微生物学杂志
微生物學雜誌
미생물학잡지
JOURNAL OF MICROBIOLOGY
2009年
3期
1-5
,共5页
杨伟超%南黎%李慧%徐慧%吕曼祺%杨柯
楊偉超%南黎%李慧%徐慧%呂曼祺%楊柯
양위초%남려%리혜%서혜%려만기%양가
抗菌不锈钢%抗菌性能%覆膜法%抗菌谱
抗菌不鏽鋼%抗菌性能%覆膜法%抗菌譜
항균불수강%항균성능%복막법%항균보
antibiotic stainless steel%antibiotic properties%coating film method%antibiotic spectrum
对铁素体和奥氏体2种含铜抗菌不锈钢的抗菌性能进行了考察.采用覆膜法检测抗菌率,用透射电镜观察与铁素体抗菌不锈钢作用后的大肠埃希菌细胞形态.2种抗菌不锈钢材料对供试的 17 株常见菌,除产气肠杆菌外均显示较强的抗菌性能,抗菌谱广;铁素体和奥氏体对1×107 cfu/mL及以下浓度的大肠埃希菌在 24 h内杀灭率达到99%;铁素体和奥氏体分别在作用 3 h和 9 h时可将1×107 cfu/mL的大肠埃希菌全部杀灭;打磨次数和环境温度的变化不影响2种抗菌不锈钢的杀菌率;透射电镜结果显示,与抗菌不锈钢作用后的大肠埃希菌菌体结构松散,细胞壁和细胞膜破裂,有内容物漏出.铁素体和奥氏体抗菌不锈钢均具优良的抗菌性能,抗菌谱广,与其作用后的细菌菌体破裂,有内容物溶出,最终致菌死亡.
對鐵素體和奧氏體2種含銅抗菌不鏽鋼的抗菌性能進行瞭攷察.採用覆膜法檢測抗菌率,用透射電鏡觀察與鐵素體抗菌不鏽鋼作用後的大腸埃希菌細胞形態.2種抗菌不鏽鋼材料對供試的 17 株常見菌,除產氣腸桿菌外均顯示較彊的抗菌性能,抗菌譜廣;鐵素體和奧氏體對1×107 cfu/mL及以下濃度的大腸埃希菌在 24 h內殺滅率達到99%;鐵素體和奧氏體分彆在作用 3 h和 9 h時可將1×107 cfu/mL的大腸埃希菌全部殺滅;打磨次數和環境溫度的變化不影響2種抗菌不鏽鋼的殺菌率;透射電鏡結果顯示,與抗菌不鏽鋼作用後的大腸埃希菌菌體結構鬆散,細胞壁和細胞膜破裂,有內容物漏齣.鐵素體和奧氏體抗菌不鏽鋼均具優良的抗菌性能,抗菌譜廣,與其作用後的細菌菌體破裂,有內容物溶齣,最終緻菌死亡.
대철소체화오씨체2충함동항균불수강적항균성능진행료고찰.채용복막법검측항균솔,용투사전경관찰여철소체항균불수강작용후적대장애희균세포형태.2충항균불수강재료대공시적 17 주상견균,제산기장간균외균현시교강적항균성능,항균보엄;철소체화오씨체대1×107 cfu/mL급이하농도적대장애희균재 24 h내살멸솔체도99%;철소체화오씨체분별재작용 3 h화 9 h시가장1×107 cfu/mL적대장애희균전부살멸;타마차수화배경온도적변화불영향2충항균불수강적살균솔;투사전경결과현시,여항균불수강작용후적대장애희균균체결구송산,세포벽화세포막파렬,유내용물루출.철소체화오씨체항균불수강균구우량적항균성능,항균보엄,여기작용후적세균균체파렬,유내용물용출,최종치균사망.
Two kinds of copper containing stainless steels of ferrite (F) and austenite (A) antibiotic stainless steels were studied adopting coating film method to test their antibiotic ratio and observed the cell morph of E. coli that reacted with ferrite antibiotic stainless steel by transmission electron microscope. The results showed that both antibiotic stainless steels had fairly strong antibiotic performance against 17 tested common bacterial strains, except for Enterobacter aerogenes AS 1.2021, they had a broad antibiotic spectrum. The killing ratio of F and A against E. coli at 1×107 cfu/mL and below within 24 hours was 99%. F and A could completely eliminate all E. coli of 1×107 cfu/mL reacted with them at 3 and 9 hours respectively. Polishing frequency and the temperature changes of environment had no effect on the bacteria killing ratio by both antibiotic stainless steels. The results of transmission electron microscopy showed that after the reaction with antibiotic stainless steels, the thallus structure of E. coli became loose, cell wall and cell membrane were broken into pieces, and some content leaked out. Therefore, both F and A antibiotic stainless steels possessed fine antibiotic properties with broad antibiotic spectrum, bacterial thalli reacted with them broke into pieces with some content leaked, and finally died.