军事医学
軍事醫學
군사의학
BULLETIN OF THE ACADEMY OF MILITARY MEDICAL SCIENCES
2014年
5期
337-340
,共4页
张瑞斐%黄迅悟%孙继桐%李洪敏%包二平%朱森
張瑞斐%黃迅悟%孫繼桐%李洪敏%包二平%硃森
장서비%황신오%손계동%리홍민%포이평%주삼
关节结核%人工关节假体%细菌黏附%粗糙度%接触角
關節結覈%人工關節假體%細菌黏附%粗糙度%接觸角
관절결핵%인공관절가체%세균점부%조조도%접촉각
joint tuberculosis%artificial joint prosthesis%bacterial adhesion%roughness%contact angle
目的:探讨不同人工关节假体材料表面物理特性对结核分枝杆菌( MTB )黏附的影响。方法以表面抛光涂层、钛涂层和羟基磷灰石涂层为实验材料,对材料进行表面形貌分析以及表面粗糙度、接触角和表面能的测定。选用MTB为研究菌株,体外共培养法培养,通过扫描电镜对MTB的形态、在材料表面的黏附情况和黏附量进行观察。综合评价人工关节假体材料的表面物理特性对细菌增殖和黏附的影响。结果钛涂层和羟基磷灰石涂层材料表面为疏水性材料,抛光涂层为亲水性材料,接触角及表面能存在显著性差异(P<0.05)。细菌培养过程中3种材料菌液的D值无显著性差异(P>0.05)。 MTB在钛涂层介面黏附量最多,羟基磷灰石涂层次之,抛光涂层介面最低,且各种材料间差异有统计学意义(P<0.05)。结论 MTB在人工关节假体材料表面的黏附与其表面物理特性有关,在粗糙度高及疏水性低的材料表面有较高的黏附性。
目的:探討不同人工關節假體材料錶麵物理特性對結覈分枝桿菌( MTB )黏附的影響。方法以錶麵拋光塗層、鈦塗層和羥基燐灰石塗層為實驗材料,對材料進行錶麵形貌分析以及錶麵粗糙度、接觸角和錶麵能的測定。選用MTB為研究菌株,體外共培養法培養,通過掃描電鏡對MTB的形態、在材料錶麵的黏附情況和黏附量進行觀察。綜閤評價人工關節假體材料的錶麵物理特性對細菌增殖和黏附的影響。結果鈦塗層和羥基燐灰石塗層材料錶麵為疏水性材料,拋光塗層為親水性材料,接觸角及錶麵能存在顯著性差異(P<0.05)。細菌培養過程中3種材料菌液的D值無顯著性差異(P>0.05)。 MTB在鈦塗層介麵黏附量最多,羥基燐灰石塗層次之,拋光塗層介麵最低,且各種材料間差異有統計學意義(P<0.05)。結論 MTB在人工關節假體材料錶麵的黏附與其錶麵物理特性有關,在粗糙度高及疏水性低的材料錶麵有較高的黏附性。
목적:탐토불동인공관절가체재료표면물리특성대결핵분지간균( MTB )점부적영향。방법이표면포광도층、태도층화간기린회석도층위실험재료,대재료진행표면형모분석이급표면조조도、접촉각화표면능적측정。선용MTB위연구균주,체외공배양법배양,통과소묘전경대MTB적형태、재재료표면적점부정황화점부량진행관찰。종합평개인공관절가체재료적표면물리특성대세균증식화점부적영향。결과태도층화간기린회석도층재료표면위소수성재료,포광도층위친수성재료,접촉각급표면능존재현저성차이(P<0.05)。세균배양과정중3충재료균액적D치무현저성차이(P>0.05)。 MTB재태도층개면점부량최다,간기린회석도층차지,포광도층개면최저,차각충재료간차이유통계학의의(P<0.05)。결론 MTB재인공관절가체재료표면적점부여기표면물리특성유관,재조조도고급소수성저적재료표면유교고적점부성。
Objective To study the effect of surface physical properties of different materials for the artificial joint pros -thesis interface on Mycobacterium tuberculosis adhesion .Methods The surface polishing coating , titanium coating and hydroxyapatite coating were chosen as the experimental materials to analyze the surface topography and measure the surface roughness, contact angle and surface energy .The M.tuberculosis strains were used by in vitro cultivation method and ob-served by scanning electron microscopy (SEM) to study the morphology of M.tuberculosis and the material surface adhe-sion.The influence of surface physical properties of the interface of the artificial joint prostheses on the proliferation and ad -hesion of bacteria was evaluatd .Results The titanium coating and hydroxyapatite coating materials were hydrophobic , while the surface polishing coating was hydrophilic .The contact angle and surface energy were significantly different ( P<0.05).In the process of bacterial culture of the three types of materials , there was no significant difference (P>0.05)in the OD value of bacterial solution .The titanium coating had the largest amount of interface adhesion for M.tuberculosis, fol-lowed by the hydroxyapatite coating and the polishing coating .The difference between various materials was statistically sig-nificant (P<0.05).Conclusion The adhesion of M.tuberculosis in the surface of artificial joint prosthesis materials is closely related to the surface physical properties .A adhesiveness improves with surface roughness .
