Browse > Article

Role of the periosteum on bone regeneration in rabbit calvarial defects  

Jang, Hyun-Seon (Dept. of Periodontology, College of Dentistry, Chosun University, Oral Biology Research Institute, College of Dentistry, Chosun University)
Kim, Sang-Mok (Dept. of Periodontology, College of Dentistry, Chosun University)
Park, Joo-Cheol (Dept. of Oral Histology, College of Dentistry, Chosun University, Oral Biology Research Institute, College of Dentistry, Chosun University)
Kim, Byung-Ock (Dept. of Periodontology, College of Dentistry, Chosun University, Oral Biology Research Institute, College of Dentistry, Chosun University)
Publication Information
Journal of Periodontal and Implant Science / v.35, no.4, 2005 , pp. 939-948 More about this Journal
Abstract
The role of the periosteum on osteointegration of $Bio-Oss^{(R)}$(Geistlich, Wolhusen/Switzerland) was studied in rabbit calvarial defect. 12 New Zealand white male rabbits between 2.8 and 4 kg were included in this randomized, blinded, prospective study. Each rabbit was anesthetized with Ketamine HCl(5 mg/kg) and Xylazine HCl(1.5 ml/kg). An incision was made to the bony cranium and the periosteum was reflected. Using a 6-mm trephine bur(3i. USA), four 8-mm defects were created with copious irrigation. The defects were classified into barrier membrane($Tefgen^{(R)}$, Lifecore Biomedical. Inc, U.S.A.) only group as a control, $Bio-Oss^{(R)}$ with barrier membrane group, $Bio-Oss^{(R)}$ with periosteum covering group, and $Bio-Oss^{(R)}$ without periosteum covering group. There were 2 rabbits in each group. The wound was closed with resorbable suture materials. Rabbits were sacrificed using phentobarbital(100 mg/kg) intravenously at 1, 2, and 4 weeks after surgery. The samples were fixed in 4% paraformaldehyde, and decalcified in hydrochloric acid decalcifying solution(Fisher Scientific, Tustin, CA) at $4^{\circ}C$ for 2-4 weeks. It was embedded in paraffin and cut into 6 ${\mu}m$ thickness. The sections were stained with H & E and observed by optical microscope. The results were as follows; 1. The periosteum played an important role in osteointegration of $Bio-Oss^{(R)}$ in bone defects. 2. When the periosteum remained intact and $Bio-Oss^{(R)}$ was placed on the defect, $Bio-Oss^{(R)}$ with periosteum covering has been incorporated into the newly formed bone from 2-week postoperatively. 3. When the periosteum was removed at the surgical procedure, invasion of connective tissue took place among the granules, and new bone formation was delayed compared to periosteum covering group. Therefore, when the bone grafting was performed with periosteal incision procedure to achieve tension-free suture, the integrity of the overlying periosteum should be maintained to avoid fibrous tissue ingrowth.
Keywords
periosteum; bone regeneration;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Sawae Y, Kawana F, Sahara T. Effects of enamel matrix derivative on mineralized tissue formation during bone wound healing in rat parietal bone defects. Electron Microsc. 2002:51:413-423   DOI   ScienceOn
2 Wiese KG, Merten HA. The role of the periosteum in osteointegration of hydroxyapatite granules. lnt. J. Oral Maxillofac. Surg. 1993:22:306-308   DOI   ScienceOn
3 Busher D, Ingimarsson S, Dula K. et al. Long term stability of osseointegrated implants in augmented Bone: A 5-year prospective study in partially edentulous patients. lnt J Periodontics Restorative Dent. 2002: 22: 108-117
4 Donos N. Lang P. Karoussis K. et al. The effect of GBR in combination with deproteinized bovine bone mineral and/ or enamel matrix proteins on the healing of critical-size defects. Clinical oral Implants Res. 2004: 15: 101-111   DOI   ScienceOn
5 Khalid A. Bone graft substitutes: A comparative qualitative histologic review of current osteoconductive grafting materials. Int J Oral Maxillofac Implants. 2001: 16: 105-114
6 Lindhe J. Karring T. Lang NP. Clinical periodontology and implant dentistry. 4th ed. Blackwell. Munksgaard. 2003: 3-49
7 Calhoun NR, Neiderw ME, Greene GW. Effects of plaster of paris implants in surgical defects of mandibular alveolar processes of dogs. J Oral Surg, 1967: 25: 122   PUBMED
8 Cohen J. Lacroix P. Bone and cartilage formation by periosteum. J. Bone Joint Surg. 1955:37(4):717-730   DOI
9 Kawana F, Sawae Y, Sahara T. Porcine enamel matrix derivative enhances trabecular bone regeneration during wound healing of injured rat femur. Anat Rec. 2001 : 264: 438-446   DOI   ScienceOn
10 Risila VS, Alhopuro S, Rintala A. A bone formation with free periosteum. An experimental study. Scand J Plast Reconst Surg, 1972:6:51-56   DOI
11 Proussaefs P, Lozada J, Kleinman A. The use of titanium-mesh in conjunction with autogenous bone graft and inorganic bovine bone mineral (Bio-Oss) for localized alveolar ridge augmentation: A human study. lnt J Periodontics Restorative Dent. 2003: 23: 185-195
12 Corneline R, Scarano A, Piattelli M. Effects of enamel matrix derivative (EMDOGAIN) on bone defects in rabbit tibias. J Oral implantol, 2004:30;69-73   DOI   ScienceOn
13 Stojilijkovic Z. Capak D. Mircetic R. The role of the periosteum in the healing of the dog's Muller plate treated femur fracture. Vet Med(Praha). 1994: 39(8): 435-442   PUBMED
14 Gottlow J, Nyman S, Lindhe J, Karring T, Wennstrom J. New attachment formation in the human periodontium by guided tissue regeneration. J Clin Periodont 1989:13:604-614   DOI   PUBMED
15 Gross JS. Bone grafting materials for dental applications: A practical guide. Compendium. 1997: 18(10): 1013-1036
16 Donos N, Kostopoulos L, Karring T. Alveolar ridge augmentation by combinating autogenous mandibular bone grafts and non-resorbable membranes. An experimental study in the rats. Clin Oral Imp Res, 2002: 13: 185-191   DOI   ScienceOn
17 Nevins ML, Camel M, Nevins MC. et al. Human histologic evaluation of bioactive ceramic in the treatment of periodontal Osseous Defects. Int J Periodontics Restorative Dent. 2000:20:459-467
18 김영균, 여환호. 치아회분과 석고를 혼합하여 제작한 block의 inlay 매식 후 치유과정에 관한 실험적 연구. 대한악안면성형재건외과학회지. 1996:18(2):253
19 Parma-Benfenati S, Tinti C, Albrektsson T, Johansson C, Histologic evaluation of guided vertical ridge augmentation around implants in humans, Int J Periodontics Restorative Dent. 1999: 19:425-437
20 Simion M, Scarano A, Gionso L. Guided bone regeneration using resorbable and nonresorbable membranes: A comparative histologic stidy in humans. Int. J. Oral Maxillofac Implants. 1996:11:735-742
21 임동웅. 장현선. 박주철 등. 혈소판 농축 혈장과 혼합된 이종골 이식재(Bio-Oss$^{\circledR}$)가 토끼 두개골 결손부 초기 치유에 미치는 영향. 대한치주과학회지. 2005: 35(1) :217-234
22 Melcher AH, Accursi GE. Osteogenic capacity of periosteal and osteoperiosteal flaps elevated from the parietal bone of the rat. Archs oral Biol. 1971: 16:573-580   DOI   ScienceOn
23 Norman D, Reis D, Zinman C, Misselevich I, Boss JH. Vascular deprivation- induced necrosis of the femoral head of the rat. An experimental model of avascular osteonecrosis in the skeletally immature individual or Legg-Perthes disease. Int J Exp Pathol. 1998: 79(3): 173-81   DOI   ScienceOn
24 Coetzee AS. Regeneration of bone in the presence of calcium sulfate. Arch Otolarygol. 1980: 106:405   DOI   ScienceOn
25 Simion M. Trisi P. Piattelli A. Vertical ridge augmentation using a membrane technique associated with osseointegrated implants. Int J Periodontics Restorative Dent. 1994: 14:497-511
26 Risila V, Alhopuro S, Rintala A. Bone formation with free periosteal grafts in reconstruction of congenital maxillary clefts. Ann Chir Gynaecol. 1976: 65: 342-351   PUBMED
27 Berglundh T. Lindhe. J. Healing around implants placed in bone defects treated with Bio-$Oss^{\circledR}$. 1997:8:117-124   DOI   ScienceOn
28 김유석. 장현선. 박주철 등. 법랑기질 단백질 유도체와 혼합된 이종골 이식재가 토끼 두개골 결손부의 초기 치유에 미치는 영향. 대한치주과학회지. 2005:35(1):199-216
29 김수관, 여환호, 조재오. 백서에서 치아회분말과 치과용 연석고의 혼합매식술시 골막의 역할 : 실험적 연구. 대한악안면성형재건외과학회지. 1997:19(3):319-331