References
- Olgart L, Gazelius B, Sundstrom S. Intradental nerve activity and jaw opening reflex in response to mechanical deformation of rat teeth. Acta Physiol Scand 1988; 133: 399–406
- Kvinnsland S, Heyeraas K, Øfjord E S. Effect of experimental tooth movement on periodontal and pulpal blood flow. Eur J Orthod 1989; 11: 200–5
- Palcanis K G. Effect of occlusal trauma on interstitial pressure in the periodontal ligament. J Dent Res 1973, Suppl 5
- Kvinnsland I, Kvinnsland S. Changes in CGRP-immunoreactive nerve fibres during experimental tooth movement in rats. Eur J Orthod 1990; 12: 320–9
- Path M G, Meyer M W. Quantification of pulpal blood flow in developing teeth of dogs. J Dent Res 1977; 56: 1245–54
- Edwall B. Experimental studies of blood flow regulation in oral tissues [thesis]. Karolinska Institutet, Stockholm 1987
- Tgnder K, Aukland K. Blood flow in the dental pulp in dogs measured by local H2 gas desaturation techniques. Arch Oral Biol 1975; 20: 345–9
- Meyer M W, Path M G. Blood flow in the dental pulp of dogs determined by hydrogen polarography and radioactive microsphere methods. Arch Oral Biol 1979; 24: 601–5
- Meyer M W, Path M G. Heterogeneity of blood flow in the canine tooth in the dog. Arch Biol 1980; 25: 83–6
- Heyeraas Tender K. Blood flow and vascular pressure in the dental pulp. Acta Odontol Scand 1980; 38: 1–10
- Folke L EA, Stallard R E. Periodontal micro-circulation as revealed by plastic microspheres. J Periodont Res 1967; 2: 53–63
- Kim S. Regulation of pulpal blood flow. J Dent Res 1985; 64: 590–6
- Meyer M W. Methodologies for studying pulpal hemodynamics. J Endodont 1980; 6: 466–72
- Hale S L, Vivaldi M T, Kloner R A. Fluorescent microspheres: a new tool for visualization of ischemic myocardium in rats. Am J Physiol 1986; 251: 863–8
- Fosse G. The number of prisms on the inner and outer surface of the enamel mantle of human teeth. J Dent Res 1964; 43: 57–63
- Lew K K, Sims M R, Leppard P I. Tooth extrusion effects on microvessel volumes, endothelial areas, and fenestrae in molar apical periodontal ligament. Am J Orthod Dentofac Orthop 1989; 96: 221–31
- Gaengler P, Merte K. Effect of force application on periodontal blood circulation. J Periodont Res 1983; 18: 8692
- Ng G C, Walker T W, Zingg W, Burke P S. Effect of tooth loading on the periodontal vasculature of the mandibular fourth premolar in dogs. Arch Oral Biol 1981; 26: 189–95
- Hirashita A. Electron-microscopic studies of the osteoblasts and osteocytes appeared in experimental tooth movement. Bull Tokyo Med Dent Univ 1973; 40: 75–102
- Nakumura Y, Hirashita A, Kuwabara Y. Scanning electron microscopy of the periodontium in physiological tooth movement in rats. J Jpn Orthod Soc 1980; 39: 194–207
- Okumura E. Light and electron microscopic of multinucleated giant cells related with resorption of hyalinized tissues. J Jpn Orthod SOC 1982; 41: 531–55
- Nakumura M, Nakukura T K, Yoshikawa M, Kiomura H. Vascular changes in pressure zones of rat molar periodontium following orthodontic tooth movement. J Jpn Orthod SOC 1986; 45: 12634
- Göz G, Rakosi T, Rahn B A. Die Bedeutung der paradontalen Zirkulationsstörung für Umbau und mögliche paradontale Schädigung im Laufe einer Kieferorthopädischen Behandlung. Fortschr Kieferorthop 1987; 48: 34–40
- Takahashi K. Vascular architecture of dog pulp using corrosion resin cast examined under a scanning electron microscope. J Dent Res 1985; 64: 579–84
- Fung Y C. Stochastic flow in capillary blood vessels. Microvasc Res 1973; 5: 34–48
- Brodin E, Gazelius B, Olgart L, Nilsson G. Tissue concentration and release of substance P- like immunoreactivity in the dental pulp. Acta Physiol Scand 1981; 111: 141–9
- Olgart L, Edwall L, Gazelius B. Involvement of afferent nerves in pulpal blood flow reactions in response to clinical and experimental procedured in the cat. Arch Oral Biol 1991; 36: 57–81
- Weiss R C, Tansy M F, Chaffe R B, Kendell F M. Functional control of intrapulpal vasculature. J Dent Res 1972; 51: 1350–8
- Wakisaka S, Nishikawa S, Ichikawa H, Matsuo S, Takano Y, Akai M. The distribution and origin of sustance P-like immunoreactivity in the rat molar pulp and periodontal tissues. Arch Oral Biol 1985; 30: 813–8
- Gazelius B, Edwall B, Olgart L, Lundberg J M, Høkfelt T, Fisher J A. Vasodilatory effects and coexistence of calcitonine gene related peptide (CGRP) and substance P in sensory nerves of rat dental pulp. Acta Physiol Scand 1987; 108: 181–6
- Kvinnsland I, Heyeraas K J. Effect of traumatic occlusion on CGRP and SP immunoreactive nerve fibre morphology in rat molar pulp and periodontium. Histochemistry 1992, In press