中国组织工程研究与临床康复
中國組織工程研究與臨床康複
중국조직공정연구여림상강복
JOURNAL OF CLINICAL REHABILITATIVE TISSUE ENGINEERING RESEARCH
2010年
16期
2903-2906
,共4页
郑钧元%唐明%邓旭亮%杨小平%张慎%李晓霞
鄭鈞元%唐明%鄧旭亮%楊小平%張慎%李曉霞
정균원%당명%산욱량%양소평%장신%리효하
明胶%β-磷酸三钙%聚乳酸%聚丙交酯/乙交酯%引导组织再生%静电纺丝%生物相容性
明膠%β-燐痠三鈣%聚乳痠%聚丙交酯/乙交酯%引導組織再生%靜電紡絲%生物相容性
명효%β-린산삼개%취유산%취병교지/을교지%인도조직재생%정전방사%생물상용성
背景:以往有很多学者通过发泡法将β-磷酸三钙与明胶复合得到引导组织再生材料,但将其采用静电纺丝技术制成纤维膜的报道很少.目的:制备新型引导组织再生膜,并比较其与聚乳酸,聚丙交酯/乙交酯膜的细胞毒性.方法:采用静电纺丝法制备β-磷酸三钙/明胶引导组织再生膜,通过扫描电子显微镜对纤维膜表面进行观察.通过MTT实验对电纺β-磷酸三钙/明胶膜与聚乳酸,聚丙交酯/乙交酯膜的细胞毒性进行对比.结果与结论:新型电纺β-磷酸三钙/明胶膜为多孔状,β-磷酸三钙颗粒呈结节状附着在明胶纤维表面,纤维直径平均为400~500 nm,分布比较集中,大多在200~500 nm之间.与聚乳酸,聚丙交酯/乙交酯膜及阴性对照之间细胞毒性差异无显著性意义(P>0.05).说明新型电纺β-磷酸三钙/明胶引导组织再生膜细胞毒性较低,基本符合生物材料安全性的要求,有望成为新型的引导组织再生膜材料之一.
揹景:以往有很多學者通過髮泡法將β-燐痠三鈣與明膠複閤得到引導組織再生材料,但將其採用靜電紡絲技術製成纖維膜的報道很少.目的:製備新型引導組織再生膜,併比較其與聚乳痠,聚丙交酯/乙交酯膜的細胞毒性.方法:採用靜電紡絲法製備β-燐痠三鈣/明膠引導組織再生膜,通過掃描電子顯微鏡對纖維膜錶麵進行觀察.通過MTT實驗對電紡β-燐痠三鈣/明膠膜與聚乳痠,聚丙交酯/乙交酯膜的細胞毒性進行對比.結果與結論:新型電紡β-燐痠三鈣/明膠膜為多孔狀,β-燐痠三鈣顆粒呈結節狀附著在明膠纖維錶麵,纖維直徑平均為400~500 nm,分佈比較集中,大多在200~500 nm之間.與聚乳痠,聚丙交酯/乙交酯膜及陰性對照之間細胞毒性差異無顯著性意義(P>0.05).說明新型電紡β-燐痠三鈣/明膠引導組織再生膜細胞毒性較低,基本符閤生物材料安全性的要求,有望成為新型的引導組織再生膜材料之一.
배경:이왕유흔다학자통과발포법장β-린산삼개여명효복합득도인도조직재생재료,단장기채용정전방사기술제성섬유막적보도흔소.목적:제비신형인도조직재생막,병비교기여취유산,취병교지/을교지막적세포독성.방법:채용정전방사법제비β-린산삼개/명효인도조직재생막,통과소묘전자현미경대섬유막표면진행관찰.통과MTT실험대전방β-린산삼개/명효막여취유산,취병교지/을교지막적세포독성진행대비.결과여결론:신형전방β-린산삼개/명효막위다공상,β-린산삼개과립정결절상부착재명효섬유표면,섬유직경평균위400~500 nm,분포비교집중,대다재200~500 nm지간.여취유산,취병교지/을교지막급음성대조지간세포독성차이무현저성의의(P>0.05).설명신형전방β-린산삼개/명효인도조직재생막세포독성교저,기본부합생물재료안전성적요구,유망성위신형적인도조직재생막재료지일.
BACKGROUND: In the past, guided tissue regeneration materials were produced by 13-tricalcium phosphate (β-TCP) and gelatin (Gel), but the production of fiber membrane by electro-spinning technique was reported less.OBJECTIVE: To prepare a new kind of Gel with β-TCP hybrid nanofibrous membrane and testing its biocompatibility compared with polylactic acid (PLLA) and poly(lactide-co-glycolide) (PLGA) membrane.METHODS: The β-TCP/Gel guided tissue regeneration membrane was made by electro-spinning technique.Scanning electron microscopy (SEM) was employed to observe membrane surface.MTT test was performed to compare toxicity among β-TCP/Gel,PLLA, and PLGA membranes.RESULTS AND CONCLUSION: The β-TCP/Gel membrane was porous, and β-TCP granules were nodosity-adhered on surface of Gel.The average diameter of fiber was 500-600 nm.The distribution of fiber ranged from 200 to 500 nm.There was no significant difference in toxicity among PLLA, PLGA, and negative control group (P > 0.05).The results suggested that the β-TCP /Gel membrane was low cytotoxicity and suitable for tissue engineering.It would be a promising material for periodontal tissue regeneration.