Comparison of neuronal and glial numerical density in primary and secondary visual cortex of man

SummaryThe numerical density of neurons and glial cells was estimated in visual area 18 of the adult human cerebral cortex and compared with that of area 17. Blocks of areas 17 and 18 came from the same brains and this allowed the comparison of 1) neuronal and glial numerical densities through the whole cortical depth with calculation of the neuron/glia ratio, 2) neuronal and glial numbers under one square millimeter of cortical surface, and 3) neuronal numerical densities in three groups of identified layers. The mean neuronal density is approximately 40000 neurons/mm3 in area 17 and 31500/m3 in area 18. The mean glial density is around 27000/mm3 in area 17 and 32000/mm3 in area 18. This gives a neuron/glia ratio of approximately 1.5 in area 17 and of 1.0 in area 18, but the total cellular density is similar in both areas. There are about 90000 neurons and 64000 glial cells under one square millimeter of cortical surface in area 17, and some 73000 neurons and 74000 glial cells in area 18. The higher neuronal density in area 17 is found through the whole depth of cortex and does not seem to be more pronounced in layer IVc of area 17 compared to layer IV in area 18 than in the groups of layers II–III and V–VI.

[1]  Arnold B. Scheibel,et al.  On the brain of a scientist: Albert Einstein , 1985, Experimental Neurology.

[2]  A. Spurr A low-viscosity epoxy resin embedding medium for electron microscopy. , 1969, Journal of ultrastructure research.

[3]  N. H. Bass,et al.  Quantitative cytoarchitectonic distribution of neurons, glia, and DNA in rat cerebral cortex , 1971, The Journal of comparative neurology.

[4]  David Krech,et al.  Increases in cortical depth and glia numbers in rats subjected to enriched environment , 1966, The Journal of comparative neurology.

[5]  G. Leuba,et al.  A quantitative study of neuronal and glial numerical density in the visual cortex of the bottlenose dolphin: Evidence for a specialized subarea and changes with age , 1986, The Journal of comparative neurology.

[6]  K. Devaney,et al.  Neuron loss in the aging visual cortex of man. , 1980, Journal of gerontology.

[7]  H. Haug,et al.  The significance of morphometric procedures in the investigation of age changes in cytoarchitectonic structures of human brain. , 1984, Journal fur Hirnforschung.

[8]  T. Powell,et al.  The intrinsic, association and commissural connections of area 17 on the visual cortex. , 1975, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[9]  T. P. S. Powell,et al.  Similarity in number of neurons through the depth of the cortex in the binocular and monocular parts of area 17 of the monkey , 1981, Brain Research.

[10]  D. Sholl A comparative study of the neuronal packing density in the cerebral cortex. , 1959, Journal of anatomy.

[11]  C. P. Leblond,et al.  Response of the three main types of glial cells of cortex nad corpus callosum in rats handled during suckling or exposed to enriched, control and impoverished environments following weaning , 1977, The Journal of comparative neurology.

[12]  Reinhard L. Friede,et al.  DER QUANTITATIVE ANTEIL DER GLIA AN DER CORTEXENTWICKLUNG , 1954 .

[13]  G. Leuba,et al.  NEURONAL DEATH IN THE DEVELOPMENT AND AGING OF THE CEREBRAL CORTEX OF THE MOUSE , 1981, Neuropathology and applied neurobiology.

[14]  G. Leuba,et al.  Sample size and statistical power in the hierarchical analysis of variance: applications in morphometry of the nervous system , 1989, Journal of Neuroscience Methods.

[15]  A. Huitson,et al.  Applied Statistics: Analysis of Variance and Regression , 1976 .

[16]  S Sunderland,et al.  Structural changes in the isolated visual cortex. , 1939, Journal of anatomy.

[17]  M. Abercrombie Estimation of nuclear population from microtome sections , 1946, The Anatomical record.

[18]  E. G. Jones,et al.  Numbers and proportions of GABA-immunoreactive neurons in different areas of monkey cerebral cortex , 1987, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[19]  G. Leuba,et al.  Evolution of neuronal numerical density in the developing and aging human visual cortex. , 1987, Human neurobiology.

[20]  R. Bartus,et al.  Localization of cellular changes within multimodal sensory regions in aged monkey brain: Possible implications for age-related cognitive loss , 1980, Neurobiology of Aging.

[21]  T. Powell,et al.  The basic uniformity in structure of the neocortex. , 1980, Brain : a journal of neurology.

[22]  A. Cowey,et al.  Sensory and non-sensory visual disorders in man and monkey. , 1982, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[23]  Sholl Da A comparative study of the neuronal packing density in the cerebral cortex. , 1959 .

[24]  J. Szentágothai,et al.  Ten billion neurons in the human cerebral cortex. , 1982, Folia morphologica.

[25]  B. Cragg The density of synapses and neurones in the motor and visual areas of the cerebral cortex. , 1967, Journal of anatomy.

[26]  J. Olszewski,et al.  Glia/nerve cell index for cortex of the whale. , 1957, Science.