医学信息
醫學信息
의학신식
MEDICAL INFORMATION
2014年
19期
88-89
,共2页
李建忠%吴凡%汪健%张志培%闫小龙%梁兵%高峰%马朝晖%李小飞
李建忠%吳凡%汪健%張誌培%閆小龍%樑兵%高峰%馬朝暉%李小飛
리건충%오범%왕건%장지배%염소룡%량병%고봉%마조휘%리소비
深低温冷冻法%酶洗法%组织工程气管支架%细胞外基质
深低溫冷凍法%酶洗法%組織工程氣管支架%細胞外基質
심저온냉동법%매세법%조직공정기관지가%세포외기질
Deep freezing method%Enzyme method%Tissue engineering tracheal stent%Extracellular matrix
目的探讨深低温冷冻与酶洗法制备的兔组织工程同种异体气管支架在去除抗原性、维持生物力学及保护细胞外基质方面的效果差别。方法18只成年新西兰兔随机分为气管未处理作为对照A组,实验B组通过深低温冷冻法处理,实验C组通过酶洗法处理,各组样本数均为6。将各组标本处理后,光镜观察行HE染色后标本,戊二醛固定后电镜扫描,测量并记录气管最大拉伸力、破裂力和变异率等生物力学性能。结果光镜观察显示A组有大量完整的气管粘膜上皮细胞;实验B组可见部分气管粘膜上皮细胞;实验C组标本未见上皮细胞,且细胞核碎裂。对照A与实验B组在电镜显示,气管支架可见丰富的细胞基质,未暴露胶原纤维;实验C组见较少细胞外基质,胶原纤维暴露。组间两两比较,气管支架的最大拉伸力、最大破裂力和变异率均无统计学差异。结论综合组织学、扫面电镜和生物力学分析,应用深低温冷冻法制备的气管支架可较好的保留细胞外基质,但不能有效的去除抗原;通过酶洗法制备气管支架可以有效地去除抗原,但未能保留较完整的细胞外基质。
目的探討深低溫冷凍與酶洗法製備的兔組織工程同種異體氣管支架在去除抗原性、維持生物力學及保護細胞外基質方麵的效果差彆。方法18隻成年新西蘭兔隨機分為氣管未處理作為對照A組,實驗B組通過深低溫冷凍法處理,實驗C組通過酶洗法處理,各組樣本數均為6。將各組標本處理後,光鏡觀察行HE染色後標本,戊二醛固定後電鏡掃描,測量併記錄氣管最大拉伸力、破裂力和變異率等生物力學性能。結果光鏡觀察顯示A組有大量完整的氣管粘膜上皮細胞;實驗B組可見部分氣管粘膜上皮細胞;實驗C組標本未見上皮細胞,且細胞覈碎裂。對照A與實驗B組在電鏡顯示,氣管支架可見豐富的細胞基質,未暴露膠原纖維;實驗C組見較少細胞外基質,膠原纖維暴露。組間兩兩比較,氣管支架的最大拉伸力、最大破裂力和變異率均無統計學差異。結論綜閤組織學、掃麵電鏡和生物力學分析,應用深低溫冷凍法製備的氣管支架可較好的保留細胞外基質,但不能有效的去除抗原;通過酶洗法製備氣管支架可以有效地去除抗原,但未能保留較完整的細胞外基質。
목적탐토심저온냉동여매세법제비적토조직공정동충이체기관지가재거제항원성、유지생물역학급보호세포외기질방면적효과차별。방법18지성년신서란토수궤분위기관미처리작위대조A조,실험B조통과심저온냉동법처리,실험C조통과매세법처리,각조양본수균위6。장각조표본처리후,광경관찰행HE염색후표본,무이철고정후전경소묘,측량병기록기관최대랍신력、파렬력화변이솔등생물역학성능。결과광경관찰현시A조유대량완정적기관점막상피세포;실험B조가견부분기관점막상피세포;실험C조표본미견상피세포,차세포핵쇄렬。대조A여실험B조재전경현시,기관지가가견봉부적세포기질,미폭로효원섬유;실험C조견교소세포외기질,효원섬유폭로。조간량량비교,기관지가적최대랍신력、최대파렬력화변이솔균무통계학차이。결론종합조직학、소면전경화생물역학분석,응용심저온냉동법제비적기관지가가교호적보류세포외기질,단불능유효적거제항원;통과매세법제비기관지가가이유효지거제항원,단미능보류교완정적세포외기질。
Objective This study mainly focused on finding out the optimal method to obtaine rabbit histological engineering tracheal matrix between cryoapplication and detergent-enzymatic. Methods 18 adult rabbits were divided into 3 groups (each n =6), and group A were not treated as control group,groupB was treated with the method of cryopreservation,group C was treated with detergent-enzymatic method. HE dyes and scanning electron microscopy were used to observe the morphology and ultrastructure of the treated tracheal matrices. The biomechanical properties including maximum tensile force, rupture force and aberration rate of the treated tracheal matrices were measured. Results There were a lot of epithelial cells in the tracheas of group A and some epithelial cells in the tracheas of group B.But the tracheas of group C could not be seen complete epithelial cells. Under scanning electron microscopy,there were abundant extracellular matrix and col agen fiber in group A, B and C. Final y, no statistical dif erences were found in the maximum tensile force, rupture force and aberration rate of al groups. Conclusion The method of cryopreservation could retain abundant extracellular matrix and col agen fiber for tracheal stent. Howevr,this way can not remove the antigen. The method of enzymatic, by which the antigen can be removed, and extracellular matrix,but it can not retain a lot of extracellular matrix.
