2. ALEXANDER, R. G. A disciplina de Alexander - Filosofia e Conceitos
Contemporâneos. 1ª. Ed., Ed. Santos, São Paulo, 1997.
3. ALMEIDA, M. A. et al. Stability of the palatal rugae as landmarks for
análisis of dental casts. Angle Orthod., Appleton, v.65, n.1, pp.43-48,
Jan./Feb., 1995.
4. ALMEIDA, R. R. Estudo comparativo da forma do arco dentário de
brasileiros adultos brancos, amarelos e negros, utilizando o polinômio
de 4
o. Grau., 1972. 142p. Tese (Doutorado) – Faculdade de Odontologia
de Bauru – Universidade de São Paulo, Bauru.
5. ANDREWS, L. F. The six keys to a normal occlusion. Am. J. Orthod.,
St. Louis, v.62, n.3, pp.296-309, Sept., 1972.
6. ANDREWS, L. F. Straight Wire: The concept and appliance. San Diego,
L.A. Wells Co. pp. 23-35, 1989 apud WATANABE, K.; KOGA, M. A
morphometric study with setup models for bracket design. Angle Orthod.,
Appleton, v 71, n. 6, pp. 499-511, Nov./Dec., 2001.
7. ANGLE, E. H. Classification of Malloclusion. The Dental Cosmos,
pp.248-264 1889.
8. ASHMORE, J. L. et al. A 3-dimensional analysis of molar movement
during headgear treatment. Am. J. Orthod. Dentofacial Orthop., St.
Louis, v. 121, n.1, pp. 18-30, Jan., 2001.
9. BALDRIDGE, D. W. Leveling the curve of Spee: its effect on mandibular
arch lengths. JPO J. Pract. Orthod., v. 3, n. 1, pp.26-41, 1969 apud
BRAUN, S. et al. The curve of spee revisited. Am. J. Orthod.
Dentofacial Orthop., St. Louis, v.110, n. 2, pp. 206-210, Aug., 1996.
10. BEGOLE, E. A. A computer program for the analysis of dental arch form
using the cubic spline function. Comput. Programs Biomed., v.10,
pp.136-142, 1979.
*
Associação Brasileira de Normas Técnicas. NBR 6023: informação e documentação –
referências – elaboração Rio de Janeiro: ABNT, 2002. 24p.
11. BELL, A. et al. Assesment of the accuracy of a three-dimensional imaging
system for archiving dental study models. J. Orthod., Oxford, v. 30, n. 3,
pp. 219-223, Sept., 2003.
12. BISHARA, S. E. et al. Changes in the dental arches and dentition between
25 and 45 years of age. Angle Orthod., Appleton, v. 66, n. 6, pp. 417-422,
Nov./Dec., 1996.
13. BISHARA, S. E. et al. Arch length changes from 6 weeks to 45 years.
Angle Orthod., Appleton, v. 68, n. 1, pp. 69-74, Jan./Feb., 1998.
14. BEYER, J. W.; LINDAUER, S. J. Evaluation of dental midline position.
Semin. Orthod., Birmingham, v. 4, n. 3, pp. 146-152, Sept., 1998.
15. BOLTON, W. A. Disharmony in tooth size and its relation to the analysis
and treatment of malocclusion. Angle Orthod., Appleton, v. 28, pp.113-
130, 1958.
16. BURRIS, B.; HARRIS, E. F. Maxillary arch size and shape in American
blacks and whites. Angle Orthod., Appleton, v.70, n.4, pp.297-302, 2000.
17. BURSTONE, C. J. Diagnosis and treatment planning. Semin. Orthod.,
Birmingham, v. 4, n. 3, pp. 153-164, Sept., 1998.
18. BUSCHANG, P. H. et al. Incisor and mandibular condilar movements of
young adult females during maximum protusion and lateratrusion of the
jaw. Arch. Oral Biol., v. 46, pp. 39-48, 2001.
19. BUSCHANG, P. H. et al. Differences in dental arch morphology among
adult females with untreated Class I and Class II malocclusion. Eur. J.
Orthod., v.16, n.1, pp.47-52, Feb., 1994.
20. BRAUN, S. et al. The curve of spee revisited. Am. J. Orthod.
Dentofacial Orthop., St. Louis, v.110, n. 2, pp. 206-210, Aug., 1996.
21. BRAUN, S. et al. The forma of the human dental arch. Angle Orthod.,
Appleton, v. 68, n. 1, pp-29-36, Jan./Feb., 1998.
22. BRAUN, S. et al. An evaluation of the shape of some popular nickel
titanium alloy preformed arch wires. Am. J. Orthod. Dentofacial
Orthop., St. Louis, v. 116, n. 1, pp.1-12, July, 1999.
23. CARTER, G. A.; McNAMARA, J. A. Longitudinal dental arch changes in
adults. Am. J. Orthod. Dentofacial Orthop., St. Louis, v. 114, n. 1,
pp.88-99, July, 1998.
24. CASSIDY, K. M. et al. Genetic influence on dental arch form in
orthodontic patients. Angle Orthod., Appleton, v. 68, n. 5, pp. 445-454,
Sept./Oct., 2001.
25. CURRIER, J. H. A computerized geometric analysis of human dental arch
form. Am. J. Orthod., St. Louis, v.56, n.2, pp.164-179, Aug., 1969.
26. DAMON, D. Damon System - The Workbook. Ormco Corporation,
Orange, 2003.
27. DAHLBERG, G. Statistical methods for medical and biological
students. New York, Interscience, 1940.
28. DE KOCK, W. H. Dental arch depth and width studied longitudinally
from 12 years of age to adulthood. Am. J. Orthod., St. Louis, v. 62, n. 1,
pp. 56-66, July, 1972.
29. DE PRAETER, J. et al. Long-term stability of the leveling of the curve of
Spee. Am. J. Orthod. Dentofacial Orthop., St. Louis, v. 121, n. 3, pp.
266-272, March, 2002.
30. DEL CAMPO, A. F. Beauty: Who sets the standarts? Editorial. Aestht.
Surg. J., v.22, n.3, pp.267-8, May/Jun., 2002.
31. DINELLI, T. C. S. Mudanças dimensionais dos arcos dentários em
crianças entre 3 e 6 anos de idade. 2002. 210p. Dissertação (Mestrado) –
Faculdade de Odontologia de Araraquara – Universidade Estadual
Paulista, Araraquara.
32. FELTON, J. M. et al. A computerized analysis of the shape and stability of
mandibular arch form. Am. J. Orthod. Dentofacial Orthop., St. Louis,
v.92, n.6, pp.478-83, Dec., 1987.
33. FERRARIO, V. F. et al. Three-dimensional dental arch curvature in
adolescents and adults. Am. J. Orthod. Dentofacial Orthop., St. Louis,
v.115, n.4, pp.401-405, April, 1999.
34. FERRARIO, V. F. et al. Three-dimensional inclination of the dental axes
in healthy permanent dentitions – A cross-sectional study in a normal
population. Angle Orthod., Appleton, v. 71, n. 4, pp. 257-264, May/June,
2001.
35. GARCIA, R. Leveling the curve of Spee: a new prediction formula. J.
Charles H. Tweed Int. Found., v. 13, pp. 65-72, April, 1986 apud
BRAUN, S. et al. The curve of spee revisited. Am. J. Orthod.
Dentofacial Orthop., St. Louis, v.110, n. 2, pp. 206-210, Aug., 1996.
36. GERMANE, N. et al. Arch length considerations due to the curve of Spee:
A mathematical model. Am. J. Orthod. Dentofacial Orthop., St. Louis,
v. 102, n. 3, pp. 251-255, Sept., 1992.
37. GOLDSTEIN, H. Multilevel mixed linear model analysis using iterative
generalized least squares. Biometrika. v, 73, pp.43-56, 1986 apud
BUSCHANG, P. H. et al. Incisor and mandibular condilar movements of
young adult females during maximum protusion and lateratrusion of the
jaw. Arch. Oral Biol., v. 46, pp. 39-48, 2001.
38. GOLDSTEIN, H. Multilevel models in educational and social research.
Oxford University Press, New York, 1987 apud BUSCHANG, P. H. et al.
Incisor and mandibular condilar movements of young adult females during
maximum protusion and lateratrusion of the jaw. Arch. Oral Biol., v. 46,
pp. 39-48, 2001.
39. GRAMMER, K.; THORNHILL, R. Human (Homo Sapiens) facial
attractiveness nd sexual selection: The role of symmetry and averageness.
J. Comparative Psychology, v.108, n.3, pp.233-42, Sept., 1994.
40. GRIMAL, P. Dicionário da mitologia. 2
a.edição, Rio de Janeiro, Ed.
Bertrand Brasil, 1993.
41. HARRIS, E. F. A longitudinal study of arch size and form in untreated
adults. Am. J. Orthod. Dentofacial Orthop., St. Louis, v.111, n.4, pp.
419-427, April, 1997.
42. HARRIS, E. F.; BEHRENTS, R. G. The intrinsic stability of Class I molar
relationship: A longitudinal study of untreated cases. Am. J. Orthod.
Dentofacial Orthop., St. Louis, v. 94, n., pp.63-7, July, 1988.
43. HAYASAKI, H. et al. Length of the occlusal glide at the lower incisal
point during chewing. J. Oral Rehabil., v. 29, pp. 1120-1125, 2002.
44. HECHTER, F. J. Symmetry, form and dimension of the dental arches
of orthodontically treated patients, 1975. Tese (Mestrado) –
In document
Valuation of VOW ASA : a fundamental analysis of a company turning waste into value
(sider 84-108)