Читать книгу Biological Mechanisms of Tooth Movement - Группа авторов - Страница 36

References

Оглавление

1 Anderson, J. C. and Eriksson, C. (1968) Electrical properties of wet collagen. Nature 218, 166–168.

2 Anderson, J. C. and Eriksson, C. (1970) Piezoelectric properties of dry and wet bone. Nature 227, 491–492.

3 Angle, E. H. (1907) Treatment of Malocclusion of the Teeth: Angle’s System, 7th edn, White Dental Manufacturing Co., Philadelphia.

4 Basset, C. A. L. (1968) Biologic significance of piezoelectricity. Calcified Tissue Research 1, 252–272.

5 Basset, C. A. L. and Becker, R. O. (1962) Generation of electric potentials by bone in response to mechanical stress. Science 137, 1063–1065.

6 Baumrind, S. (1969) A reconsideration of the property of the pressure tension hypothesis. American Journal of Orthodontics 55, 12–22.

7 Bien, S. M. (1966) Hydrodynamic damping of tooth movement. Journal of Dental Research 44(3), 907–914.

8 Borgens, R. B. (1984) Endogenous ionic currents traverse intact and damaged bone. Science 225, 478–482.

9 Cochran, G. V. B., Pawluk, R. J. and Bassett, C. A. L. (1968) Electromechanical characteristics of bone under physiologic moisture conditions. Clinical Orthopedics 58, 249–270.

10 Davidovitch, Z. (1991) Tooth movement. Critical Reviews in Oral Biology and Medicine, 2, 411–450.

11 Davidovitch, Z., Finkelson, M.D., Steigman, S. et al. (1980a) Electric currents, bone remodeling and orthodontic tooth movement. I—The effect of electric currents on periodontal nucleotides. American Journal of Orthodontics 77, 14–32.

12 Davidovitch, Z., Finkelson, M. D., Steigman, S. Et al. (1980b) Electric currents, bone remodeling and orthodontic tooth movement. II—Increase in rate of tooth movement and periodontal cyclic nucleotide levels by combined force and electric current. American Journal of Orthodontics 77, 33–47.

13 Epker, B. N. and Frost, H. M. (1965) Correlation of bone resorption and formation with the physical behavior of loaded bone. Journal of Dental Research 44, 33–41.

14 Farrar, J. N. (1888) Irregularities of the Teeth and Their Correction, DeVinne Press, New York, Vol. 1, Chapter 62, p. 658.

15 Frost, H. M. (1983) The regional acceleratory phenomenon: a review. Henry Ford Hospital Medical Journal 31, 3–9.

16 Fukada, E. and Hara, A. (1969) Piezoelectric effects in blood vessel walls. Journal of Physics Society of Japan 26, 777–780.

17 Fukada, E. and Yasuda, I. (1957) On the piezoelectric effect on bone. Journal of Physics Society of Japan 12, 1158–1162.

18 Gross, D. and Williams, W. S. (1982) Streaming potential and the electromechanical response of physiologically‐moist bone. Journal of Biomechanics 15(4), 277–295.

19 Hays, D. F. (1961) Squeeze films, a finite bearing with a fluctuating load. Transactions of the American Society of Mechanical Engineering Series D 83, 579–588.

20 Hecht, H. (1900) Über die Vorgänge, die sich bei der künstlichen regulierung der Zähne in dem Alveolarfortsatz abspielen. Korrenspondenzblatt für Zahnarzte.

21 Hunter, R. J. (1981) Zeta Potential in Colloid Science, Academic Press, New York, NY.

22 Isaacs, A. (1987) Concise Science Dictionary, Oxford University Press, Oxford.

23 Kingsley, N. W. (1881) Die Anomalien der Zahnstellung und Defecte des Gaumens, A. Felix, Leipzig.

24 Krishnan, V. and Davidovitch, Z. (2006) The cellular, molecular and tissue level reactions to orthodontic force. American Journal of Orthodontics and Dentofacial Orthopedics 129, e1–32.

25 Lech, L. and Iwaniec, M. (2010) The Meaning of the Piezoelectric Effect and Streaming Potential in Bone Remodeling. Twenty‐Fourth Symposium on Vibrations in Physical Systems, Poznan–Bedlewo, May 12–15.

26 Marino, A. A. and Becker, R. O. (1975) Piezoelectricity in hydrated bone and tendon. Nature 253, 627–628.

27 Masella, R. S. and Chung, P. L. (2008) Thinking beyond the wire: Emerging biologic relationships in orthodontics and periodontology. Seminars in Orthodontics 14, 290–304.

28 McDonald, F. (1993) Electrical effects at the bone surface. European Journal of Orthodontics 15(3), 175–183.

29 Meikle, M. C. (2006) The tissue, cellular and molecular regulation of orthodontic tooth movement: 100 years after Carl Sandstedt. European Journal of Orthodontics 28, 221–240.

30 Melsen, B. (1999) Biological reaction of alveolar bone to orthodontic tooth movement. The Angle Orthodontist 69, 151–158.

31 Oppenheim, A. (1911) Tissue changes, particularly of the bone, incident to tooth movement. Transactions of the European Orthodontic Society 303–359. [Reprinted (2007) European Journal of Orthodontics 29, i2–i15.]

32 Oppenheim, A. (1944) A possibility for physiologic tooth movement. American Journal of Orthodontics and Oral Surgery 30(6), 277–328.

33 Pfaff, W. (1906) Lehrbuch des Orthodontie, Zentralstelle für Zahnhygiene, Dresden.

34 Pollack, S. R., Salzstein, R. and Pienkowski, D. (1984) The electric double layer in bone and its influence on stress generated potentials. Calcified Tissue International 36, 577–581.

35 Proffit, W. R. (2013) Biological basis of orthodontic therapy, in Contemporary Orthodontics (ed. W. R. Proffit), 5th edn. Elsevier Mosby, St. Louis, MO, pp. 278–311.

36 Reitan, K. (1957) Some factors determining the evaluation of force in orthodontics. American Journal of Orthodontics 44, 32–45.

37 Reitan, K. (1960) Tissue behavior during orthodontic tooth movement. American Journal of Orthodontics 46, 881–890.

38 Sandstedt, C. (1904) Einige Beiträge zur Theorie der Zahnregulierung. Nordisk Tandläkare Tidskrift 5, 236–256.

39 Sandstedt, C. (1905) Einige Beiträge zur Theorie der Zahnregulierung. Nordisk Tandläkare Tidskrift 6, 1–25, 141–168.

40  Schwarz, A. M. (1932) Tissue changes incidental to orthodontic tooth movement. International Journal of Orthodontia, Oral Surgery and Radiography 18(4), 331–352.

41 Shamos, M. H. and Lavine, L. S. (1964) Physical basis for bioelectric effect in mineralized tissues. Clinical Orthopedics and Related Research 35, 177–188.

42 Shamos, M. H., Lavine, L. S. and Shamos, M. I. (1963) Piezoelectric effects in bone. Nature 197, 81.

43 Shapiro, E., Roeber, F. W. and Klempner, L. S. (1979). Orthodontic movement using pulsating force‐induced piezoelectricity. American Journal of Orthodontics 76(1), 59–66.

44 Thompson, D’Arcy W. (1917). On Growth and Form, Cambridge University Press, Cambridge (Dover reprint).

45 Walkhoff, O. (1890) Über die Veränderungen der Gewebe, insbesonder des Knochengewebes beim Richten der Zähne. Deutsche Monatsschrift für Zahnheilkunde.

46 Walkhoff, O. (1891) Die Unregelmässigkeiten in den Zahnstellungen und ihre Behandlung, Felix, Leipzig.

47 Walsh, W. R. and Guzelsu, N. (1993) Ion concentration effects on bone streaming potentials and zeta potentials. Biomaterials 14, 331–336.

48 Wise, G. E. and King, G. J. (2008) Mechanisms of tooth eruption and orthodontic tooth movement. Journal of Dental Research 87(5), 414–434.

49 Zengo, A. N., Pawluk, R. J. and Bassett, C. A. (1973) Stress induced bioelectric potentials in the dentoalveolar complex. American Journal of Orthodontics 64, 17–27.

Biological Mechanisms of Tooth Movement

Подняться наверх