中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2013年
16期
2905-2912
,共8页
林晓华%黎志超%俞金龙%肖钟%邹兆伟%黄宗海%王晓东%莫小慧
林曉華%黎誌超%俞金龍%肖鐘%鄒兆偉%黃宗海%王曉東%莫小慧
림효화%려지초%유금룡%초종%추조위%황종해%왕효동%막소혜
生物材料%生物材料与药物控释%新型生物敷料%纳米银%海藻酸纤维%抗菌%吸湿%细胞毒性%扫描电子显微镜
生物材料%生物材料與藥物控釋%新型生物敷料%納米銀%海藻痠纖維%抗菌%吸濕%細胞毒性%掃描電子顯微鏡
생물재료%생물재료여약물공석%신형생물부료%납미은%해조산섬유%항균%흡습%세포독성%소묘전자현미경
biomaterials%biomaterials and control ed drug release%novel biological dressings%nano-silver%alginate fiber%antibacterial%moisture absorption%cytotoxicity%scanning electron microscope
背景:细菌感染是影响伤口愈合的主要因素之一,伤口渗出液里含有的大量炎症因子、蛋白酶和自由基都会减缓伤口的愈合速度.新型复合生物抗菌敷料的研发对治疗外科感染伤口有重要的意义,是创伤敷料发展的必然趋势.
目的:观察添加纳米银的海藻酸钙敷料的抗菌活性、吸湿能力及细胞毒性.
方法:将纳米银材料添加到海藻酸钙中制备新型复合生物抗菌敷料,并通过使用平板计数法、MTT法、电子显微镜观察法观察敷料的抗菌活性、吸湿能力及细胞毒性,再与银离子海藻酸钙敷料和海藻酸钙敷料进行对比,以期显示出新型复合生物抗菌敷料的具有强抗菌性及低细胞毒性的优势.
结果与结论:与银离子海藻酸钙敷料和海藻酸钙敷料相比,添加纳米银的新型复合生物抗菌敷料对金黄色葡萄球菌、铜绿假单胞菌均有更强的抑菌作用(P<0.01),细胞毒性较低(P<0.01);3种敷料的吸湿能力差异无显著性意义.证实此添加纳米银的海藻酸钙敷料的具有强抗菌性及低细胞毒性.
揹景:細菌感染是影響傷口愈閤的主要因素之一,傷口滲齣液裏含有的大量炎癥因子、蛋白酶和自由基都會減緩傷口的愈閤速度.新型複閤生物抗菌敷料的研髮對治療外科感染傷口有重要的意義,是創傷敷料髮展的必然趨勢.
目的:觀察添加納米銀的海藻痠鈣敷料的抗菌活性、吸濕能力及細胞毒性.
方法:將納米銀材料添加到海藻痠鈣中製備新型複閤生物抗菌敷料,併通過使用平闆計數法、MTT法、電子顯微鏡觀察法觀察敷料的抗菌活性、吸濕能力及細胞毒性,再與銀離子海藻痠鈣敷料和海藻痠鈣敷料進行對比,以期顯示齣新型複閤生物抗菌敷料的具有彊抗菌性及低細胞毒性的優勢.
結果與結論:與銀離子海藻痠鈣敷料和海藻痠鈣敷料相比,添加納米銀的新型複閤生物抗菌敷料對金黃色葡萄毬菌、銅綠假單胞菌均有更彊的抑菌作用(P<0.01),細胞毒性較低(P<0.01);3種敷料的吸濕能力差異無顯著性意義.證實此添加納米銀的海藻痠鈣敷料的具有彊抗菌性及低細胞毒性.
배경:세균감염시영향상구유합적주요인소지일,상구삼출액리함유적대량염증인자、단백매화자유기도회감완상구적유합속도.신형복합생물항균부료적연발대치료외과감염상구유중요적의의,시창상부료발전적필연추세.
목적:관찰첨가납미은적해조산개부료적항균활성、흡습능력급세포독성.
방법:장납미은재료첨가도해조산개중제비신형복합생물항균부료,병통과사용평판계수법、MTT법、전자현미경관찰법관찰부료적항균활성、흡습능력급세포독성,재여은리자해조산개부료화해조산개부료진행대비,이기현시출신형복합생물항균부료적구유강항균성급저세포독성적우세.
결과여결론:여은리자해조산개부료화해조산개부료상비,첨가납미은적신형복합생물항균부료대금황색포도구균、동록가단포균균유경강적억균작용(P<0.01),세포독성교저(P<0.01);3충부료적흡습능력차이무현저성의의.증실차첨가납미은적해조산개부료적구유강항균성급저세포독성.
@@@@BACKGROUND:Bacterial infection is one of the main factors affecting wound healing. Wound exudate containing large amount of inflammatory cytokines, proteases and free radicals wil delay wound healing. Research and development of new compound biological antimicrobial dressings have important implications for treating surgery wound infection, which is the inevitable trend of the development of wound dressings. @@@@OBJECTIVE:To observe the antibacterial activity, moisture absorption capacity and cytotoxicity of calcium alginate dressing containing nanocrystal ine silver. @@@@METHODS:Silver nanoparticles were added into calcium alginate to prepare new compound biological antimicrobial dressings. The antibacterial activity, moisture absorption capacity and cytotoxicity of calcium alginate dressing containing nanocrystal ine silver were detected using the plate count method, 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide method, electron microscope experiment, compared with silver ion calcium alginate dressing and calcium alginate dressing, in the hope of showing the strong antimicrobial activity and low cytotoxicity of new compound biological antimicrobial dressings. @@@@RESULTS AND CONCLUSION:The new compound biological nano-silver antimicrobial dressing, compared with the silver ion calcium alginate dressing and calcium alginate dressing, had stronger bacteriostasis to Staphylococcus aureus and Pseudomonas aeruginosa (P<0.01), and exhibited lower cytotoxicity (P<0.01). There occurred no significant differences in moisture absorption capacity among the three groups (P>0.05). It is proved that the new compound biological nano-silver antimicrobial dressing has stronger antibacterial activity and lower cytotoxicity.
