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European Spine Journal
Published in: European Spine Journal 6/2003

01-12-2003 | Original Article

Calcitonin gene-related peptide immunoreactive neurons with dichotomizing axons projecting to the lumbar muscle and knee in rats

Authors: Seiji Ohtori, Kazuhisa Takahashi, Tanemichi Chiba, Masatsune Yamagata, Hiroaki Sameda, Hideshige Moriya

Published in: European Spine Journal | Issue 6/2003

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Abstract

Dorsal root ganglion (DRG) neurons with dichotomizing axons have been reported in several species and are thought to be related to referred pain. However, these neurons, which have dichotomizing axons to the lumbar muscles and to the knee, have not been investigated. Clinically, pain from the lumbar muscles is sometimes referred to the lower extremities. Two kinds of neurotracers [1,1′-dioctadecyl-3,3,3′,3′-tetramethyl-indocarbocyanine perchlorate (DiI) and fluoro-gold (FG)] were used in the present double-labelling study. DiI crystals were placed in the left lower back muscle, and FG was applied to the medial side of the knee. Bilateral DRGs from L1 through L6 were immunoreacted with calcitonin gene-related peptide (CGRP) antibodies and observed under a fluorescence microscope. DRG neurons double-labelled with DiI and FG were recognized only in the ipsilateral DRGs from levels L1 to L6. Approximately 1% of DRG neurons innervating the low back muscles had other axons to the medial side of the knee. In double-labelled neurons, the ratio of CGRP-immunoreactive DRG neurons was 60%. This finding provides a possible neuroanatomical explanation for referred knee pain from the lower back since CGRP is a marker of sensory neurons typically involved with pain perception. However, these neurons are rare, and mechanisms of referred pain may be explained by the convergence–projection hypothesis.
Literature
1.
Alles A, Dom RM (1985) Peripheral sensory nerve fibers that dichotomize to supply the brachium and the pericardium in the rat: a possible morphological explanation for referred cardiac pain? Brain Res 342:382–385CrossRefPubMed
2.
Ashton IK, Ashton BA, Gibson SJ, Polak JM, Jaffray DC, Eisenstein SM (1992) Morphological basis for back pain: the demonstration of nerve fibers and neuropeptides in the lumbar facet joint capsule but not in ligamentum flavum. J Orthop Res 10:72–78PubMed
3.
Ashton IK, Roberts S, Jaffray DC, Polak M, Eisenstein SM (1994) Neuropeptides in the human intervertebral disc. J Orthop Res 12:186–192PubMed
4.
Beaman DN, Graziano GP, Glover RA, Wojtys EM, Chang V (1993) Substance P innervation of lumbar spine facet joints. Spine 18:1044–1049PubMed
5.
Fairbank JC, Park WM, McCall IW, O’Brien JP (1981) Apophyseal injection of local anesthetic as a diagnostic aid in primary low-back pain syndromes. Spine 6:598–605PubMed
6.
Feinstein B, Langton JNK, Jameson RM, et al (1954) Experiments pain referred from deep somatic tissues. J Bone Joint Surg 36-A:981–997
7.
Graven-Nielsen T, Babenko V, Svensson P, Jensen TS (1998) Experimentally induced muscle pain induces hypoalgesia in heterotopic deep tissues, but not in homotopic deep tissues. Brain Res 787:203–210PubMed
8.
Graven-Nielsen T, Babenko V, Svensson P, Arendt-Nielsen L (1998) Experimentally induced muscle pain induces hypoalgesia in heterotopic deep tissues, but not in homotopic deep tissues. Brain Res 787:203–210PubMed
9.
Greene EC, (1963) Anatomy of the rat. Hafner, New York
10.
Habler HJ, Janig W, Koltzenburg M (1988) Dichotomizing unmyelinated afferents supplying pelvic viscera and perineum are rare in the sacral segments of the cat. Neurosci Lett 94:119–124PubMed
11.
Hökfelt T (1991) Neuropeptides in perspective: the last ten years. Neuron 7:867–879PubMed
12.
Jensen K, Tuxen C, Pedersen-Bjergaard U, Jansen I, Edvinsson L, Olesen J (1990) Pain and tenderness in human temporal muscle induced by bradykinin and 5-hydroxytryptamine. Peptides 11:1127–1132CrossRefPubMed
13.
Kellgren JH (1938) Observation on referred pain arising from muscle. Clin Sci 3:175–190
14.
Kellgren JH (1939) On the distribution of pain arising from deep somatic structures with charts of segmental pain areas. Clin Sci 4:35–46
15.
Laursen RJ, Graven-Nielsen T, Jensen TS, Arendt-Nilsen L (1997) Quantification of local and referred pain in humans induced by intramuscular electrical stimulation. Eur J Pain 1:105–113
16.
Lee Y, Takami K, Kawai Y, Girgis S, Hillyard CJ, MacIntyre I, Emson PC, Tohyama M (1985) Distribution of calcitonin gene-related peptide in the rat peripheral nervous system with reference to its coexistence with substance P. Neurosci 15:1227–1237CrossRef
17.
Lippitt AB (1984) The facet joint and its role in spine pain: Management with facet joint injections. Spine 9:746–750PubMed
18.
McCarthy PW, Lawson SN (1990) Cell type and conduction velocity of rat primary sensory neurons with calcitonin gene-related peptide-like immunoreactivity. Neuroscience 34:623–632PubMed
19.
Mooney V, Robertson J (1976) The facet syndrome. Clin Orthop Res 149–156
20.
Ohtori S, Takahashi K, Chiba T, Yamagata M, Sameda H, Moriya H (2000) Substance P and calcitonin gene-related peptide immunoreactive sensory DRG neurons innervating the lumbar facet joints in rats. Auton Neurosci Basic Clin 86:13–17CrossRef
21.
Ohtori S, Takahashi K, Chiba T, Yamagata M, Sameda H, Moriya H (2001) Sensory innervation of the dorsal portion of the lumbar intervertebral discs in rats. Spine 26:946–950CrossRefPubMed
22.
Ohtori S, Takahashi K, Chiba T, Yamagata M, Sameda H, Moriya H (2000) Sensory innervation of the cervical facet joints in rats. Spine 26:147–150
23.
Ohtori S, Takahashi K, Chiba T, Yamagata M, Sameda H, Moriya H (2000) Substance P and calcitonin gene-related peptide immunoreactive sensory DRG neurons innervating the lumbar intervertebral discs in rats. Ann Anat 184:235-240
24.
Pierau FK, Taylor DC, Abel W, Friedrich B (1982) Dichotomizing peripheral fibers revealed by intracellular recording from rat sensory neurones. Neurosci Lett 31:123–128CrossRefPubMed
25.
Pierau FK, Fellmer G, Taylor DCM (1984) Somato-visceral convergence in cat dorsal root ganglion neurones demonstrated by double-labelling with fluorescent tracers. Brain Res 321:63–70CrossRefPubMed
26.
Ruch TC (1946) Visceral sensation and referred pain. In: Fulton JF (ed) Howell’s textbook of physiology, 15th edn. Saunders, Philadelphia, pp 385–401
27.
Rucker HK, Holloway JA (1982) Viscerosomatic convergence onto spinothalamic tract neurons in the cat. Brain Res 243:155–157CrossRefPubMed
28.
Sameda H, Takahashi Y, Takahashi K, Chiba T, Ohtori S, Moriya H (2001) Primary sensory neurons with dichotomizing axons projecting to the facet joint and the sciatic nerve in rats. Spine 26:1105–1109CrossRefPubMed
29.
Schmid H, Taylor DCM, Pierau FK (1983) Tracing of sensory neurones and spinal motoneurones of the pigeon by injection of fluorescent dyes into peripheral nerves. Cell Tissue Res 232:9–19PubMed
30.
Selzer M, Spencer WA (1969) Convergence of visceral and cutaneous afferent pathways in the lumbar spinal cord. Brain Res 14:331–348CrossRefPubMed
31.
Simone DA, Marchettini P, Caputi G, Ochoa JL (1994) Identification of muscle afferents subserving sensation of deep pain in humans. J Neurophysiol 72:883–889PubMed
32.
Sinclair DC, Weddell G, Feindel WH (1948) Referred pain and associated phenomena. Brain 71:184–211
33.
Suseki K, Takahashi Y, Takahashi K, Chiba T, Tanaka K, Morinaga T, Nakamura S, Moriya H (1997) Innervation of the lumbar facet joints. Spine 22:477–485PubMed
34.
Taylor DCM, Pierau,FK (1982) Double fluorescence labelling supports electrophysiological evidence for dichotomizing peripheral sensory nerve fibers in rats. Neurosci Lett 33:1–6CrossRefPubMed
35.
Taylor DCM, Pierau,FK, Schmid H (1983) The use of fluorescent tracers in the peripheral sensory nervous system. J Neurosci Methods 8:211–224CrossRefPubMed
36.
Wiberg G (1949) Back pain in relation to the nerve supply of the intervertebral disc. Acta Orthop Scand 19:211–221
Metadata
Title
Calcitonin gene-related peptide immunoreactive neurons with dichotomizing axons projecting to the lumbar muscle and knee in rats
Authors
Seiji Ohtori
Kazuhisa Takahashi
Tanemichi Chiba
Masatsune Yamagata
Hiroaki Sameda
Hideshige Moriya
Publication date
01-12-2003
Publisher
Springer-Verlag
Published in
European Spine Journal / Issue 6/2003
Print ISSN: 0940-6719
Electronic ISSN: 1432-0932
DOI
https://doi.org/10.1007/s00586-003-0573-4

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