Abstract
IN the course of an investigation intended to relate the size of the myelinated motor nerve fibres to the speed of the muscles in Choloepus hoffmanni Pet.1, in which the whole musculature is ‘red’ in character, we were struck by the unusual arrangement of the spinal roots. It is generally assumed that the backward obliquity of the spinal roots in adult mammals is due to a differential rate of growth of the spinal cord and of the vertebral column. In man, this obliquity increases from the second cervical root to the filum terminale. In cat, dog and sheep, the obliquity of the D13–L2 roots is reduced, but more caudally the roots resume their strong backward direction. In the ox, a similar alteration in the course of the spinal roots leads to a situation where the tenth and eleventh dorsal roots are at right angles to the spinal cord. In the horse, which has 18 dorsal vertebrae, the oblique run of the spinal roots starts from D2 decreases from D11 to D17 and then increases again2.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Goffart, M., and Gerebtzoff, M. A., J. Physiol. (Paris), 56, 563 (1964).
Tigges, J., Handbuch der Zoologie, 8, Teil 7, 31 (1964).
Grassé, P. P., Traité de Zoologie, 17, Fasc. 2, 1195 (1955).
Hochstetter, F., Morphol. Jahrb., 25, 362 (1897).
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
GOFFART, M., GEREBTZOFF, M. Spinal Roots in the Sloth. Nature 206, 1062–1063 (1965). https://doi.org/10.1038/2061062a0
Issue Date:
DOI: https://doi.org/10.1038/2061062a0
- Springer Nature Limited