东南大学学报(医学版)
東南大學學報(醫學版)
동남대학학보(의학판)
JOURNAL OF SOUTHEAST UNIVERSITY(MEDICAL SCIENCE EDITION)
2011年
1期
1-6
,共6页
许振%孟洁%张宇%常晓%边焱焱%孔桦%顾宁%许海燕
許振%孟潔%張宇%常曉%邊焱焱%孔樺%顧寧%許海燕
허진%맹길%장우%상효%변염염%공화%고저%허해연
纳米纤维支架%γ-Fe2O3/nHAP/PDLLA复合材料%Ⅰ型胶原%骨再生%兔
納米纖維支架%γ-Fe2O3/nHAP/PDLLA複閤材料%Ⅰ型膠原%骨再生%兔
납미섬유지가%γ-Fe2O3/nHAP/PDLLA복합재료%Ⅰ형효원%골재생%토
nanofibrous scaffold%composite of γ-Fe2O3/nHAP/PDLLA%type Ⅰ collagen%bone regeneration%rabbits
目的:研究一种新型顺磁性的纳米纤维复合支架γ-Fe2O3/nHAP/PDLLA在弱磁场下体内诱导新骨形成的功效.方法:纳米纤维复合材料支架通过电纺丝方法制成,支架内部的微观结构用扫描电镜(SEM)进行表征.将支架植入兔横突根部骨缺损处并在12周后处死动物,应用组织学方法研究支架在动物体内原位诱导新骨形成和胶原蛋白沉积的情况.结果:与对照的nHAP/PDLLA纳米纤维支架相比,磁性纳米纤维复合支架上有更多的Ⅰ型胶原沉积,新骨的生成量也明显增加.结论:磁性纳米纤维复合支架能够促进骨缺损部位的新骨生成,在引导骨组织再生与修复方面具有应用潜能.
目的:研究一種新型順磁性的納米纖維複閤支架γ-Fe2O3/nHAP/PDLLA在弱磁場下體內誘導新骨形成的功效.方法:納米纖維複閤材料支架通過電紡絲方法製成,支架內部的微觀結構用掃描電鏡(SEM)進行錶徵.將支架植入兔橫突根部骨缺損處併在12週後處死動物,應用組織學方法研究支架在動物體內原位誘導新骨形成和膠原蛋白沉積的情況.結果:與對照的nHAP/PDLLA納米纖維支架相比,磁性納米纖維複閤支架上有更多的Ⅰ型膠原沉積,新骨的生成量也明顯增加.結論:磁性納米纖維複閤支架能夠促進骨缺損部位的新骨生成,在引導骨組織再生與脩複方麵具有應用潛能.
목적:연구일충신형순자성적납미섬유복합지가γ-Fe2O3/nHAP/PDLLA재약자장하체내유도신골형성적공효.방법:납미섬유복합재료지가통과전방사방법제성,지가내부적미관결구용소묘전경(SEM)진행표정.장지가식입토횡돌근부골결손처병재12주후처사동물,응용조직학방법연구지가재동물체내원위유도신골형성화효원단백침적적정황.결과:여대조적nHAP/PDLLA납미섬유지가상비,자성납미섬유복합지가상유경다적Ⅰ형효원침적,신골적생성량야명현증가.결론:자성납미섬유복합지가능구촉진골결손부위적신골생성,재인도골조직재생여수복방면구유응용잠능.
Objective: To investigate the function of inducing bone regeneration of a novel paramagnetic nanofibrous composite scaffold of γ-Fe2O3/nHAP/PDLLA in vivo under a weak applied magnetic field. Methods: The scaffold was fabricated with the composite by electrospinning technique. The microstructure of the scaffold was characterized by scanning electron microscopy. The scaffold was implanted in defects at the root segment of the lumbar transverse process on a rabbit model. Bone tissue samples were collected after 12 weeks of implant surgery. New bone formation in the defects was assessed using histological analysis in reference to a control nanofibrous composite of nHAP/PDLLA. Deposition of type Ⅰ collagen fibers were examined by Sirius red staining. Results: There was new bone formation observed in the scaffold. Type Ⅰ collagen was deposited abundantly on the scaffold. Together all, the bone regeneration was enhanced obviously in comparison with that induced by control scaffold of nHAP/PDLLA. Conclusion: The scaffold of γ-Fe2O3/nHAP/PDLLA enhanced osteogenesis under a weak static magnetic field, and exhibited promising potential for use in bone repair.