Cellular activity and guided bone regenerative effect of drug-loaded biodegradable membranes.
10.5051/jkape.1997.27.1.129
- Author:
Won Kyeong KIM
1
;
Sang Mook CHOI
;
Chong Pyoung CHUNG
;
Soo Boo HAN
;
Young Hyuk KWON
;
Seung Jin LEE
Author Information
1. Department of Periodontology, College of Dentistry, Seoul National University and Dental Research Institute, Korea.
- Publication Type:Original Article
- Keywords:
drug-loaded biodegradable membrane;
guided bone regeneration;
flurbiprofen;
PDGF-BB;
tetracycline
- MeSH:
Animals;
Bone Regeneration;
Chromatography, High Pressure Liquid;
Fibroblasts;
Flurbiprofen;
Kinetics;
Membranes*;
Rats;
Skin;
Survival Rate;
Tetracycline
- From:The Journal of the Korean Academy of Periodontology
1997;27(1):129-150
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
The purpose of this study was to evaluate the effects of tetracycline(TC), flurbiprofen, and PDGF-BB loaded biodegradable membranes on the cell-attachment, the activity of loaded PDGF-BB, in vivo release kinetics, and guided bone regenerative potentials. To evaluate the cell attachment to membranes, the number of gingival fibroblasts attached to each membrane(10% TC, 10% flurbiprofen, 200ng/cm2 PDGF-BB loaded membranes, drug-unloaded membrane) was counted by coulter counter and the morphologic pattern of attached cells was examined under SEM. To determine whether the activity of loaded PDGF-BB is sustained, the cellular growth and survival rate of gingival fibroblasts was used for both standard PDGF-BB and loaded PDGF-BB. For evaluation of in vivo release kinetics, drug-loaded membranes were implanted on the dorsal skin of the rats. On 1, 3, 7, 10, 14, 21, and 28 days after implantation, the amount of remaining drugs were measured by HPLC assay for TC and flurbiprofen, and by gamma-scintillation counter for PDGF-BB(I125). For evaluation of guided regenerative potential, the amount of new bone in the calvarial defects(5mm in diameter) of the rat was measured by histomorphometry 1 and 2 weeks after implantation of membranes. The number of cells attached to the PDGF-BB loaded membrane was largest as compared with the other membranes.(p<0.05) The activity of loaded PDGF-BB was not significantly different from the activity of standard PDGF-BB.(p< 0.05) After initial burst release of drug during the first 24 hours, drugs were gradually released for 4 weeks. Especially the release rate of PDGF-BB was nearly constant during 4 weeks. PDGF-BB loaded membranes(200, 400ng/cm2) were effective in guided bone regeneration as compared with drug-unloaded membrane. These results implicate that drug-loaded biodegradable membranes might be a useful for guided bone regeneration.
