![]() ![]() Heppelmann, B., Heuss, C., and Schmidt, R. Halata, Z., Rettig, T., and Schulze, W., 1985, The ultrastructure of sensory nerve endings in the human knee joint capsule, Anat. A., Dee, R., and Propper, M., 1984, Ultrastructure of sensory nerve endings in monkey ( Macaca fascicularis) knee joint capsule, J. L., 1980, The ultrastructure of Ruffini and Herbst corpuscles in the articular capsule of domestic pigeon, Anat. Halata, Z., 1977, The ultrastructure of the sensory nerve endings in the articular capsule of the knee joint of the domestic cat (Ruffini corpuscles and Pacinian corpuscles), J. Halata, Z., 1975, The mechanoreceptors of the mammalian skin, ultrastructure and morphological classification, Adv. F., 1986, Mechanical sensitivity of Group III and IV afferents from posterior articular nerve in normal and inflamed cat knee, J. Grigg, P., Schaible, H.-G., and Schmidt, R. Gardner, E., 1944, The distribution and termination of nerves in the knee joint of the cat, J. R., and Wyke, B., 1967, The innervation of the knee joint: An anatomical and histological study in the cat, J. ![]() E., 1967, The histological fine structure of perineurium, Anat. S., 1971, “An Atlas of the Ultrastructure of Human Skin.” J. Embryol., 172:145–156īauer, R., 1987, High-resolution imaging of thick biological specimens with an imaging Electron Energy Loss Spectrometer, Zeiss Information MEM, 5:10–15īreathnach, A. F., 1985b, Sensory innervation of the Achilles tendon by group III and IV afferent fibres, Anat. F., 1985a, Degeneration pattern of postganglionic fibers following sympathectomy, Anat. H., von Düring, M., Jänig, W., and Schmidt, R. Forssmann, eds., Springer Berlin, Heidelberg, New York: 100–108Īndres, K. H., and von Düring, M., 1981, General methods for characterization of brain regions in: “Techniques in Neuroanatomical Research,” Ch. Iggo, ed., Springer Berlin, Heidelberg, New York: 3–28Īndres, K. H., and von Düring, M., 1973, Morphology of cutaneous receptors in: “Handbook of Sensory Physiology Vol. H., 1969, Zur Ultrastruktur verschiedener Mechanorezeptoren von höheren Wirbeltieren, Anat. This process is experimental and the keywords may be updated as the learning algorithm improves.Īndres, K. These keywords were added by machine and not by the authors. This is why we have studied the ultrastructure of “free nerve endings” and fine afferent nerve fibers in the normal knee joint capsule of the cat by serial sectioning and with three-dimensional reconstruction of nerve fibers for up to 300 µm length. But in comparison with neurophysiological knowledge, little is known about the morphological characteristics of articular “free nerve endings”. The noxious stimuli causing pain are presumably perceived via “free nerve endings”, i.e., non-corpuscular endings of thinly myelinated fine afferent nerve fibers (group III or A ∂-fibers) and of non-myelinated fine afferent group IV or C-fibers (Schaible and Schmidt, 1983a, b, 1985 Grigg et al., 1986). In recent years the normal and artificially inflamed knee joint of the cat has become an important model for neurophysiological studies on arthritic pain. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |