References
- Schwarz AM. Tissue changes incidental to orthodontic tooth movement. Am J Orthod 1932; 18: 331–352.
- Oppenheim AA. possibility for physiologic orthodontic movement. Am J Orthod Oral Surg 1944; 30: 277–332.
- Reitan K. Clinical and histologic observations on the tooth movement during and after orthodontic treatment. Am J Orthod 1967; 53: 721–745.
- Waldo CM, Rothblatt JM. Histologic response to tooth movement in the laboratory rat Procedure and preliminary observations. J Dent Res 1954; 33: 481–486.
- Azuma M. Study on histologic changes of periodontal membrane incident to experimental tooth movement. Bull Tokyo Med Dent Univ 1970; 17: 149–178.
- Heller IJ, Nanda R. Effect of metabolic alteration of periodontal fibers on orthodontic tooth movement: an experimental study. Am J Orthod 1979; 75: 239–258.
- King GJ, Fishlschweiger W. The effect of force magnitude on extractable bone resorptive activity and cemental cratering in orthodontic tooth movement. J Dent Res 1982; 61: 775–779.
- King GJ, Keeling SD, McCoy EA, Ward T. Measuring dental drift and orthodontic tooth movement in response to various initial forces in adult rats. Am J Orthod Dentofacial Orthop 1991; 99: 456–465.
- Kirino Y, Tuchiya T, Kurihara S. A study of tooth movement with super-elastic force. J Jpn Orthod Soc 1991; 50: 315–324.
- Sato T, Iida J, Kurihara S. A histological investigation on the periodontal tissue changes during molar depression in rats. J Jpn Orthod Soc 1984; 43: 361–372.
- Schwarz AM. Über die Bebegung belasteter Zahn. Z Stomatol 1928; 26 :4–21.
- Kondo K. A study of blood circulation in the periodontal membrane by electrical impedance plethysmography. J Stomatol Soc Jpn 1969; 36: 20–42.
- Hotz R. Periodontal reaction to strong forces following treatment with fixed appliance. Fortschr Kieferorthop 1966; 27: 220–223.
- Bien SM. Fluid dynamic mechanisms which regulate tooth movement. Adv Oral Biol 1966; 2: 173–201.
- Lee M, Nakamura Y. A histological study of the periodontal ligament during the experimental movement of hypofunctional teeth in rats—on the tension side. Orthod Waves 1999; 58(6): 416–427.
- Proffit WR. Equilibrium theory revisited: factors influencing position of the teeth. Angle Orthod 1978; 48: 175–186.
- Rygh P, Moyers RE. Force systems and tissue responses to forces in orthodontics and facial orthopedics. In: Moyers RE (ed.) Handbook of Orthodontics, 4th edn. Chicago: Year Book Medical Publishers, 1988: 306–331.
- Thüer U, Sieber R, Ingevall B. Cheek and tongue pressures in the molar areas and the atmospheric pressure in the palatal vault in young adults. Eur J Orthod 1999; 21: 299–309.
- Warita H, Iida J, Yamaguchi S, et al. A study on experimental tooth movement with Ti-Ni alloy orthodontic wires: comparison between light continuous force and light dissipating force. J Jpn Orthod Soc 1996; 55: 515–527.
- Saitoh M, Ohki Y, Usui N, Sasao M, Kasai S, Nishiyama M. Surface reproduction of dental stone models—compatibility between dental stones and impression aimed for the combined agar–alginate technique. J Dent Mater 1999; 18: 38–45.
- Saeki M. Experimental disuse atrophy and its repairing process in the periodontium of the rat molar. J Stomatol Soc Jpn 1959; 26: 317–347.
- Lasfargues JJ, Saffar JL. Inhibition of prostanoid synthesis depresses alveolar bone resorption but enhances root resorption in the rat. Anat Rec 1993; 237: 458–465.
- Ten Cate AR. The role of fibroblasts in the remodeling of periodontal ligament during physiologic tooth movement. Am J Orthod 1972; 69: 155–168.
- Roberts WE. Bone physiology, metabolism, and biomechanics in orthodontic practice. In: Graber TM (ed.) Orthodontics—Current Principles and Techniques. Philadelphia: Mosby, 1994: 193–234.
- Storey E. The nature of tooth movement. Am J Orthod 1973; 63: 292–314.
- Burstone CJ. Application of bioengineering to clinical orthodontics. In: Graber TM (ed.) Orthodontics—Current Principles and Technique. Philadelphia: Mosby, 1994: 235–267.
- Melcher AH. Periodontal Ligament, Chap.7. In: Bhaskar SN (ed.) Orban's Oral Histology and Embryology, 8th edn. St Louis: Mosby Company, 1976: 206–233.
- Chantawiboonchai P, Warita H, Ohya K, Soma K. Confocal laser scanning-microscopic observations on the three-dimensional distribution of oxytalan fibers in mouse periodontal ligament. Arch Oral Biol 1998; 43: 811–817.