12

14. Waanders NA, Richards M, Steen H, Kuhn JL, Goldstein SA,

Goulet JA. Evaluation of the mechanical environment during

distraction osteogenesis. Clin Orthop. 1998 Apr;(349):

225–34.

15. Richards M, Waanders NA, Weiss JA, Bhatia V, Senunas LE,

Schaffler MB, et al. Reduced gap strains induce changes in

bone regeneration during distraction. J Biomech Eng. 1999

Jun;121(3):348–55.

16. Cope JB, Samchukov ML. Mineralization dynamics of regenerate

bone during mandibular osteodistraction. Int J Oral Maxillofac

Surg. 2001 Jun;30(3):234–42.

17. Rachmiel A, Rozen N, Peled M, Lewinson D. Characterization

of midface maxillary membranous bone formation during

distraction osteogenesis. Plast Reconstr Surg. 2002 Apr

15;109(5):1611–20.

18. Vauhkonen M, Peltonen J, Karaharju E, Aalto K, Alitalo I.

Collagen synthesis and mineralization in the early phase

of distraction bone healing. Bone Miner. 1990 Sep;10(3):

171–81.

19. Sato M, Yasui N, Nakase T, Kawahata H, Sugimoto M, Hirota S, et

al. Expression of bone matrix proteins mRNA during distraction

osteogenesis. J Bone Miner Res Off J Am Soc Bone Miner Res.

1998 Aug;13(8):1221–31.

20. Samchukov ML. Craniofacial Distraction Osteogenesis. Mosby;

2001. 678 p.

21. Aronson J, Good B, Stewart C, Harrison B, Harp J. Preliminary

studies of mineralization during distraction osteogenesis. Clin

Orthop. 1990 Jan;(250):43–9.

22. Cope JB, Samchukov ML. Regenerate bone formation and

remodeling during mandibular osteodistraction. Angle Orthod.

2000 Apr;70(2):99–111.

23. Sato M, Ochi T, Nakase T, Hirota S, Kitamura Y, Nomura S, et

al. Mechanical tension-stress induces expression of bone

morphogenetic protein (BMP)-2 and BMP-4, but not BMP-6,

BMP-7, and GDF-5 mRNA, during distraction osteogenesis.

J Bone Miner Res Off J Am Soc Bone Miner Res. 1999

Jul;14(7):1084–95.

24. Choi IH, Chung CY, Cho T-J, Yoo WJ. Angiogenesis and

mineralization during distraction osteogenesis. J Korean Med

Sci. 2002 Aug;17(4):435–47.

25. Choi IH, Ahn JH, Chung CY, Cho TJ. Vascular proliferation and

blood supply during distraction osteogenesis: a scanning

electron microscopic observation. J Orthop Res Off Publ Orthop

Res Soc. 2000 Sep;18(5):698–705.

26. Mehrara BJ, Rowe NM, Steinbrech DS, Dudziak ME, Saadeh PB,

McCarthy JG, et al. Rat mandibular distraction osteogenesis:

II. Molecular analysis of transforming growth factor beta-1

and osteocalcin gene expression. Plast Reconstr Surg. 1999

Feb;103(2):536–47.

27. Carvalho RS, Einhorn TA, Lehmann W, Edgar C, Al-Yamani

A, Apazidis A, et al. The role of angiogenesis in a murine

tibial model of distraction osteogenesis. Bone. 2004

May;34(5):849–61.

28. Gil-Albarova J, de Pablos J, Franzeb M, Cañadell J. Delayed

distraction in bone lengthening. Improved healing in lambs.

Acta Orthop Scand. 1992 Dec;63(6):604–6.

29. Rando TA. Stem cells, ageing and the quest for immortality.

Nature. 2006 Jun 29;441(7097):1080–6.

30. Amir LR, Jovanovic A, Perdijk FBT, Toyosawa S, Everts V,

Bronckers ALJJ. Immunolocalization of sibling and RUNX2

proteins during vertical distraction osteogenesis in the human

mandible. J Histochem Cytochem Off J Histochem Soc. 2007

Nov;55(11):1095–104.

31. Kanno T, Takahashi T, Ariyoshi W, Tsujisawa T, Haga M,

Nishihara T. Tensile mechanical strain up-regulates Runx2

and osteogenic factor expression in human periosteal cells:

implications for distraction osteogenesis. J Oral Maxillofac Surg

Off J Am Assoc Oral Maxillofac Surg. 2005 Apr;63(4):499–504.

32. Zheng LW, Ma L, Cheung LK. Comparison of gene expression

of osteogenic factors between continuous and intermittent

distraction osteogenesis in rabbit mandibular lengthening.

Oral Surg Oral Med Oral Pathol Oral Radiol Endod. 2009

Oct;108(4):496–9.

33. Zheng LW, Ma L, Cheung LK. Angiogenesis is enhanced

by continuous traction in rabbit mandibular distraction

osteogenesis. J Cranio-Maxillo-fac Surg Off Publ Eur Assoc

Cranio-Maxillo-fac Surg. 2009 Oct;37(7):405–11.

34. Robinson RC, Knapp TR. Distraction osteogenesis in the

craniofacial skeleton. Otolaryngol Clin North Am. 2005

Apr;38(2):333–59, vii.

35. Friedman CD, Costantino PD. Discussion. J Oral Maxillofac

Surg. 1994 Mar 1;52(3):287–8.

36. Block MS, Almerico B, Crawford C, Gardiner D, Chang A. Bone

response to functioning implants in dog mandibular alveolar

ridges augmented with distraction osteogenesis. Int J Oral

Maxillofac Implants. 1998 Jun;13(3):342–51.

37. Basa S, Uner E, Citir M, Aras K. Reconstruction of a large

mandibular defect by distraction osteogenesis: a case report. J

Oral Maxillofac Surg Off J Am Assoc Oral Maxillofac Surg. 2000

Dec;58(12):1425–8.

38. Molina F, Ortiz Monasterio F. Mandibular elongation and

remodeling by distraction: a farewell to major osteotomies. Plast

Reconstr Surg. 1995 Sep;96(4):825–40; discussion 841–2.

39. Klein C, Howaldt HP. Lengthening of the hypoplastic mandible

by gradual distraction in childhood--a preliminary report. J

Cranio-Maxillo-fac Surg Off Publ Eur Assoc Cranio-Maxillo-fac

Surg. 1995 Apr;23(2):68–74.

40. Klein C, Howaldt HP. Correction of mandibular hypoplasia by

means of bidirectional callus distraction. J Craniofac Surg.

1996 Jul;7(4):258–66.

41. McCarthy JG, Williams JK, Grayson BH, Crombie JS. Controlled

multiplanar distraction of the mandible: device development

and clinical application. J Craniofac Surg. 1998 Jul;9(4):322–9.

42. McCarthy JG, Staffenberg DA, Wood RJ, Cutting CB, Grayson

BH, Thorne CH. Introduction of an intraoral bone-lengthening

device. Plast Reconstr Surg. 1995 Sep;96(4):978–81.

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