胶原基生物补片及其抗钙化研究进展
|
摘要
文章阐述了胶原基生物补片基材、其作用机制和不同来源生物补片的特点,以及生物材料钙化成因和机制。从表面活性剂处理、离子竞争抑制、封闭残余游离醛基、京尼平交联、环氧化合物处理等方面阐述了抗钙化的方法及进展。
引文
[1]JIANG Long,LIU Chang,XUE Song,et al.The progress of biological mesh in clinical application[J].Progress in Modern Biomedicine,2015,15(8):1577-1581.[姜龙,刘昶,薛松,等.生物补片的临床应用进展[J].现代生物医学进展,2015,15(8):1577-1581.]
[2]LI Zhe,ZHANG Lan-jun.Progress in the study of tissue adhesion and anti-adhesion of surgical patch[J].Guangdong Medical Journal,2010,31(21):2861-2862.[李喆,张兰军.外科补片的组织粘连与抗粘连性研究进展[J].广东医学,2010,31(21):2861-2862.]
[3]YANG Kai,LIU Chang.Advance on clinical application and research of biological mesh[J].Medical Recapitulate,2015,21(11):1951-1953.[杨凯,刘昶.生物补片的临床应用及研究进展[J].医学综述,2015,21(11):1951-1953.]
[4]ZHANG Jian,WANG Qiang.Advances of research on biological mesh[J].Journal of Surgery Concepts&Practice,2010,15(6):680-682.[张剑,王强.生物补片和相关研究进展[J].外科理论与实践,2010,15(6):680-682.]
[5]SUN Li,CHEN Jie,SHEN Ying-mo,et al.Application of biologic mesh in the treatment of inguinal hernia[J].Chinese Journal of Practical Surgery,2017,37(11):1223-1227.[孙立,陈杰,申英末,等.生物补片在腹股沟疝治疗中应用[J].中国实用外科杂志,2017,37(11):1223-1227.]
[6]WANG Xing-biao,GONG Ke.The application and progress of abdominal wall herniation patch[J].Chinese Journal of Minimally Invasive Surgery,2011,11(11):1034-1038.[王行表,宫轲.腹壁疝补片的应用及进展[J].中国微创外科杂志,2011,11(11):1034-1038.]
[7]SONG Bing,LIU De-bin,GAO Bai-shun.Progress in calcification and anticalcification research on tissue cardiac valve repair substitutes[J].International Journal of Biomedical Engineering,2010,33(5):301-304,316-316.[宋兵,柳德斌,高百顺.心脏瓣膜修复材料钙化和抗钙化研究进展[J].国际生物医学工程杂志,2010,33(5):301-304,316-316.]
[8]SHI Shu-ping,WU Xing.Research progress of calcification and anti-calcification of implanted silicone rubber[J].International Journal of Biomedical Engineering,2014,37(1):57-60.[石书萍,吴幸.外科植入硅橡胶材料钙化及抗钙化研究进展[J].国际生物医学工程杂志,2014,37(1):57-60.]
[9]Fishbein M,Levy R,Ferrans VJ,et al.Calcification of cardiac valve bioprostheses.Histologic,ultrastructural,and biochemical studies in a subcutaneous implantation model system[J].J Thorac Cardiovasc Surg,1982,83(4):602-609.
[10]Levy RJ,Schoen FJ,Anderson HC,et al.Cardiovascular implant calcification:a survey and update[J].Biomaterials,1991,12(8):707-714.
[11]Gott JP,Pan-Chih,Dorsey LM,et al.Calcification of porcine valves:a successful new method of antimineralization[J].Ann Thorac Surge,1992,53(2):207-215,216-216.
[12]Carpentier A,Nashef A,Carpentier S,et al.Techniques for prevention of calcification of valvular bioprostheses[J].Circulation,1984,70(3 Pt 2):I165-I168.
[13]JIN Lei,ZHU Xiao-dong,SONG Lai-feng,et al.The relationship between calcification and proteoglycan in bovine pericardium[J].Chinese Circulation Journal,1991,6(5):347-350.[金磊,朱晓东,宋来凤,等.牛心包组织的钙化与蛋白聚糖的关系[J].中国循环杂志,1991,6(5):347-350.]
[14]Neethling WM,Meyer JM,Duyvenéde Wit LJ.The effect of potassium phosphate,magnesium chloride and T6 as blocking reagents on tissue valve calcification[J].J Cardiovasc Surg(Torino),1989,30(3):317-321.
[15]Webb CL,Phelps LL,Schoen FJ,et al.Aminodiphosphonate or AI preincubation inhibits calcification of aortic homografts in the rat subdermal model[J].ASAIO Trans,1988,34(3):851-854.
[16]Webb CL,Flowers WE,Horton C,et al.Long-term efficacy of Al3+for prevention of bioprosthetic heart valve calcification[J].ASAIO J,1990,36(3):M408-M410.
[17]Levy RJ,Hawley MA,Schoen FJ,et al.Inhibition by diphosphonate compounds of calcification of porcine bioprosthetic heart valve cusps implanted subcutaneously in rats[J].Circulation,1985,71(2):349-356.
[18]LONG Long,CHEN Sheng-xi,GONG Guang-fu,et al.Research on the anti-calcification feature of 2,3-butanediol post-treatment for glutaraldehyde tanned bovine pericardium[J].China Journal of Modern Medicine,2001,11(8):46-47.[龙隆,陈胜喜,龚光甫,等.醇对戊二醛鞣制的牛心包防钙化改性的实验研究[J].中国现代医学杂志,2001,11(8):46-47.]
[19]ZHANG Jing-chao,ZHAO Wen-zeng.Comparison on the anti-calcification feature of ethanol and 2,3-butanediol post-treatment for glutaraldehyde tanned bovine jugular vein conduit[J].Shandong Medical Journal,2006,46(15):9-11.[张竞超,赵文增.乙醇、丁二醇改性对牛颈静脉的抗钙化作用[J].山东医药,2006,46(15):9-11.]
[20]Jeong S,Yoon EJ,Lim HG,et al.The effect of space fillers in the cross-linking processes of bioprosthesis[J].Biores Open Access,2013,2(2):98-106.
[21]WANG Jian-guang,LIU Tian-qi,WANG Xue-mei,et al.Comparison of genipin-and glutaraldehyde-tanned bovine pericardia[J].Journal of Shandong University:Health Science,2011,49(5):24-28.[王建光,刘天起,王雪梅,等.京尼平与戊二醛鞣制牛心包材料的对比研究[J].山东大学学报:医学版,2011,49(5):24-28.]
[22]Murayama Y,Satoh S,Oka T,et al.Reduction of the antigenicity and immunogenicity of xenografts by a new crosslinking reagent[J].ASAIO J,1988,34(3):546-546.
[23]Okoshi T,Noishiki Y,Tomizawa Y,et al.Long-term results of a new antithrombogenic cardiac wall substitute[J].ASAIO Trans,1989,35(3):391-395.
[24]WEI Xu-feng,YI Ding-hua,SU Xue-jia,et al.In vitro calcium deposition of biovalve material treated by epoxy chloropropane[J].Chinese Journal of Clinical Rehabilitation,2005,9(11):116-117.[魏旭峰,易定华,宿学家,等.环氧氯丙烷处理生物瓣膜材料的体外钙沉积实验[J].中国临床康复,2005,9(11):116-117.]
[25]SU Xue-jia,ZHANG Hui-ying,YI Ding-hua,et al.Effect of acel ular canine valve pretreated with epichlorohydrin on anti-calcification[J].Health World,2014,(12):45-47.[宿学家,张慧颖,易定华,等.环氧氯丙烷预处理去细胞猪主动脉瓣防钙化作用实验研究[J].医药前沿,2014,(12):45-47.]
[26]GAO Li-chun.Research on epithelial cells and cartilage cells transplanted by allogenic trachea through photo-oxidation reaction handling profound hypothermia[D].Hengyang:University of South China,2014.[高立春.光氧化反应深低温处理同种异体气管移植的上皮细胞和软骨细胞研究[D].衡阳:南华大学,2014.]
[27]WANG Ye-feng,LIU Feng,HU Ye-rong,et al.The in vitro evaluation of the mechanics and anti-calcification feature of bovine pericardium with different treatment[J].Chinese Journal of Biomedical Engineering,2008,27(6):937-941.[王野峰,刘锋,胡野荣,等.不同方法处理牛心包的体外力学和抗钙化性能评价[J].中国生物医学工程学报,2008,27(6):937-941.]
[2]LI Zhe,ZHANG Lan-jun.Progress in the study of tissue adhesion and anti-adhesion of surgical patch[J].Guangdong Medical Journal,2010,31(21):2861-2862.[李喆,张兰军.外科补片的组织粘连与抗粘连性研究进展[J].广东医学,2010,31(21):2861-2862.]
[3]YANG Kai,LIU Chang.Advance on clinical application and research of biological mesh[J].Medical Recapitulate,2015,21(11):1951-1953.[杨凯,刘昶.生物补片的临床应用及研究进展[J].医学综述,2015,21(11):1951-1953.]
[4]ZHANG Jian,WANG Qiang.Advances of research on biological mesh[J].Journal of Surgery Concepts&Practice,2010,15(6):680-682.[张剑,王强.生物补片和相关研究进展[J].外科理论与实践,2010,15(6):680-682.]
[5]SUN Li,CHEN Jie,SHEN Ying-mo,et al.Application of biologic mesh in the treatment of inguinal hernia[J].Chinese Journal of Practical Surgery,2017,37(11):1223-1227.[孙立,陈杰,申英末,等.生物补片在腹股沟疝治疗中应用[J].中国实用外科杂志,2017,37(11):1223-1227.]
[6]WANG Xing-biao,GONG Ke.The application and progress of abdominal wall herniation patch[J].Chinese Journal of Minimally Invasive Surgery,2011,11(11):1034-1038.[王行表,宫轲.腹壁疝补片的应用及进展[J].中国微创外科杂志,2011,11(11):1034-1038.]
[7]SONG Bing,LIU De-bin,GAO Bai-shun.Progress in calcification and anticalcification research on tissue cardiac valve repair substitutes[J].International Journal of Biomedical Engineering,2010,33(5):301-304,316-316.[宋兵,柳德斌,高百顺.心脏瓣膜修复材料钙化和抗钙化研究进展[J].国际生物医学工程杂志,2010,33(5):301-304,316-316.]
[8]SHI Shu-ping,WU Xing.Research progress of calcification and anti-calcification of implanted silicone rubber[J].International Journal of Biomedical Engineering,2014,37(1):57-60.[石书萍,吴幸.外科植入硅橡胶材料钙化及抗钙化研究进展[J].国际生物医学工程杂志,2014,37(1):57-60.]
[9]Fishbein M,Levy R,Ferrans VJ,et al.Calcification of cardiac valve bioprostheses.Histologic,ultrastructural,and biochemical studies in a subcutaneous implantation model system[J].J Thorac Cardiovasc Surg,1982,83(4):602-609.
[10]Levy RJ,Schoen FJ,Anderson HC,et al.Cardiovascular implant calcification:a survey and update[J].Biomaterials,1991,12(8):707-714.
[11]Gott JP,Pan-Chih,Dorsey LM,et al.Calcification of porcine valves:a successful new method of antimineralization[J].Ann Thorac Surge,1992,53(2):207-215,216-216.
[12]Carpentier A,Nashef A,Carpentier S,et al.Techniques for prevention of calcification of valvular bioprostheses[J].Circulation,1984,70(3 Pt 2):I165-I168.
[13]JIN Lei,ZHU Xiao-dong,SONG Lai-feng,et al.The relationship between calcification and proteoglycan in bovine pericardium[J].Chinese Circulation Journal,1991,6(5):347-350.[金磊,朱晓东,宋来凤,等.牛心包组织的钙化与蛋白聚糖的关系[J].中国循环杂志,1991,6(5):347-350.]
[14]Neethling WM,Meyer JM,Duyvenéde Wit LJ.The effect of potassium phosphate,magnesium chloride and T6 as blocking reagents on tissue valve calcification[J].J Cardiovasc Surg(Torino),1989,30(3):317-321.
[15]Webb CL,Phelps LL,Schoen FJ,et al.Aminodiphosphonate or AI preincubation inhibits calcification of aortic homografts in the rat subdermal model[J].ASAIO Trans,1988,34(3):851-854.
[16]Webb CL,Flowers WE,Horton C,et al.Long-term efficacy of Al3+for prevention of bioprosthetic heart valve calcification[J].ASAIO J,1990,36(3):M408-M410.
[17]Levy RJ,Hawley MA,Schoen FJ,et al.Inhibition by diphosphonate compounds of calcification of porcine bioprosthetic heart valve cusps implanted subcutaneously in rats[J].Circulation,1985,71(2):349-356.
[18]LONG Long,CHEN Sheng-xi,GONG Guang-fu,et al.Research on the anti-calcification feature of 2,3-butanediol post-treatment for glutaraldehyde tanned bovine pericardium[J].China Journal of Modern Medicine,2001,11(8):46-47.[龙隆,陈胜喜,龚光甫,等.醇对戊二醛鞣制的牛心包防钙化改性的实验研究[J].中国现代医学杂志,2001,11(8):46-47.]
[19]ZHANG Jing-chao,ZHAO Wen-zeng.Comparison on the anti-calcification feature of ethanol and 2,3-butanediol post-treatment for glutaraldehyde tanned bovine jugular vein conduit[J].Shandong Medical Journal,2006,46(15):9-11.[张竞超,赵文增.乙醇、丁二醇改性对牛颈静脉的抗钙化作用[J].山东医药,2006,46(15):9-11.]
[20]Jeong S,Yoon EJ,Lim HG,et al.The effect of space fillers in the cross-linking processes of bioprosthesis[J].Biores Open Access,2013,2(2):98-106.
[21]WANG Jian-guang,LIU Tian-qi,WANG Xue-mei,et al.Comparison of genipin-and glutaraldehyde-tanned bovine pericardia[J].Journal of Shandong University:Health Science,2011,49(5):24-28.[王建光,刘天起,王雪梅,等.京尼平与戊二醛鞣制牛心包材料的对比研究[J].山东大学学报:医学版,2011,49(5):24-28.]
[22]Murayama Y,Satoh S,Oka T,et al.Reduction of the antigenicity and immunogenicity of xenografts by a new crosslinking reagent[J].ASAIO J,1988,34(3):546-546.
[23]Okoshi T,Noishiki Y,Tomizawa Y,et al.Long-term results of a new antithrombogenic cardiac wall substitute[J].ASAIO Trans,1989,35(3):391-395.
[24]WEI Xu-feng,YI Ding-hua,SU Xue-jia,et al.In vitro calcium deposition of biovalve material treated by epoxy chloropropane[J].Chinese Journal of Clinical Rehabilitation,2005,9(11):116-117.[魏旭峰,易定华,宿学家,等.环氧氯丙烷处理生物瓣膜材料的体外钙沉积实验[J].中国临床康复,2005,9(11):116-117.]
[25]SU Xue-jia,ZHANG Hui-ying,YI Ding-hua,et al.Effect of acel ular canine valve pretreated with epichlorohydrin on anti-calcification[J].Health World,2014,(12):45-47.[宿学家,张慧颖,易定华,等.环氧氯丙烷预处理去细胞猪主动脉瓣防钙化作用实验研究[J].医药前沿,2014,(12):45-47.]
[26]GAO Li-chun.Research on epithelial cells and cartilage cells transplanted by allogenic trachea through photo-oxidation reaction handling profound hypothermia[D].Hengyang:University of South China,2014.[高立春.光氧化反应深低温处理同种异体气管移植的上皮细胞和软骨细胞研究[D].衡阳:南华大学,2014.]
[27]WANG Ye-feng,LIU Feng,HU Ye-rong,et al.The in vitro evaluation of the mechanics and anti-calcification feature of bovine pericardium with different treatment[J].Chinese Journal of Biomedical Engineering,2008,27(6):937-941.[王野峰,刘锋,胡野荣,等.不同方法处理牛心包的体外力学和抗钙化性能评价[J].中国生物医学工程学报,2008,27(6):937-941.]