia II - Dentures - Problems with Complete Dentures

anterior: Encyclopedia II - Termite - Social Structure and Behaviour

As social insects, termites live in colonies that number from several hundred to several million individuals at maturity. They are a prime example of decentralised, self-organised systems using swarm intelligence and use this cooperation to exploit food sources and environments that could not be available to any single insect acting alone. A typical colony contains workers, soldiers, and reproductive individuals of both sexes, often containing several egg-laying quee ...

See also:

Termite, Termite - Appearance and Morphology, Termite - Social Structure and Behaviour, Termite - Queen and King, Termite - Workers, Termite - Soldiers, Termite - Hiding, Termite - Diet, Termite - Mounds, Termite - Human interaction, Termite - Fighting termites, Termite - Ecology, Termite - Relationships and Evolutionary History

Read more here: » Termite: Encyclopedia II - Termite - Social Structure and Behaviour

anterior: Encyclopedia II - Brodmann area 11 - Human

Brodmann area 11, or BA11, is part of the frontal cortex in the human brain. BA11 covers the medial part of the ventral surface of the frontal lobe. Prefrontal area 11 of Brodmann-1909 is a subdivision of the frontal lobe in the human defined on the basis of cytoarchitecture. Defined and illustrated in Brodmann-1909, it included the areas subsequently illustrated in Brodmann-10 ...

See also:

Brodmann area 11, Brodmann area 11 - Human, Brodmann area 11 - Guenon

Read more here: » Brodmann area 11: Encyclopedia II - Brodmann area 11 - Human

anterior: Encyclopedia II - Brodmann area 18 - Human

Brodmann area 18, or BA18, is part of the occipital cortex in the human brain. It accounts for the bulk of the volume of the occipital lobe. This area is also known as parastriate area 18. It is a subdivision of the cytoarchitecturally defined occipital region of cerebral cortex. In the human it is located in parts of the cuneus, the lingual gyrus and the lateral occipital gyrus (H) of the occipital lobe. Cytoarchitecturally it is bounded on one side by the striate area 17, from which it is distinguished by absence of a band of Gennari, and on the other b ...

See also:

Brodmann area 18, Brodmann area 18 - Human, Brodmann area 18 - Guenon

Read more here: » Brodmann area 18: Encyclopedia II - Brodmann area 18 - Human

anterior: Encyclopedia II - Brodmann area 22 - Human

Brodmann area 22 is a region of the human brain (the 22nd numbered Brodmann area). On the left side of the brain this area helps with generation and understanding of individual words. On the right side of the brain it helps tell the difference between melody, pitch, and sound intensity. Researchers believe this part of the brain is active in processing language. This area is also known as superior temporal area 22, and it refers to a subdivision of the cytoarchitecturally defined temporal region of cerebral cortex. In th ...

See also:

Brodmann area 22, Brodmann area 22 - Human, Brodmann area 22 - Guenon

Read more here: » Brodmann area 22: Encyclopedia II - Brodmann area 22 - Human

anterior: Encyclopedia II - Brodmann area 21 - Human

Brodmann area 21, or BA21, is part of the temporal cortex in the human brain. The region encompasses most of the lateral temporal cortex, a region believed to play a part in auditory processing and language. Language function is left lateralized in most individuals. BA21 is superior to BA20 and inferior to BA40 and BA41. This area is also known as middle temporal area 21. It is a subdivision of the cytoarchitecturally defined temporal region of cerebral cortex. In the human it corresponds approximately to the middle temp ...

See also:

Brodmann area 21, Brodmann area 21 - Human, Brodmann area 21 - Guenon

Read more here: » Brodmann area 21: Encyclopedia II - Brodmann area 21 - Human

anterior: Encyclopedia II - Brodmann area 20 - Human

Brodmann area 20, or BA20, is part of the temporal cortex in the human brain. The region encompasses most of the ventral temporal cortex, a region believed to play a part in high-level visual processing and recognition memory. This area is also known as inferior temporal area 20, and it refers to a subdivision of the cytoarchitecturally defined temporal region of cerebral cortex. In the human it corresponds approximately to the inferior temporal gyrus. Cytoarchitecturally it is bounded medially by the ectorhinal area 36 ...

See also:

Brodmann area 20, Brodmann area 20 - Human, Brodmann area 20 - Guenon

Read more here: » Brodmann area 20: Encyclopedia II - Brodmann area 20 - Human

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