000 02320cam a2200349 a 4500
003 EG-GiCUC
005 20250223031123.0
008 141220s2014 ua dh f m 000 0 eng d
040 _aEG-GiCUC
_beng
_cEG-GiCUC
041 0 _aeng
049 _aDeposite
097 _aM.Sc
099 _aCai01.11.07.M.Sc.2014.Li.E
100 0 _aLilian Benjamin Libo Warille
245 1 0 _aElectron microscopic assay of bacterial biofilm formed on indwelling urethral catheters /
_cLilian Benjamin Libo Warille ; Supervised Nada Nabil Nawar , Mona Mohiedden Abdelhaleim , Magda Azmy Moussa
246 1 5 _aإستخدام الفحص المجهرى الالكترونى لتشخيص الطبقة الحيوية الميكروبية التى تتكون على القساطر البولية
260 _aCairo :
_bLilian Benjamin Libo Warille ,
_c2014
300 _a107 P. :
_bcharts , facsimiles ;
_c25cm
502 _aThesis (M.Sc.) - Cairo University - Faculty of Medicine - Department of Clinical and Chemical Pathology
520 _aBiofilm is a complex bacterial community that adheres to the surface of implanted biomaterial or mucosa and is a leading cause of numerous chronic infections. These infections are generally difficult to treat and frequently require removal of the biomaterial before the infection can be completely eradicated. The presence of biofilm is associated with increased microbial resistance to antimicrobial therapy and resultant treatment failure. Biofilm formation on indwelling urinary catheters is a leading cause of urinary tract infections (UTI) in hospitalized patients. The continued development of this crystalline biofilm blocks the flow of urine through the catheter triggering episodes of pyelonephritis and septicemia. All available types of indwelling catheters are vulnerable to this problem and currently there are no effective procedures available for its control
530 _aIssued also as CD
653 4 _aBiofilm
653 4 _aScanning electron microscopy
653 4 _aUrinary catheters
700 0 _aMagda Azmy Moussa ,
_eSupervisor
700 0 _aMona Mohiedden Abdelhaleim ,
_eSupervisor
700 0 _aNada Nabil Nawar ,
_eSupervisor
856 _uhttp://172.23.153.220/th.pdf
905 _aNazla
_eRevisor
905 _aSamia
_eCataloger
942 _2ddc
_cTH
999 _c48828
_d48828