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Parlange LM, Sims MR. A TEM stereological analysis of blood vessels and nerves in marmoset periodontal ligament following endodontics and magnetic incisor extrusion. Eur J Orthod 1993; 15: 33–44.Search in Google Scholar
Kvinnsland S, Heyeraas KJ, Ofjord ES. Effect of experimental tooth movement on periodontal and pulp blood flow. Eur J Orthod 1989; 11 :200–3.Search in Google Scholar
Ibbotson KJ, Roodman GD, McManuf LM, Mundy GR. Identifaction and characterisation of osteoclast-like cells and their progenitors in culture of feline marrow mononuclear cells. J Cell Biol 1984; 99: 471–80.Search in Google Scholar
Sandy J. Tooth eruption and orthodontic movement. Br Dent J 1992; 172: 141–9.Search in Google Scholar
Rygh P. Ultrastructural changes of the periodontal fibres and their attachment in rat molar periodontium incident to orthodontic tooth movement. Scand J Dent Res 1973; 81: 467–80.Search in Google Scholar
Vandevska-Radunovic,V. Neural modulation of inflammatory reactions in dental tissues incident to orthodontic tooth movement: A review of the literature. Eur J Orthod 1999; 21: 231–47.Search in Google Scholar
Davidovitch Z, Nicolay OF, Ngan PW, Shanfield JL. Neurotransmitters, cytokines, and the control of alveolar bone remodelling in orthodontics. Dent Clin North Am 1988; 32: 411–35.Search in Google Scholar
Cooper SM, Sims MR. Evidence of acute inflammation in the periodontal ligament subsequent to orthodontic movement in rats. Aust Orthod J 1989; 11: 107–9.Search in Google Scholar
Gyorfi A, Fazekas A, Suba Z, Ender F, Rosival L. Neurogenic component in ligature induced periodontitis in the rat. J Clin Periodont 1994; 21: 601–5.Search in Google Scholar
Vandevska-Radunovic V, Kristiansen AB, Heyeraas KJ, Kvinnsland S. Changes in blood circulation in teeth and supporting tissues incident to experimental tooth movement. Eur J Orthod 1994; 16: 361–9.Search in Google Scholar
Granger DN, Schmid-Schonbein GW. Physiology and Pathophysiology of Leukocyte Adhesion. Oxford: Oxford University Press, 1995.Search in Google Scholar
Warita H. Intra-vital and electron microscopic observations on increased vascular permeability to light mechanical stimulation. J Stomato Soc Japan 1990; 57: 520–48.Search in Google Scholar
Iida J, Inage S, Kurihara S, Miura F. Changes in the microvasculature after mechanical pressure on the hamster cheek pouch. J Dent Res 1992; 71: 1304–9.Search in Google Scholar
Iida J, Warita H, Nakagawa N, Soma K. White blood cell movement in post-capillary venule during intermittant or continuous compressions. In: Davidovitch Z, Norton L A. Eds. Biological mechanisms of tooth movement and craniofacial adaptation. Harvard Soc Advanc Orthod, Boston, Mass. 1996; 189–94.Search in Google Scholar
Kahn A J, Stewart CC, Teitelbaum S L. Contact mediated bone resorption by human monocytes in vitro. Science 1978; 199: 988–90.Search in Google Scholar
Teitelbaum S L, Kahn A J. Mononuclear phagocytes, osteoclasts and bone resorption. Min Electrol Metab 1980; 3: 2–9.Search in Google Scholar
Sminia T, Dijkstra C D. The origin of osteoclasts: an immunohistochemical study on macrophages and osteoclasts in embryonic rat bone. Calcif Tiss Internat 1986; 39: 263–6.Search in Google Scholar
Rygh P, Bowling K, Hovlandsdal L, Williams S. Activation of the vascular system: A main mediator of periodontal fiber remodelling in orthodontic tooth movement. Am J Orthod Dentofacial Orthop 1986; 89: 453–68.Search in Google Scholar
Vandevska-Radunovic V, Hals Kvinnsland I, Kvinnsland S, Jonsson R. Immunocompetent cells in rat periodontal ligament and their recruitment incident to experimental orthodontic tooth movement. Eur J Oral Sci 1997; 105: 36–44.Search in Google Scholar
Brain SD, Williams TJ, Tippins JR, Morris HR, MacIntyre I. Calcitonin gene-related peptide is a potent vasodilator. Nature 1985; 313: 54–6.Search in Google Scholar
Haegerstrand A, Dalsgaard CJ, Jonzon B, Larsson O, Nilsson J. Calcitonin gene-related peptide stimulates proliferation of human endothelial cells. Proc Nat Acad Sci USA 1990; 87: 3299–303.Search in Google Scholar
Smith CH, Barker JNWN, Morris RW, MacDonald DM, Lee TH. Neuropeptides induce rapid expression of endothelial cell adhesion molecules and elicit granulocytic infiltration in human skin. J Immunol 1993; 151: 3274–82.Search in Google Scholar
Argenbright LW. Inflammatory mediators, cytokines, and leukocyte adhesion in postcapillary venules. In: Granger DN, Schmid-Schonbein GW, eds. Physiology and Pathophysiology of Leukocyte Adhesion. New York: Oxford University Press, 1995: 171–84.Search in Google Scholar
Binnerts ME, van Kooyk Y, Figdor CG. Integrins and cell signalling. In: Horton MA, ed. Molecular biology of cell adhesion molecules. Chichester: J Wiley & Sons, 1996: 17–31.Search in Google Scholar
Andrews FJ, Malcontenti-Wilson C, O’Brien PE. Effect of nonsteriodal anti-inflammatory drugs on LFA-1 and ICAM-1 expression in gastric mucosa. Am J Physiol 1994; 226: G657–64.Search in Google Scholar
Panes J, Perry MA, Anderson DC, et al. Regional differences in constitutive and induced ICAM-1 expression in vivo. Am J Physiol 1995; 269: H1955–64.Search in Google Scholar
Melcher AH. An overview of the anatomy and physiology of the periodontal ligament. In: Norton LA, Burstone CJ, eds.The Biology of Tooth Movement. Boca Raton: CRC Press Inc, 1989: 1–7.Search in Google Scholar
Tanne K, Nagataki T, Matsubara S, et al. Association between mechanical stress and bone remodelling. J Osaka Univ Dent Sch. 1990; 30: 64–71.Search in Google Scholar
Reitan K. Clinical and histiologic observations on tooth movement during and after orthodontic treatment. Am J Orthod 1967; 53: 721–45.Search in Google Scholar
Reitan K. Initial tissue behavior during apical root resorption. Angle Orthod 1974; 4: 68–82.Search in Google Scholar
Simon JHS, Lythgoe JB, Torabinejad M. Clinical and histiological evaluation of extruded endodontically treated teeth in dogs. Oral Surg 1980; 50: 361–71.Search in Google Scholar
Sims MR. Angular changes in collagen cemental attachment during tooth movement. J Periodont Res 1980; 13: 199–206.Search in Google Scholar
Sims MR. Electron microscopic affiliation of oxytalan fibres, nerve and the microvascular bed in the mouse periodontal ligament. Arch Oral Biol. 1983; 28: 1017–24.Search in Google Scholar
Crowe PR. A TEM investigation of extrusion and root canal therapy on the marmoset periodontal ligament. MDS Thesis, University of Adelaide, South Australia. 1989.Search in Google Scholar
Lew K, Sims MR, Leppard P. Tooth extrusion effects on microvessel volumes, endothelial areas, and frenestrae in molar apical periodontal ligament. Am J Orthod Dentofacial Orthop 1989; 96: 221–31.Search in Google Scholar
Cooper SM, Sims MR, Sampson WJ, Dreyer CW. A morphometric, electron microscopic analysis of tissue channels shown by ionic tracer in normal and tensioned rat molar apical periodontal ligament. Arch Oral Biol 1990; 35: 499–507.Search in Google Scholar
Clark AB, Sims MR, Leppard PI. An analysis of the effect of tooth intrusion on the microvascular bed and fenestrae in the apical periodontal ligament of the rat molar. Am J Orthod Dentofacial Orthop 1991; 99: 21–9.Search in Google Scholar
Tang MPF, Sims MR. A TEM analysis of tissue channels in normal and orthodontically tensioned rat molar periodontal ligament. Eur J Orthod 1992; 14: 433–44.Search in Google Scholar
Andrews FJ, Malcontenti-Wilson C, O’Brien PE. Expression of adhesion molecules and leukocyte recruitment into gastric mucosa following ischemia-reperfusion. Digestive Diseases and Sciences 1997; 42: 326–32.Search in Google Scholar
Davidovitch Z, Nicolay OF, Ngan PW, Shanfield JL. Neurotransmitters, cytokines, and the control of alveolar bone remodelling in orthodontics. Dent Clin North Am 1988; 32: 411–35.Search in Google Scholar
Storey E. The nature of tooth movement. Am J Orthod Dentofacial Orthop 1973; 63: 292–314.Search in Google Scholar
Cooper SM, Sims MR. Evidence of acute inflammation in the periodontal ligament subsequent to orthodontic movement in rats. Aust Orthod J 1989; 11: 107–9.Search in Google Scholar
Cheng JJ, Wung BS, Chao YJ, Wang DL. Cyclic strain enhances adhesion of monocytes to endothelial cells by increasing intercellular adhesion molecule-1 expression. Hypertension 1996; 28: 386–91.Search in Google Scholar
Lukacs NW, Strieter RM, Elner V, Evanoff HL, Burdick MD, Kunkel SL. Production of chemokines, inter-leukin-8 and monocyte chemoattractant protein-1, during monocyte/endothelial cell interactions. Blood 1995; 86: 2767–73.Search in Google Scholar
Butcher EC. Leukocyte-endothelial cell recognition: three (or more) steps to specificity and diversity. Cell 1991; 67: 1033–6.Search in Google Scholar
