纺织学报 ›› 2019, Vol. 40 ›› Issue (05): 170-176.doi: 10.13475/j.fzxb.20180406107
摘要:
为促进壳聚糖纤维在医疗和卫生产品中的应用,开发壳聚糖基功能纺织材料和先进医用纺织品,总结了壳聚糖纤维的理化特性及其吸附铜离子和锌离子的性能,分析了壳聚糖纤维的细胞活性、生物相容性及其在与伤口、血液、人体组织接触过程中产生的止血、抗菌、抑制基质金属蛋白酶、促进伤口愈合等生物活性。指出壳聚糖的氨基多糖结构及其对体液中金属离子的吸附性能使壳聚糖纤维和壳聚糖基纺织品在医用止血材料、伤口敷料、面膜制品、日用卫生品、抗菌纺织品等领域起到止血、抗菌、排毒、促愈、美白等生物活性和应用功效,具有很高的应用价值。
中图分类号:
[1] |
KAUR S, DHILLON G S. The versatile biopolymer chitosan: potential sources, evaluation of extraction methods and applications[J]. Crit Rev Microbiol, 2014,40(2):155-175.
doi: 10.3109/1040841X.2013.770385 pmid: 23488873 |
[2] | QIN Y. Medical Textile Materials[M]. New York: Elsevier, 2016: 89-107. |
[3] |
AGBOH O C, QIN Y. Chitin and chitosan fibers[J]. Polymers for Advanced Technologies, 1997,8:355-365.
doi: 10.1002/(ISSN)1099-1581 |
[4] |
JAYAKUMAR R, PRABAHARAN M, SUDHEESH KUMAR P T, et al. Biomaterials based on chitin and chitosan in wound dressing applications[J]. Biotechnology Advances, 2011,29:322-337.
doi: 10.1016/j.biotechadv.2011.01.005 pmid: 21262336 |
[5] |
JAYAKUMAR R, PRABAHARAN M, NAIR S V, et al. Novel chitin and chitosan nanofibers in biomedical applications[J]. Biotechnol Adv, 2010,28:142-150.
pmid: 19913083 |
[6] |
BORKOW G, GABBAY J, ZATCOFF R C. Could chronic wounds not heal due to too low local copper levels?[J]. Med Hypotheses, 2008,70(3):610-613.
doi: 10.1016/j.mehy.2007.06.006 pmid: 17689198 |
[7] | QIN Y. The chelating properties of chitosan fibers[J]. J Appl Polym Sci, 1993,49:727-733. |
[8] | QIN Y. The production of fibres from chitosan[D]. Leeds: University of Leeds, 1990: 25. |
[9] | 张海峰, 吕游, 王洪莎, 等. 硫酸锌对糖尿病皮肤损伤的修复作用[J]. 中国老年学杂志, 2016,36:5777-5780. |
ZHANG Haifeng, LÜ You, WANG Hongsha, et al. Effect of zinc sulfate on the healing of skin for diabetic patients[J]. Chinese Journal of Gerontology, 2016,36:5777-5780. | |
[10] | 程友, 黄金中, 杜江, 等. 甲壳胺无纺布的降解性及生物相容性观察[J]. 中国耳鼻咽喉颅底外科杂志, 2005,11(4):229-231. |
CHENG You, HUANG Jinzhong, DU Jiang, et al. In vitro and in vivo study of biodegradation and biocompatibility of chitosan nonwoven cloth[J]. Chinese Journal of Otorhinolaryngology-Skull Base Surgery, 2005,11(4):229-231. | |
[11] | 程友, 王秋萍, 薛飞, 等. PLGA/甲壳胺无纺布三维生物支架的安全性及组织相容性观察[J]. 实用医学杂志, 2007,23(18):2833-2835. |
CHENG You, WANG Qiuping, XUE Fei, et al. A study on the safety and biocompatibility of a novel scaffold[J]. Journal of Practical Medicine, 2007,23(18):2833-2835. | |
[12] | 闵翔, 唐敏健, 焦延鹏, 等. 壳聚糖/聚己内酯共混膜的制备及性能[J]. 中国组织工程研究与临床康复, 2011,15(21):3887-3890. |
MIN Xiang, TANG Minjian, JIAO Yanpeng, et al. Preparation and properties of chitosan/poly (ε-caprolactone) blend films[J]. Journal of Clinical Rehabilitative Tissue Engineering Research, 2011,15(21):3887-3890. | |
[13] | JAYAKUMAR R, PRABAHARAN M, NAIR S V, et al. Novel carboxymethyl derivatives of chitin and chitosan materials and their biomedical applications[J]. Progress in Materials Science, 2010,55:675-709. |
[14] | 丁勇, 徐锦堂, 陈剑, 等. 兔角膜缘上皮细胞在体外壳聚糖共混膜上的培养及生物学鉴定[J]. 暨南大学学报(自然科学与医学版), 2005,26(2):205-209. |
DING Yong, XU Jintang, CHEN Jian, et al. Primary culture and differentiation of rabbit limbal epithelial cells cultured on chitosan-collagen/chondroitin sulfate membrane in vitro[J]. Journal of Jinan University (Natural Science & Medicine Edition), 2005,26(2):205-209. | |
[15] | 张文达, 郑军华. 壳聚糖体外促进兔膀胱黏膜上皮细胞的增殖[J]. 第二军医大学学报, 2007,28(11):1248-1251. |
ZHANG Wenda, ZHENG Junhua. Chitosan promotes proliferation of rabbit bladder epithelial cells in-vitro[J]. Academic Journal of Second Military Medical University, 2007,28(11):1248-1251. | |
[16] | 杨红, 赵燕. 壳聚糖促进体外培养SD乳鼠视网膜神经细胞生长的初步研究[J]. 华中科技大学学报(医学版), 2010,39(1):116-119. |
YANG Hong, ZHAO Yan. Chitosan promoting the growth of in vitro cultured retinal nerve cells of SD baby rats[J]. Acta Medicinae Universitatis Scientiae et Technologiae Huazhong, 2010,39(1):116-119. | |
[17] |
HEINEMANN C, HEINEMANN S, BERNHARDT A, et al. Novel textile chitosan scaffolds promote spreading, proliferation, and differentiation of osteoblasts[J]. Biomacromolecules, 2008,9(10):2913-2920.
pmid: 18771318 |
[18] |
PIERRE G, SALAH R, GARDARIN C, et al. Enzymatic degradation and bioactivity evaluation of C-6 oxidized chitosan[J]. Int J Biol Macromol, 2013,60:383-392.
doi: 10.1016/j.ijbiomac.2013.06.025 pmid: 23817103 |
[19] | BUDIRAHARJO R, NEOH K G, KANG E T. Enhancing bioactivity of chitosan film for osteogenesis and wound healing by covalent immobilization of BMP-2 or FGF-2[J]. J Biomater Sci Polym Ed, 2013,24(6):645-662. |
[20] |
YANG L, ZAHAROFF D A. Role of chitosan co-formulation in enhancing interleukin-12 delivery and antitumor activity[J]. Biomaterials, 2013,34(15):3828-3836.
doi: 10.1016/j.biomaterials.2013.02.031 pmid: 23453060 |
[21] |
CUSTODIO C A, ALVES C M, REIS R L, et al. Immobilization of fibronectin in chitosan substrates improves cell adhesion and proliferation[J]. J Tissue Eng Regen Med, 2010,4(4):316-323.
doi: 10.1002/term.248 pmid: 20049746 |
[22] |
MICHALSKA M, KOZAKIEWICZ M, BODEK K H. Polymer angiogenic factor carrier: part I: Chitosan-alginate membrane as carrier PDGF-AB and TGF-beta[J]. Polim Med, 2008,38(4):19-28.
pmid: 19245081 |
[23] |
JIANG T, KUMBAR S G, NAIR L S, et al. Biologically active chitosan systems for tissue engineering and regenerative medicine[J]. Curr Top Med Chem, 2008,8(4):354-364.
pmid: 18393897 |
[24] |
SCHNEIDER A, VODOUHE C, RICHERT L, et al. Multifunctional polyelectrolyte multilayer films: combining mechanical resistance, biodegradability, and bioactivity[J]. Biomacromolecules, 2007,8(1):139-145.
doi: 10.1021/bm060765k pmid: 17206799 |
[25] |
LIEDER R, GAWARE V S, THORMODSSON F, et al. Endotoxins affect bioactivity of chitosan derivatives in cultures of bone marrow-derived human mesenchymal stem cells[J]. Acta Biomater, 2013,9(1):4771-4778.
doi: 10.1016/j.actbio.2012.08.043 pmid: 22947323 |
[26] | 石凉, 汪涛, 吴大洋. 壳聚糖止血材料及最新研究进展[J]. 蚕业科学, 2009,35(4):929-934. |
SHI Liang, WANG Tao, WU Dayang. The latest research progress on hemostatic properties of chito-san[J]. Acta Sericologica Sinca, 2009,35(4):929-934. | |
[27] | PUSATERI A E, HOLCOMB J B, KHEIRABADI B S, et al. Making sense of preclinical literature on advanced hemostatic products[J]. Trauma, 2006,60:674-682. |
[28] | MI F L, SHYU S S, WU Y B, et al. Fabrication and characterization of a sponge-like asymmetric chitosan membrane as a wound dressing[J]. Biomaterials, 2001,22(4):165-173. |
[29] | PUSATERI A E, MCCARTHY S J, GREGORY K W, et al. Effect of a chitosan based hemostatic dressing on blood loss and survival in a model of severe venous hemorrhage and hepatic injury in swine[J]. Trauma, 2003,54:177-182. |
[30] | MALETTE W G, QUIGLEY H J, GAINES R D, et al. Chitosan:a new hemostatic[J]. Ann Thorac Surg, 1983,36(1):55-58. |
[31] |
SEGAL H C, HUNT B J, GILDING K. The effects of alginate and non-alginate wound dressings on blood coagulation and platelet activation[J]. J Biomater Appl, 1998,12(3):249-257.
pmid: 9493071 |
[32] | 马军阳, 陈亦平, 李俊杰, 等. 甲壳素/壳聚糖止血机理及应用[J]. 北京生物医学工程, 2007,26(4):442-445. |
MA Junyang, CHEN Yiping, LI Junjie, et al. The hemostatic mechanism and applications of chitin/chitosan[J]. Bejing Biomedical Engineering, 2007,26(4):442-445. | |
[33] | 宋炳生, 李汉宝, 陈家英. 壳糖止血海绵的药效学研究[J]. 医学研究生学报, 2005,18(7):601-602. |
SONG Bingsheng, LI Hanbao, CHEN Jiaying. A pharmacological study of chitosan hemostatic sponge[J]. Journal of Medical Postgraduates, 2005,18(7):601-602. | |
[34] | 高金伟, 刘万顺, 韩宝琴. 壳聚糖基纤维止血效果研究[J]. 安徽农业科学, 2012,40(11):6458-6459. |
GAO Jinwei, LIU Wanshun, HAN Baoqin. Study of hemostatic effect of chitosan based fiber[J]. Journal of Anhui Agri Sci, 2012,40(11):6458-6459. | |
[35] | 冯小强, 李小芳, 杨声, 等. 壳聚糖抑菌性能影响因素、机理及其应用研究进展[J]. 中国酿造, 2009(1):19-23. |
FENG Xiaoqiang, LI Xiaofang, YANG Sheng, et al. Current research of antimicrobial mechanisms and applications of chitosan[J]. China Brewing, 2009 (1):19-23. | |
[36] | 刘雪梅, 朱艳丽. 甲壳胺体内外抑菌试验及其抑菌机理的研究[J]. 山东农业大学学报(自然科学版), 2008,39(3):365-370. |
LIU Xuemei, ZHU Yanli. Study of antibacterial susceptibility of chitosan and its mechanism[J]. Journal of Shandong Agricultural University (Natural Science Edition), 2008,39(3):365-370. | |
[37] | BOONKONG W, PETSOM A, THONGCHUL N. Rapidly stopping hemorrhage by enhancing blood clotting at an opened wound using chitosan/polylactic acid/polycaprolactone wound dressing device[J]. J Mater Sci (Mater Med), 2013,24:1581-1593. |
[38] |
AMIN M A, ABDEL-RAHEEM I T. Accelerated wound healing and anti-inflammatory effects of physically cross linked polyvinyl alcohol-chitosan hydrogel containing honey bee venom in diabetic rats[J]. Arch Pharm Res, 2014,37:1016-1031.
doi: 10.1007/s12272-013-0308-y pmid: 24293065 |
[39] | 张丽霞, 马建伟. 甲壳胺纤维抗菌试验性方法及影响因素的初步研究[J]. 山东纺织科技, 2002(2):1-3. |
ZHANG Lixia, MA Jianwei. Study on antibacterial test method and influencing factors of chitosan fiber[J].Shandong Textile Science and Technology, 2002(2):1-3. | |
[40] | 冯小强, 杨声, 李小芳, 等. 不同分子量壳聚糖对五种常见茵的抑制作用研究[J]. 天然产物研究与开发, 2008,20:335-338. |
FENG Xiaoqiang, YANG Sheng, LI Xiaofang, et al. Study on antibacterial activity of chitosan with different molecular weights to five common bacterium and mechanism[J]. Nat Prod Res Dev, 2008,20:335-338. | |
[41] |
PAVINATTO A, PAVINATTO F J, BARROS-TIMMONS A, et al. Electrostatic interactions are not sufficient to account for chitosan bioactivity[J]. ACS Appl Mater Interfaces, 2010,2(1):246-251.
doi: 10.1021/am900665z pmid: 20356241 |
[42] |
RABEA E I, BADAWY M E T, STEVEN C V, et al. Chitosan as antimicrobial agent: applications and mode of action[J]. Biomacromolecules, 2003,4(6):1457-1465.
doi: 10.1021/bm034130m pmid: 14606868 |
[43] | 魏莹, 赵耀华, 牛希华, 等. 甲壳质医用敷料在烧伤治疗中的应用[J]. 医药论坛杂志, 2004,25(7):58-59. |
WEI Ying, ZHAO Yaohua, NIU Xihua, et al. Applications of chitin wound dressing in burn wound treatment[J]. Journal of Medical Forum, 2004,25(7):58-59. | |
[44] |
JOHNSEN M, LUND L R, ROMER J, et al. Cancer invasion and tissue remodeling: common themes in proteolytic matrix degradation[J]. Curr Opin Cell Biol, 1998,10:667-671.
doi: 10.1016/s0955-0674(98)80044-6 pmid: 9818179 |
[45] |
MIGNATTI P, RIFKIN D B. Biology and biochemistry of proteinases in tumor invasion[J]. Physiol Rev, 1993,73:161-195.
doi: 10.1152/physrev.1993.73.1.161 pmid: 8419965 |
[46] |
MARTINS V L, CALEY M, O'TOOLE E A. Matrix metalloproteinases and epidermal wound repair[J]. Cell Tissue Res, 2013,351:255-268.
doi: 10.1007/s00441-012-1410-z pmid: 22526628 |
[47] |
GROSS J, LAPIERE C M. Collagenolytic activity in amphibian tissues: a tissue culture assay[J]. Proc Natl Acad Sci USA, 1962,48:1014-1022.
doi: 10.1073/pnas.48.6.1014 pmid: 13902219 |
[48] |
CHEN P, PARKS W C. Role of matrix metalloproteinases in epithelial migration[J]. J Cell Biochem, 2009,108:1233-1243.
doi: 10.1002/jcb.22363 pmid: 19798678 |
[49] |
OVERALL C M, LOPEZ-OTIN C. Strategies for MMP inhibition in cancer: innovations for the post-trialera[J]. Nat Rev Cancer, 2002,2:657-672.
doi: 10.1038/nrc884 pmid: 12209155 |
[50] | 李岱霖, 郑清川, 张红星, 等. 基质金属蛋白酶的新型抑制剂效能的理论研究[J]. 高等学校化学学报, 2009,30(8):1592-1595. |
LI Dailin, ZHENG Qingchuan, ZHANG Hongxing, et al. Theoretical studies on the potency of novel matrix metalloproteinases inhibitors[J]. Chemical Journal of Chinese Universities, 2009,30(8):1592-1595. | |
[51] | 房学迅, 杨金刚, 史秀娟. 来源于天然产物的基质金属蛋白酶(MMPs)抑制剂[J]. 化学进展, 2007,19(12):1991-1998. |
FANG Xuexun, YANG Jingang, SHI Xiujuan. Matrix metalloproteinase inhibitors from natural product[J]. Progress in Chemistry, 2007,19(12):1991-1998. | |
[52] | 朱世振, 邱波, 门海龙, 等. 壳聚糖/PCDNA3.1(t)CrmA对软骨细胞基质金属蛋白酶1及其抑制因子表达的影响[J]. 中华风湿病学杂志, 2014,18(12):828-831. |
ZHU Shizhen, QIU Bo, MEN Hailong, et al. Effect of chitosan/pCDNA3.1 (+) CrmA on matrix metalloproteinase-1 and tissue inhibitor of metalloproteinase-1 expressions of chondrocytes induced by interleukin-1β[J]. Chinese Journal of Rheumatology, 2014,18(12):828-831. | |
[53] | 王海斌, 刘世清, 彭昊, 等. 高脱乙酰度羧甲基壳聚糖对兔骨关节炎软骨MMP-1,3表达的作用[J]. 武汉大学学报(医学版), 2005,26(1):21-24. |
WANG Haibin, LIU Shiqing, PENG Hao. Effect of intra-articular high deacetylating of carboxymethychitosan injection on degenerative cartilage of experimental rabbit osteoarthritis[J]. Medical Journal of Wuhan University, 2005,26(1):21-24. | |
[54] | 陈煜, 窦桂芳, 罗运军, 等. 甲壳素和壳聚糖在伤口敷料中的应用[J]. 高分子通报, 2005(2):94-100. |
CHEN Yu, DOU Guifang, LUO Yunjun, et al. Application of chitin and chitosan in the wound dressing[J].Polymer Bulletin, 2005(2):94-100. | |
[55] | 刘亚, 贺丹丹. 甲壳质水刺医用敷料的开发研究[J]. 非织造布, 2005,13(4):28-31. |
LIU Ya, HE Dandan. Research and development of chitin spunlaced medical dressing[J]. Nonwovens, 2005,13(4):28-31. | |
[56] | 王华明, 王江. 壳聚糖伤口敷料的研究进展[J]. 华南热带农业大学学报, 2007,13(2):48-53. |
WANG Huaming, WANG Jiang. Research progress of chitosan in wound dressing[J]. Journal of South China University of Tropical Agriculture, 2007,13(2):48-53. | |
[57] | 何静, 刘彦群. 壳聚糖与伤口愈合[J]. 徐州医学院学报, 2001,21(3):255-258. |
HE Jing, LIU Yanqun. Chitosan and wound healing[J]. Acta Academiae Medicinae Xuzhou, 2001,21(3):255-258. | |
[58] |
UENO H, YAMADA H, TANAKA I, et al. Accelerating effects of chitosan for healing at early phase of experimental open wound in dogs[J]. Biomaterials, 1999,20(15):1407-1414.
doi: 10.1016/s0142-9612(99)00046-0 pmid: 10454012 |
[59] | ALI S A M, SHAH F, HAMLYN P F, et al. Bioactive fibres for enhanced wound-healing[J]. J Text Inst, 2003,94(3):42-45. |
[60] | FRANCESKO A, TZANOV T. Chitin, chitosan and derivatives for wound healing and tissue engi-neering[J]. Adv Biochem Engin/Biotechnol, 2011,125:1-27. |
[61] | KINGKAEW J, KIRDPONPATTARA S, SANCHAVANAKIT N, et al. Effect of molecular weight of chitosan on antimicrobial properties and tissue compatibility of chitosan-impregnated bacterial cellulose films[J]. Biotechnology and Bioprocess Engineering, 2014,19:534-544. |
[62] | 李珂, 张福卿, 孙淼, 等. 甲壳胺治疗溃疡期压疮效果观察[J]. 护理学杂志, 2007,22(11):47-48. |
LI Ke, ZHANG Fuqing, SUN Miao, et al. Obervation of chitosan on the healing of pressure sores[J]. Journal of Nursing, 2007,22(11):47-48. | |
[63] | OHSHIMA Y, NISHINO K, YONEKURA Y, et al. Clinical application of chitin nonwoven fabric as wound dressing[J]. Eur J Plast Surg, 1987,10:66-69. |
[64] | 冯丽, 赫英娟, 张全明, 等. 甲壳胺对伤口愈合作用的观察[J]. 齐齐哈尔医学院学报, 2008,29(10):1258. |
FENG Li, HE Yingjuan, ZHANG Quanming, et al. Observation on the wound healing effect of chitosan[J]. Journal of Qiqihar Medical College, 2008,29(10):1258. |
[1] | 韩佳蕊, 黄珍珍, 王佳珺, 殷淏, 高晶, 劳继红, 王璐. 医用敷料用柔性金属电极的制备及其细胞毒性分析[J]. 纺织学报, 2020, 41(09): 174-182. |
[2] | 秦益民. 含银海藻酸盐医用敷料的临床应用[J]. 纺织学报, 2020, 41(09): 183-190. |
[3] | 刘雷艮, 沈忠安, 林振锋, 陶金. 聚乳酸/ 壳聚糖/ Fe3 O4 超细纤维膜对酸性蓝MTR 的吸附性能及机制[J]. 纺织学报, 2020, 41(05): 20-24. |
[4] | 郑宏飞, 汪瑞琪, 汪庆, 朱莹, 许云辉. 氧化壳聚糖改性抗菌蚕丝织物的制备及其性能[J]. 纺织学报, 2020, 41(05): 121-128. |
[5] | 王浩, 杜兆芳, 许云辉. 氧化壳聚糖/丝胶复合物的制备及其对棉织物的功能整理[J]. 纺织学报, 2019, 40(11): 119-124. |
[6] | 张治斌, 李刚, 毛森贤, 厉巽巽, 陈玉霜, 毛青山, 李翼, 潘志娟, 王晓沁. 丝素蛋白/壳聚糖微球制备及其抗菌性能[J]. 纺织学报, 2019, 40(10): 7-12. |
[7] | 吴娇, 于湖生, 万兴云, 田平, 李慧敏, 侯晓欣. 抗菌防螨防霉功能改性粘胶纤维的制备及其性能[J]. 纺织学报, 2019, 40(07): 19-23. |
[8] | 林永佳, 杨董超, 张佩华, 顾岩. 再生丝素蛋白/脱细胞真皮基质共混纳米纤维膜的制备及其性能[J]. 纺织学报, 2019, 40(07): 13-18. |
[9] | 魏娜 康卫民 孙诚 程博闻. 静电纺核-壳纳米包装膜的制备及其抗菌性能[J]. 纺织学报, 2018, 39(12): 13-17. |
[10] | 付译鋆 安琪 张伟 张瑜 柯惠珍. 壳聚糖基纳米纤维载药体系及其缓释行为[J]. 纺织学报, 2018, 39(12): 7-12. |
[11] | 俞俭 逄增媛 魏取福. 聚苯胺/壳聚糖/羊毛复合织物导电性能及苯胺吸附分子模拟[J]. 纺织学报, 2018, 39(12): 95-100. |
[12] | 王勃翔 刘丽 路艳华 李金华 张松 汪刘才 韩思杰 刘禹辰 . 互穿聚合物网络温敏凝胶对棉织物液态水分传递的影响[J]. 纺织学报, 2018, 39(11): 79-84. |
[13] | 王亚 黄菁菁 张如全 . 艾蒿油-壳聚糖抗菌微胶囊的制备及其应用[J]. 纺织学报, 2018, 39(10): 99-103. |
[14] | 车秋凌 辛梅华 李明春 陈帅. 季铵化改性壳聚糖在羊毛织物酸性染料染色中的应用[J]. 纺织学报, 2018, 39(10): 86-92. |
[15] | 张博亚 李佳慧 张如全 李建强. 静电纺聚丙烯腈/硫酸铜纳米纤维膜的制备及其性能[J]. 纺织学报, 2018, 39(07): 15-20. |
|