Accès gratuit
Numéro
Med Sci (Paris)
Volume 17, Numéro 12, Décembre 2001
Page(s) 1276 - 1280
Section Articles de Synthèse
DOI http://dx.doi.org/10.1051/medsci/200117121276
Publié en ligne 15 décembre 2001
  1. Calvo W, Forteza-Vila J. On the development of bone marrow innervation in newborn rats as studied with silver impregnation and electron microscopy. Am J Anat 1969; 126 : 355–72.
  2. Ducan CP, Shim S. The autonomic nerve supply of bone. J Bone Joint Surg 1977; 59-B : 323–30.
  3. Hill EL, Elde R. Distribution of CGRP-, VIP-, DβH-, SP-, and NPY-immunoreactive nerves in the periosteum of the rat. Cell Tissue Res 1991; 264 : 469–80.
  4. Hohmann EL, Elde R, Rysavy J, Einzig S, Gebhard R. Innervation of periosteum and bone by sympathetic vasoactive intestinal peptide-containing nerve fibers. Science 1986; 232 : 869–71.
  5. Serre CM, Farlay D, Delmas PD, Chenu C. Evidence for a dense and intimate innervation of the bone tissue, including glutamatecontaining fibers. Bone 1999; 25 : 623–9.
  6. Edoff K, Hellman J, Persliden J, Hildebrand C. The developmental skeletal growth in the rat foot is reduced after denervation. Anat Embryol 1997; 195 : 531–8.
  7. Sisask G, Bjurholm A, Ahmed M, Kreicbergs A. Ontogeny of sensory nerves in the developing skeleton. Anat Rec 1995; 243: 234–40.
  8. Lerner UH. Kinins and neuropeptides. In : Bilezikian JP, Raisz LG, Rodan GA, eds. Principles of bone biology. New York : Academic Press, 1996 : 581–96.
  9. Konttinen Y, Imai S, Suda A. Neuropeptides and the puzzle of bone remodeling. Acta Orthop Scand 1996; 67 ; 632–9.
  10. Bjurholm A, Kreicbergs A, Schultzberg M, Lerner UH. Neuroendocrine regulation of cyclic AMP formation in osteoblastic cell lines (UMR-106–01, ROS 17/2.8, MC3T3-E1, and SAOS-2) and primary bone cells. J Bone Miner Res 1992; 7 : 1011–9.
  11. Goto T, Yamaza T, Kido MA, Tanaka T. Light- and electron-microscopic study of the distribution of axons containing substance P and the localization of neurokinin-1 receptor in bone. Cell Tissue Res 1998; 293 : 87–93.
  12. Yasoda A, Ogawa Y, Suda M, et al. Natriuretic peptide regulation of endochondral ossification. J Biol Chem 1998; 273 : 11695–700.
  13. Chenu C, Serre CM, Raynal C, Burt-Pichat B, Delmas PD. Glutamate receptors are expressed by bone cells and are involved in bone resorption. Bone 1998; 22 : 295–9.
  14. Hara-Hirie F, Amizuka N, Ozawa H. Immunohistochemical and ultrastructural localization of CGRP-positive nerve fibers at the epiphyseal trabecules facing the growth plate of rat femurs. Bone 1996; 18 : 29–39.
  15. Hill EL, Turner R, Elde R. Effects of neonatal sympathectomy and capsaicin treatment on bone remodeling in rats. Neuroscience 1991; 44 : 747–55.
  16. Cherruau M, Facchinetti P, Baroukh B, Saffar JL. Chemical sympathectomy impairs bone resorption in rats : a role for the sympathic system on bone metabolism. Bone 1999; 25 : 545–51.
  17. Sherman BE, Chole RA. Sympathectomy, which induces membranous bone remodeling, has no effect on endochondral long bone remodeling in vivo. J Bone Miner Res 2000; 15 : 1354–60.
  18. Hukkanen M, Konttinen YT, Santavirta S, et al. Rapid proliferation of calcitonin gene-related peptide-immunoreactive nerves during healing of rat tibial fracture suggests neural involvement in bone growth and remodelling. Neuroscience 1993; 54 : 969–79.
  19. Fukumoto M, Ushida T, Zinchuk VS, Yamamoto H, Yoshida S. Contralateral thalamic perfusion in patients with reflex sympathetic dystrophy syndrome. Lancet 1999; 354 : 1790–1.
  20. Honore P, Luger NM, Sabino MC, et al. Osteoprotegerin blocks bone cancer-induced skeletal pain and pain-related neurochemical reorganization of the spinal cord. Nat Med 2000; 6 : 521–8.
  21. Ducy P, Amling M, Takeda S, et al. Leptin inhibits bone formation through a hypothalamic relay : a central control of bone mass. Cell 2000; 100 : 197–207.