Morphometric comparison between human and rat abducens and oculomotor nerves

• Published in: Acta anatomica Vol. 138; no. 1; p. 24
• Main Authors: Bardosi, A, Shallo, J, Schäfer, C, Mühlendyck, H
• Format: Journal Article
• Language: English
• Published: Switzerland 1990
• Subjects: Abducens Nerve - anatomy & histology; Adult; Animals; Humans; Nerve Fibers - ultrastructure; Nerve Fibers, Myelinated - ultrastructure; Oculomotor Nerve - anatomy & histology; Rats - anatomy & histology; Rats, Inbred Strains; Sural Nerve - anatomy & histology; Sural Nerve - ultrastructure
• ISSN: 0001-5180

A morphologic and morphometric comparison between normal human and rat extraocular muscle nerves was performed using a computer-assisted method to obtain scatter diagrams of relative sheath thickness (g ratio = quotient axon diameter/fiber diameter). Human and rat extraocular muscle nerves (nervus abducens and ramus medialis n. oculomotorii) were excised immediately before the nerve branching at the entering point into the muscle. There was no difference in the absolute number of myelinated fibers between the oculomotor and abducens nerves in both species. The distribution of myelinated fibers was classified according to their g ratios into a two-stage density cluster analysis. Two main populations of nerve fibers for human oculomotor and rat oculomotor and abducens nerves and three main populations for human abducens nerve were differentiated morphometrically and mathematically, differing in their relative sheath thicknesses. There are distinct differences between scatter diagrams of human and rat extraocular muscle nerves, in correlation with the basically different oculomotor functions of these two species. The morphometric differences between human and rat extraocular muscle nerves suggest a difference in the myelination process and the presence of functionally different nerve fibers, strongly indicated by the populations and subpopulations of myelinating nerve fibers peculiar to extraocular muscle. The existence of more than two different types of myelinated fibers in the human nerves implies that the traditional classification based on fiber caliber must be reviewed and a comparison of different classes of nerve and muscle fibers should be performed.