EurekaMag
+ Translate
+ Most Popular
Advantages and disadvantages of bordeaux mixture and of lime-sulphur used on apples in the growing season
Observations on the Umaria marine bed
10 years of hearing conservation in the Royal Air Force
Chocolate crumb - dairy ingredient for milk chocolate
Effect of daily gelatin ingestion on human scalp hair
Comparison of rice bran and maize bran as feeds for growing and fattening pigs
The composition of pampas-grass (Cortaderia argentea.)
The Accraian Series:
The mechanism of the Liebermann-Burchard reaction of sterols and triterpenes and their esters
Cerebrovascular Doppler ultrasound studies (cv-Doppler)
Toria: PT-303 - first national variety
Hair growth promoting activity of tridax procumbens
Productivity of Pekin x Khaki Campbell ducks
A stable cytosolic expression of VH antibody fragment directed against PVY NIa protein in transgenic potato plant confers partial protection against the virus
Solar treatment of wheat loose smut
Swimmers itch in the Lake of Garda
Bactofugation and the Bactotherm process
The effects of prefrontal lobotomy on aggressive behavior in dogs
Visual rating scales for screening whorl-stage corn for resistance to fall armyworm
Breakdown of seamounts at the trench axis, viewed from gravity anomaly
Kooken; pennsylvania's toughest cave
Recovery of new dinosaur and other fossils from the Early Cretaceous Arundel Clay facies (Potomac Group) of central Maryland, U.S.A
Zubor horny (Bison bonasus) v prirodnych podmienkach Slovensku
The extended Widal test in the diagnosis of fevers due to Salmonella infection
Hair of the american mastodon indicates an adaptation to a semi aquatic habitat

Individual variability of the volume of the amygdaloid body in the human brain


Individual variability of the volume of the amygdaloid body in the human brain



Zhurnal Nevropatologii i Psikhiatrii Imeni S.S. Korsakova 84(7): 966-969



ISSN/ISBN: 0044-4588

PMID: 6475417

Measuring the almond nucleus (with the cytoarchitectonic control of its boundaries) on the serial sections of 14 adults of both sexes and different ages (18 cerebral hemispheres), the authors revealed considerable individual spatial differences in its size. In its extremes these differences may be two-fold. As these individual differences in the almond nucleus (AN) were independent of the brain weight of the subjects examined, it is suggested that these differences are determined by the variable functional specificity of the AN in different people.

Please choose payment method:






(PDF emailed within 1 workday: $29.90)

Accession: 043383409

Download citation: RISBibTeXText

Related references

Individual variability in the volume of the corpus amygdaloideum of the human brain. Zhurnal Nevropatologii i Psikhiatrii Imeni S S Korsakova 84(7): 966-969, 1984

Morphologic Study of Superior Temporal Sulcus-Amygdaloid Body and Lateral Fissure-Amygdaloid Body Surgical Approach by Using Magnetic Resonance Imaging Volume Rendering. Journal of Craniofacial Surgery 27(1): 177-180, 2016

Individual variability in relationship of human ketosteroid excretion to urine volume. Proceedings of the Society for Experimental Biology and Medicine. Society for Experimental Biology and Medicine 104: 84-86, 1960

Individual variability in human response to whole body vibration. Ergonomics 19(6): 719-726, 1976

The cytoarchitectonic characteristics of the speech center of the brain in gifted people in the plan to study individual variability of human brain structure. Morfologiia 106(4-6): 31-38, 1994

Features of the architectonics of motor speech fields of the brain of gifted people in relation to the study of the individual variability of the structure of the human brain. Neuroscience and Behavioral Physiology 26(2): 189-193, 1996

The problem of the individual variability of the human brain. Vestnik Rossiiskoi Akademii Meditsinskikh Nauk 1994(1): 34-36, 1994

Individual variability of the human brain (putamen). Arkhiv Anatomii Gistologii i Embriologii 84(1): 21-24, 1983

The problem of individual variability in human brain structure. Vestnik Rossiiskoi Akademii Meditsinskikh Nauk 1994(1): 34-36, 1994

Morphological criteria of the individual variability of the human brain. Arkhiv Anatomii Gistologii i Embriologii 83(8): 5-9, 1982

Structural bases of individual variability in the human brain. Vestnik Rossiiskoi Akademii Meditsinskikh Nauk 2002(6): 31-35, 2002

Volume and topographical changes of the basolateral complex during the development of the rat's amygdaloid body. Folia Morphologica 56(1): 1-11, 1997

Investigations into inter-individual variability in the control of body composition in rodents and human. International Journal of Obesity 18(Suppl. 2): 5, 1994

Individual Variability of the System-Level Organization of the Human Brain. Cerebral Cortex 27(1): 386-399, 2017

Brain oscillations and individual variability of cardiac defense in human. Rossiiskii Fiziologicheskii Zhurnal Imeni I.M. Sechenova 99(11): 1342-1356, 2013