Ricky W K Wong1, A Bakr M Rabie. 1. Department of Orthodontics, University of Hong Kong, Prince Philip Dental Hospital, Sai Ying Pun, Hong Kong. fyoung@hkucc.hku.hk
Abstract
PURPOSE: We compared the amount of new bone produced by Gusuibu in collagen grafts to that produced by bone grafts and collagen grafts. MATERIALS AND METHODS: Twenty bone defects were created in the parietal bone of 14 New Zealand White rabbits. In the experimental group, 5 defects were grafted with Gusuibu extract mixed with absorbable collagen sponge, and 5 defects were grafted with autogenous endochondral bone. In the control groups, 5 defects were grafted with absorbable collagen sponge alone (active control) and 5 were left empty (passive control). Animals were killed on day 14 and the defects were dissected and prepared for histologic assessment. Serial sections were cut across each defect. Quantitative analysis of new bone formation was made on 150 sections using image analysis. RESULTS: A total of 24% and 90% more new bone were present in defects grafted with Gusuibu in collagen grafts than those grafted with bone and collagen, respectively. No bone was formed in the passive control group. CONCLUSIONS: Gusuibu in collagen grafts have the effect of increased new bone formation locally and can be used as a bone graft material.
PURPOSE: We compared the amount of new bone produced by Gusuibu in collagen grafts to that produced by bone grafts and collagen grafts. MATERIALS AND METHODS: Twenty bone defects were created in the parietal bone of 14 New Zealand White rabbits. In the experimental group, 5 defects were grafted with Gusuibu extract mixed with absorbable collagen sponge, and 5 defects were grafted with autogenous endochondral bone. In the control groups, 5 defects were grafted with absorbable collagen sponge alone (active control) and 5 were left empty (passive control). Animals were killed on day 14 and the defects were dissected and prepared for histologic assessment. Serial sections were cut across each defect. Quantitative analysis of new bone formation was made on 150 sections using image analysis. RESULTS: A total of 24% and 90% more new bone were present in defects grafted with Gusuibu in collagen grafts than those grafted with bone and collagen, respectively. No bone was formed in the passive control group. CONCLUSIONS: Gusuibu in collagen grafts have the effect of increased new bone formation locally and can be used as a bone graft material.
Authors: Vicente F Pinheiro Neto; Rachel M Ribeiro; Camila S Morais; Matheus B Campos; Denilson A Vieira; Porfírio C Guerra; Ana L Abreu-Silva; José R Silva Junior; Flavia Raquel F Nascimento; Marilene O R Borges; Antonio C R Borges Journal: BMC Complement Altern Med Date: 2017-07-04 Impact factor: 3.659