中华实验眼科杂志
中華實驗眼科雜誌
중화실험안과잡지
CHINESE JOURNAL OF EXPERIMENTAL OPHTHALMOLOGY
2013年
8期
717-721
,共5页
细菌%角膜接触镜/硬性透氧性%MTT比色法%旋涡震荡菌落计数法%扫描电子显微镜
細菌%角膜接觸鏡/硬性透氧性%MTT比色法%鏇渦震盪菌落計數法%掃描電子顯微鏡
세균%각막접촉경/경성투양성%MTT비색법%선와진탕균락계수법%소묘전자현미경
Bacteria%Contact lens/rigid gas permeable%Methyl thiazolyl tetrazolium colorimetric method%Vortex method%Scanning electron microscope
背景 角膜接触镜的佩戴可能会增加角膜感染的机会,一些研究认为角膜接触镜材料的透氧性与角膜感染的发生有关. 目的 比较用于制作硬性透氧性角膜接触镜(RGP-CL)的材料,如氟硅丙烯酸酯A(XO)、氟硅丙烯酸酯B(EO)和聚甲基丙烯酸甲酯(PMMA)表面对金黄色葡萄球菌、表皮葡萄球菌和铜绿假单胞杆菌的黏附情况. 方法 分别将3种RGP-CL镜片材料置于3种细菌悬液中培养24 h,采用MTT比色法、旋涡震荡菌落计数法和扫描电子显微镜观察并比较3种材料表面黏附细菌的能力. 结果 MTT比色法结果显示,XO制镜材料对金黄色葡萄球菌的黏附能力(A值)明显低于EO材料和PMMA材料,差异均有统计学意义(q=7.379、8.207,P<0.01),但EO材料与PMMA材料对金黄色葡萄球菌黏附能力的比较差异无统计学意义(q=0.828,P>0.05);XO材料及EO材料表面表皮葡萄球菌的黏附能力低于PMMA材料,差异均有统计学意义(q=14.000、12.800,P<0.01),而XO材料与EO材料间表皮葡萄球菌黏附能力的比较差异无统计学意义(q=1.200,P>0.05);3种材料对铜绿假单胞杆菌的黏附能力(A值)差异无统计学意义(F=2.155,P=0.138).旋涡震荡菌落计数法结果显示,XO、EO、PMMA材料表面金黄色葡萄球菌的黏附数量分别为(37.9±1.5)×106、(49.9±2.2) ×106、(67.4±1.6)×106个,差异有统计学意义(F=206.240,P=0.000),EO材料、PMMA材料表面金黄色葡萄球菌菌落计数明显高于XO材料,差异均有统计学意义(P<0.01).XO、EO、PMMA材料表面表皮葡萄球菌的黏附数量分别为(7.9±1.3)×106、(10.5±1.5) ×106、(11.2±1.2)×106个,XO材料表面表皮葡萄球菌的黏附数量明显低于PMMA材料,差异有统计学意义(q=5.060,P<0.05),XO材料与EO材料、EO材料与PMMA材料之间表皮葡萄球菌黏附数量的差异均无统计学意义(q=3.290、1.770,P>0.05).3种材料表面铜绿假单胞杆菌的黏附数量差异无统计学意义(F=0.232,P=0.799).扫描电子显微镜观察显示,XO材料和EO材料表面金黄色葡萄球菌和表皮葡萄球菌的黏附呈散在性分布,而PMMA材料表面这两种细菌黏附形成“网状”外观,3种镜片材料表面铜绿假单胞杆菌形态无明显差别. 结论 PMMA材料表面细菌的黏附能力强于XO材料和EO材料,RGP-CL的透氧性对镜片表面细菌黏附的能力无明显影响.
揹景 角膜接觸鏡的珮戴可能會增加角膜感染的機會,一些研究認為角膜接觸鏡材料的透氧性與角膜感染的髮生有關. 目的 比較用于製作硬性透氧性角膜接觸鏡(RGP-CL)的材料,如氟硅丙烯痠酯A(XO)、氟硅丙烯痠酯B(EO)和聚甲基丙烯痠甲酯(PMMA)錶麵對金黃色葡萄毬菌、錶皮葡萄毬菌和銅綠假單胞桿菌的黏附情況. 方法 分彆將3種RGP-CL鏡片材料置于3種細菌懸液中培養24 h,採用MTT比色法、鏇渦震盪菌落計數法和掃描電子顯微鏡觀察併比較3種材料錶麵黏附細菌的能力. 結果 MTT比色法結果顯示,XO製鏡材料對金黃色葡萄毬菌的黏附能力(A值)明顯低于EO材料和PMMA材料,差異均有統計學意義(q=7.379、8.207,P<0.01),但EO材料與PMMA材料對金黃色葡萄毬菌黏附能力的比較差異無統計學意義(q=0.828,P>0.05);XO材料及EO材料錶麵錶皮葡萄毬菌的黏附能力低于PMMA材料,差異均有統計學意義(q=14.000、12.800,P<0.01),而XO材料與EO材料間錶皮葡萄毬菌黏附能力的比較差異無統計學意義(q=1.200,P>0.05);3種材料對銅綠假單胞桿菌的黏附能力(A值)差異無統計學意義(F=2.155,P=0.138).鏇渦震盪菌落計數法結果顯示,XO、EO、PMMA材料錶麵金黃色葡萄毬菌的黏附數量分彆為(37.9±1.5)×106、(49.9±2.2) ×106、(67.4±1.6)×106箇,差異有統計學意義(F=206.240,P=0.000),EO材料、PMMA材料錶麵金黃色葡萄毬菌菌落計數明顯高于XO材料,差異均有統計學意義(P<0.01).XO、EO、PMMA材料錶麵錶皮葡萄毬菌的黏附數量分彆為(7.9±1.3)×106、(10.5±1.5) ×106、(11.2±1.2)×106箇,XO材料錶麵錶皮葡萄毬菌的黏附數量明顯低于PMMA材料,差異有統計學意義(q=5.060,P<0.05),XO材料與EO材料、EO材料與PMMA材料之間錶皮葡萄毬菌黏附數量的差異均無統計學意義(q=3.290、1.770,P>0.05).3種材料錶麵銅綠假單胞桿菌的黏附數量差異無統計學意義(F=0.232,P=0.799).掃描電子顯微鏡觀察顯示,XO材料和EO材料錶麵金黃色葡萄毬菌和錶皮葡萄毬菌的黏附呈散在性分佈,而PMMA材料錶麵這兩種細菌黏附形成“網狀”外觀,3種鏡片材料錶麵銅綠假單胞桿菌形態無明顯差彆. 結論 PMMA材料錶麵細菌的黏附能力彊于XO材料和EO材料,RGP-CL的透氧性對鏡片錶麵細菌黏附的能力無明顯影響.
배경 각막접촉경적패대가능회증가각막감염적궤회,일사연구인위각막접촉경재료적투양성여각막감염적발생유관. 목적 비교용우제작경성투양성각막접촉경(RGP-CL)적재료,여불규병희산지A(XO)、불규병희산지B(EO)화취갑기병희산갑지(PMMA)표면대금황색포도구균、표피포도구균화동록가단포간균적점부정황. 방법 분별장3충RGP-CL경편재료치우3충세균현액중배양24 h,채용MTT비색법、선와진탕균락계수법화소묘전자현미경관찰병비교3충재료표면점부세균적능력. 결과 MTT비색법결과현시,XO제경재료대금황색포도구균적점부능력(A치)명현저우EO재료화PMMA재료,차이균유통계학의의(q=7.379、8.207,P<0.01),단EO재료여PMMA재료대금황색포도구균점부능력적비교차이무통계학의의(q=0.828,P>0.05);XO재료급EO재료표면표피포도구균적점부능력저우PMMA재료,차이균유통계학의의(q=14.000、12.800,P<0.01),이XO재료여EO재료간표피포도구균점부능력적비교차이무통계학의의(q=1.200,P>0.05);3충재료대동록가단포간균적점부능력(A치)차이무통계학의의(F=2.155,P=0.138).선와진탕균락계수법결과현시,XO、EO、PMMA재료표면금황색포도구균적점부수량분별위(37.9±1.5)×106、(49.9±2.2) ×106、(67.4±1.6)×106개,차이유통계학의의(F=206.240,P=0.000),EO재료、PMMA재료표면금황색포도구균균락계수명현고우XO재료,차이균유통계학의의(P<0.01).XO、EO、PMMA재료표면표피포도구균적점부수량분별위(7.9±1.3)×106、(10.5±1.5) ×106、(11.2±1.2)×106개,XO재료표면표피포도구균적점부수량명현저우PMMA재료,차이유통계학의의(q=5.060,P<0.05),XO재료여EO재료、EO재료여PMMA재료지간표피포도구균점부수량적차이균무통계학의의(q=3.290、1.770,P>0.05).3충재료표면동록가단포간균적점부수량차이무통계학의의(F=0.232,P=0.799).소묘전자현미경관찰현시,XO재료화EO재료표면금황색포도구균화표피포도구균적점부정산재성분포,이PMMA재료표면저량충세균점부형성“망상”외관,3충경편재료표면동록가단포간균형태무명현차별. 결론 PMMA재료표면세균적점부능력강우XO재료화EO재료,RGP-CL적투양성대경편표면세균점부적능력무명현영향.
Background Wearing contaclenincreasethe risk of infection of the cornea.Some studieshowed the gas-permeability of materialused foconstructing corneal contaclenione of the contributing factorrelated to corneal health.Objective Thistudy wato observe the in vitro adherence ability of differenbacterito rigid gas-permeable contaclense(RGP-CL) made with varioumaterials.MethodContaclensemade with hexafocon,enflufocon opolymethyl methacrylate (PMMA) were placed into Staphylococcuaureus,Staphylococcuepidermidis,oPseudomonaaeruginosbacterial suspension(0.5 MCF) fo24 hours.The strength of bacterial adherence watested and studied by the methyl thiazolyl tetrazolium (MTT) colorimetrimethod based on absorbance (value),and the vortex method waused to calculate the colony forming units.The bactericlump formation waexamined with scanning electron microscope (SEM).ResultMTcolorimetrimethod showed thathe adherence ability of Staphylococcuaureuto hexafocon (value) wasignificantly lowethan thato enflufocon and PMMA,respectively (q=7.379,8.207,P<0.01),buno significandifference wafound in the adherence ability of Staphylococcuaureubetween enflufocon and PMM(q =0.828,P>0.05).The adherence ability of Staphylococcuepidermidito XO and enflufocon walowethan thato PMM(q =14.000,12.800,P<0.01),buno significandifference wafound between the adherence of Staphylococcuepidermidito hexafocon and enflufocon material (q =1.200,P>0.05).There wano significandifference in the adherence ability of Pseudomonaaeruginosto all three material(F=2.155,P=0.138).The vortex method presented the colony forming unitof Staphylococcuaureuto hexafocon,enflufocon and PMMwith (37.9± 1.5)×106,(49.9±2.2)×106 and (67.4± 1.6)×106,respectively,with significandifference among them (F =206.240,P<0.01),showing the lowesvalue in hexafocon,the highesvalue in PMMand middle value in enflufocon (q=11.650,28.640,16.990,P<0.01),Moreover,colony forming uniof Staphylococcuepidermidito hexafocon,enflufocon and PMMwa(7.9 ± 1.3) × 106,(10.5 ± 1.5) × 106,(11.2 ±1.2) × 106,respectively.And thaof hexafocon walowethan one of the PMMmaterial (q =5.060,P<0.05).No significandifference wafound between hexafocon and enflufocon nobetween hexafocon and PMM(q =3.290,1.770,P>0.05).In addition,the resultthacorresponded to the vortex method were seen in the MTcolorimetriassay (F =0.232,P =0.799).SEM examination showed dispersed population of Staphylococcuaureuand Staphylococcuepidermidion the surfaceof hexafocon and enflufocon;while much more Staphylococcuaureuand Staphylococcuepidermidiadhered on the surface of PMMA,forming net-like appearance.Conversely,high numbeof Pseudomonaaeruginoswaseen on the surface of all three materials,withounoticeable differencein the bacterial shape and quantity on each of the material.ConclusionThe adherence ability of bacterito PMMistrongethan thaof hexafocon and enflufocon,and gas-permeable material of RGP-CL doenoimpacthe adherence ability of bacteria.