ABSTRACT
BACKGROUND:Alveolar bone remodeling and sustained absorption due to tooth extraction seriously affect the implanting conditions and morphology of hard and soft tissue in implant zone. OBJECTIVE:To evaluate the effect of nano-hydroxyapatite/polycaprolactone electrospinning scaffolds to improve the osteogenic effect of bone defects around immediate implants. METHODS:Tissue-engineered bone was prepared by combining canine bone marrow mesenchymal stem cels with nano-hydroxyapatite/polycaprolactone electrospinning scaffold. Bilateral mandibular second premolars from six dogs were extracted mandibular second premolar, and an immediate implant was placed in the mesial fossa of the mandibular second premolar. Three-wal bone defects was made buccaly using titanium nails, then tissue-engineered bone and Bio-Oss bone powders were implanted bilateraly covered by colagen membranes (Bio-Gide). Imageology examination was performed to measure bone gray levels immediately, 4, 8, 12 weeks after surgery. After 12 weeks, the mandible was removed completely, toluidine blue staining was used for observation of microstructure, new bone formation, bone morphology and implant osseointegration. RESULTS AND CONCLUSION: Between the two groups, there was no difference in bone mineral density at each time point after surgery, indicating that the effects of the two materials to promote bone regeneration process are basicaly the same. After implantation, the dense lamelar bone formed in the bone defect region of tissue-engineered bone group, mature bone cels, Haversian canal, and implant osseointegration were visible. While, in the Bio-Oss group, the lamelar bone was dense, a smal amount of Bio-Oss particles distributed within new bone tissues, fewer bone cels were found, a part of Haversian canal was shown to have blood capilaries, and new bone was in close conjunction with the implant. These findings indicate that the nano-hydroxyapatite/polycaprolactone electrospinning scaffold combined with bone marrow mesenchymal stem cels and Bio-Gide colagen membrane can promote the regeneration of alveolar bone around the implant.
ABSTRACT
Stomatology is an applied science,and experimental teaching plays an important role in training renovation talents.A complete construction of the laboratory system is a complex systematic project,which requires the right teaching conception,advanced experimental instruments,high-quality teachers of laboratory,the optimization of the teaching contents,as well as highly efficient operating mechanism and management approach.It is also a process of exploration and innovation.
ABSTRACT
AIM: To establish the quality control standard for Compound Dingfengzhitong Capsule (Radix Notoginseng, Radix Saposhnikoviae, Radix Angelicae Dahuricae). METHODS: Radix Saposhnikoviae, Radix Angelicae Dahuricae in capsule were identified by TLC, and the content of ginsenoside R g1 was determined by HPLC. RESULTS: Radix Saposhnikoviae, Radix Angelicae Dahuricae could be identified by TLC. The Ginsenoside R g1 showed a good linear relationship at a range of 0.5286?g~26.43?g, r=0.9999(n=6) , the average recovery was 99.94%, and RSD was 1.34%( n =9). CONCLUSION: The method is accurate with the good reproducibility and can be used for the quality control of Compound Dingfengzhitong Capsules.