000 02384cam a2200349 a 4500
003 EG-GiCUC
005 20250223031239.0
008 150616s2014 ua dh f m 000 0 eng d
040 _aEG-GiCUC
_beng
_cEG-GiCUC
041 0 _aeng
049 _aDeposite
097 _aPh.D
099 _aCai01.11.28.Ph.D.2014.Mo.A
100 0 _aMohamed Mohamed Abdelhamied Soliman
245 1 0 _aAssessment of hemodialysis efficiency in children suffering end stage renal disease using serum cystatin - C Levels /
_cMohamed Mohamed Abdelhamied Soliman ; Supervised Fatina Ibrahim Fadel , Abbass Abdelfattah Mourad , Hafez Mahmoud Bazaraa
246 1 5 _aتقييم كفاءة الغسيل الدموي في الأطفال الذين يعانون مرحلة نهائية من الأمراض الكلوية باستخدام مستويات السيستاتين سي في مصل الدم
260 _aCairo :
_bMohamed Mohamed Abdelhamied Soliman ,
_c2014
300 _a168 P. :
_bcharts , facsimiles ;
_c25cm
502 _aThesis (Ph.D.) - Cairo University - Faculty of Medicine - Department of Pediatrics
520 _aThe goals of pediatric hemodialysis (HD) include removal of excess fluid in addition to effective and safe solute clearance which includes not only small plasma solutes, but also middle molecules and protein-bound solutes. Three general types of dialyzers are available at present: unmodified cellulose (low flux and so-called bio-incompatible membranes), modified/regenerated cellulose (low flux or high flux; so- called relatively biocompatible), synthetic (low flux or high flux; so called relatively biocompatible). The term {u2018}flux{u2019} refers to the permeability of the membrane in the dialyzer across which accumulated toxins and excess fluid pass during hemodialysis. A {u2018}high-flux{u2019} dialyzer has a membrane that allows middle-sized molecules to pass through but prevents the accidental removal of protein from the blood
530 _aIssued also as CD
653 4 _aC Levels
653 4 _aHemodialysis Efficiency
653 4 _aSerum Cystatin
700 0 _aAbbass Abdelfattah Mourad ,
_eSupervisor
700 0 _aFatina Ibrahim Fadel ,
_eSupervisor
700 0 _aHafez Mahmoud Bazaraa ,
_eSupervisor
856 _uhttp://172.23.153.220/th.pdf
905 _aNazla
_eRevisor
905 _aSoheir
_eCataloger
942 _2ddc
_cTH
999 _c51346
_d51346