Brain shrinkage in chronic alcoholics: a pathological study.

A quantitative neuropathological necropsy study of 22 control and 22 chronic alcoholic subjects showed a statistically significant loss of brain tissue in the chronic alcoholic group. The loss of tissue appeared to be from the white matter of the cerebral hemispheres rather than the cerebral cortex. This may reflect a primary alteration in the composition or structure of the white matter or it may be secondary to loss of nerve cells from the cortex with subsequent degeneration of the axons in the white matter. Further morphometric analyses including cortical neuronal counts will be necessary to clarify this issue.     

Endocranial volumes of early African hominids, and the role of the brain in human mosaic evolution

Volumetric data are presented for 16 of the early hominids from both South and East Africa. Although the sample sizes are small, the statistical data support the conclusion that at least three taxa are represented; Australopithecus africanus, A. robustus, and Homo habilis. These data, plus certain morphological attributes, indicate that the brains of early hominids were reorganized to a human pattern, regardless of their small endocranial capacities. Some speculative suggestions are made regarding the possible relationship between brain and body weights, as well as Stephan's (1972) “progression indices”. If the speculations are correct, they provide additional support for the idea that brain reorganization occurred early in human evolution, and that concepts which regard the brain as having a more terminal role in human mosaic evolution are incorrect, as all of the fossil encephalization or “progression indices” are in the range of modern Homo sapiens.     

Anatomical brain asymmetries in New World and Old World monkeys: stages of temporal lobe development in primate evolution

Relatively large (n = 20-30) samples of formalin-fixed brain specimens from five Old and New World monkey species were examined in a study measuring anatomical temporal-lobe asymmetries. Linear measurements of the length of the Sylvian fissure were taken on each cerebral hemisphere to evaluate lateral differences related to development of auditory association cortex. The results indicate significantly greater Sylvian fissure length on the left hemisphere than on the right hemisphere in four of these species. Measurements of a different parameter on Saimiri sciureus brain specimens (length of anterior portion of the Sylvian fissure) also suggested temporal-lobe asymmetry favoring the left hemisphere. Other measurements (length of the Sylvian fissure lying posterior to the central sulcus, and dorso-ventral position of the Sylvian point) in Macaca mulatta and M. fascicularis did not reveal significant right/left-hemisphere differences. Sylvian-fissure length determined from photographs of M. mulatta hemispheres in contrast to results of direct measurements did not yield significant right/left-hemisphere asymmetry. We mention possible reasons why previous anatomical studies of brains from monkeys did not discern temporal-lobe asymmetry, and we also discuss whether or not certain of these asymmetries in monkeys foreshadowed the evolution of language-processing areas of the cerebral cortex in hominids.