The effects of bone regeneration in rabbit calvarial defect with particulated and block type of hydroxyapatite |
Gu, Sun-Ja
(Department of Periodontology, Research institute of periodontal regeneration, College of Dentistry, Yonsei University)
Sohn, Joo-Yeon (Department of Periodontology, Research institute of periodontal regeneration, College of Dentistry, Yonsei University) Lim, Hyun-Chang (Department of Periodontology, Research institute of periodontal regeneration, College of Dentistry, Yonsei University) Um, Yoo-Jung (Department of Periodontology, Research institute of periodontal regeneration, College of Dentistry, Yonsei University) Jung, Ui-Won (Department of Periodontology, Research institute of periodontal regeneration, College of Dentistry, Yonsei University) Kim, Chang-Sung (Department of Periodontology, Research institute of periodontal regeneration, College of Dentistry, Yonsei University) Lee, Yong-Keun (Department and Research Institute of Dental Biomaterials and Bioengineering, College of Dentistry, Yonsei University) Choi, Seong-Ho (Department of Periodontology, Research institute of periodontal regeneration, College of Dentistry, Yonsei University) |
1 | Pinholt EM, Solheim E, Bang G, Sudmann E. Bone induction by composites of bioresorbable carriers and demineralized bone in rats: a comparative study of fibrin-collagen paste, fibrin sealant, and polyorthoester with gentamicin. J Oral Maxillofac Surg 1992;50:1300-1304 DOI ScienceOn |
2 | Haas R, Mailath G, Dortbudak O, Watzek G. Bovine hydroxyapatite for maxillary sinus augmentation: Analysis of interfacial bond strength of dental implants using pull-out tests. Clin Oral Implants Res 1998;9:117-122 DOI ScienceOn |
3 | Carranza FA Jr, Kennedy EB, Lekovic V, Taltmante E, Valencia J, Dimitrijevic B. Histologic study of the healing of human periodontal defect after placement of porous hydroxyapatite implants. J Periodontol 1987;58:682-688 DOI PUBMED |
4 | Stahl SS. Froum SJ. Histologic evaluation of human intraosseous healing response to the placement of tricalcium phosphate ceramic implant. J Periodontol 1986;57:211-217 DOI PUBMED |
5 | de Bruijn JD, van Blitterswijk CA, Davies JE. Initial bone matrix formation at the hydroxyapatite interface in vivo. J Biomed Mater Res 1995;29:89-99 PUBMED |
6 | Cerroni L, Filocamo R, Fabbri M, Piconi C, Caropresso S, Condo SG. Growth of osteoblast like cells on porous htdroxyapatite ceramics: an in vitro study. Biomol Eng 2002;19:119-124 DOI ScienceOn |
7 | Ducheyne P, Qiu Q. Bioactive ceramics: the effect of surface reactivity on bone formation and bone cell function. Biomaterials 1999;20:2287-2303 DOI ScienceOn |
8 | Moskow BS, Bubarr A. Histological assessment of human periodontal defects after durapatite ceramic implants. J Periodontol 1983;54:455-462 |
9 | Tsuruga E, Takita H, Itoh H, Wakisaka Y, Kuboki Y. Pore size of porous hydroxyapatite as the cell substatum controls BMP-induced osteogenesis. J Biochem 1997;121:317-324 DOI PUBMED ScienceOn |
10 | Cavalcanti SC, Pereira CL, Mazzonetto R, de Moraes M, Moreira RW. Histological and histomorphometric analyses of calcium phosphate cement in rabbit calvaria. J Craniomaxillofac Surg. 2008;36:354-359 DOI PUBMED ScienceOn |
11 | Monroe EA, Votava W, Bass DB. New calcium phosphate ceramic material for bone and tooth implants. J Dent Res 1971;50:860-861 DOI PUBMED ScienceOn |
12 | Zaffe D, Leghissa GC, Pradelli J, Botticelli AR. Histological study on sinus lift grafting by Fisiograft and Bio-Oss. J Mater Sci Mater Med 2005;16:789-793 DOI ScienceOn |
13 | Jung-Yoo Choi, Gyung-Joon Chae, Chang-Sung Kim et al, The effects of novel biodegradable amorphorous calcium phosphate on bone regeneration in rat calvarial defects, J Korean Acad Periodontol 2007;37:871-879 DOI |
14 | Mellonig JT. Periodontal bone graft technique. Int J Periodontics Restorative Dent 1990;10:288-299 PUBMED |
15 | Somerman MJ. Is there a role for DFDBA in periodontal regenerative therapy? J Periodontol 1996;67:946-948 DOI PUBMED ScienceOn |
16 | Schwartz Z, Somer A, Mellonig JT, Carnes DL Jr, Dean DD, Cochran DL, Boyan BD. Ability of commercial demineralized freeze-dried bone allograft to induce new bone formation is dependent on age but not gender. J Periodontol 1998;69:470-478 DOI PUBMED ScienceOn |
17 | Fabbi M, Celotti GC, Ravaglioli A. Hydroxyapatite-based porous aggregates -physicochemical nature, structure, texture and architecture. Biomaterials 1995;16:225-228 DOI ScienceOn |
18 | Hiatt WH, Schallhorn RG. Intraoral transplants of cancellous bone and marrow in periodontal lesions. J Periodontol 1973;44:194-208 DOI PUBMED |
19 | Carmagnola D, Berglundh T, Lindhe J. The effect of a fibrin glue on the integration of Bio-Oss with bone tissue. A experimental study in Labrador dogs. J Clin Periodontol 2002;29:377-383 DOI ScienceOn |
20 | Reynolds MA, Aichelmann-Reidy ME, Branch-Mays GL, Gunsolley JC. The efficacy of bone replacement grafts in the treatment of periodontal osseous defects. A systematic review. Ann Periodontol 2003;8:227-265 DOI ScienceOn |
21 | Kwang-Ho Lee, Hyun-Seon Jang, Joo-Cheol Park et al, Bone formation effects of HA/β-TCP composite powder in rabbit calvarial bone defects: Histologic study. J Korean Acad Periodontol 2006;36:1-14 DOI |
22 | Yukna RA, Harrison BG, Caudill RF. Evaluation of durapatite ceramic as an alloplastic implant in periodontal osseous defects. Twelve month reentry results. J Periodontol 1985;56:540-547 DOI PUBMED |
23 | Lundgren D, Nyman S, Mathisen T, et al. Guided bone regeneration of cranial defects, using biodegradable barriers: an experimental pilot study in the rabbit. J Craniomaxillofacial Surg 1992;20:257-260 DOI |
24 | Yoo-Jung Um, Ji-Yeon Hong, Sung-Tae Kim et al. Bone formation of newly developed biphasic calcium phosphate in rabbit calvarial defect model: pilot study. J Korean Acad Periodontol 2008;38:163-170 |
25 | Artzi Z, Nemcovsky CE, Dayan D. Bovine-HA spongiosa blocks and immediate implant placement in sinus augmentation procedures. Histopathological and histomorphometric observations on different histological stainings in 10 consecutive patients. Clin Oral Implants Res 2002;13:420-427 DOI ScienceOn |
26 | Yildrim M, Spiekermann H, Handt A, Edelhoff D. Maxillary sinus augmentation with the xenograft Bio-Oss and autogenous intraoral bone for qualitative improvement of the implant site: a histological and histomorphometric clinical study in humans. Int J Oral Maxillofac Implants 2001;16:23-33 PUBMED |
27 | Hoexter DL. Bone regeneration graft materials. J Oral Implantol 2002;28:290-294 DOI ScienceOn |
28 | Scarano A, Pecora G, Piattelli M. Osseointegration in a sinus augmented with bovine porous bone mineral: histological results in an implant retrieved 4 years after insertion. A case report. J Periodontol 2004;75:1161-1166 DOI ScienceOn |
29 | Yildirim M, Spiekermann H, Biesterfeld S, Edelhoff D. Maxillary sinus augmentation using xenogenic bone substitute material Bio-Oss in combination with venous blood. A histologic and histomorphometric study in humans. Clin Oral Implants Res 2000;11:217-229 DOI ScienceOn |
30 | Pinholt EM, Bang G, Haanaes HR. Alveolar ridge augmentation in rats by Bio-Oss. Scand J Dent Res 1991;99:154-161 PUBMED |
31 | Gauthier O, Bouler JM, Aguado E, Pilet P, Daculsi G. Macroporous biphasic calcium phosphate ceramics: influence of macropore diameter and macroporosity percentage on bone ingrowth. Biomaterials 1998;19:133-139 DOI ScienceOn |