The Role Of Cytological Examination Of Urine In The Diagnosis Of Urinary Tract Infections

摘要

The cytological examination of (158) urine specimens was carried out in this study. It has been found that 105 (66.4%) samples gave positive results for urinary tract infection (U.T.I). Pus cells were found prevalent among other cell types (93.3%) of all positive UTI cases followed by epithelial cell (81.9%) and R. B. Cs (39%). Also it was found that pus cell casts were the dominant type, since it was present in (50.4%) of all positive UTI specimens, followed by hyaline casts (36.1%) granular casts (35.2%), epithelial cell casts (23.8%), RBC casts (19%), and other types (11.4%). The present study revealed that amorphous urate crystals had large percentage of crystal types (44.7%), other crystal types were present at various percentages: Calcium phosphate crystals (34.2%), Calcium oxalate crystals (35.2%), uric acid crystals (25.7%), sodium urate crystals (18.0%), Ammonium urate crystals (11.4%) and other (17.1%). Introduction Urinary tract infection is an inflammatory response of the urothelium to bacterial invasion that is usually associated with bacteriuria and pyuria. Bacteriuria is the presence of bacteria in the urine, which is normally free of bacteria, and implies that these bacteria are from the urinary tract and are not contaminants from the skin, vagina, or prepuce. Pyuria is the presence of white blood cells in the urine and is generally indicative of an inflammatory response of the urothelium to bacterial invasion (Walsh, et al., 1998). Many studies show that the bacterial count must be approximately 30000/ml befor bacteria can be found in the sediment (Stamm & Hooton, 1993 and Al-Saimary, 1998). Urinalysis is one of the most important and useful urologic tests available, yet all too often the necessary details are neglected and significant information is overlooked or misinterpreted (Tanagho & McAninch, 1995). Since approximately 20% of patients who visit a primary physicians office have a urologic problem (Haber, 1988).The examination of urine, or uroscopy is among the oldest practices in medicine, dating back to Babylonian physicians over 6000 years ago. (Schrier & Gottschalk, 1997). The complete examination of urine has by tradition been divided into macroscopic and microscopic evaluation. The macroscopic analysis of urine includes assessment of physical characteristics of urine (appearance, odor, specific gravity) and chemical analysis. Microscopic analysis of the constituents of urine is performed on either an unspun specimen or, more usually, the sediment from centrifuged urine specimens (Bonnardeaux et al., 1994; and Mandal, 1988).The urine sediment is examined microscopically for the presence of cells, casts, and crystals. Normal urine contains small numbers of these elements. An abnormal urine sediment contains either constituents of normal urine in abnormally high numbers, or constituents that are not usually present in normal urine in any number (Haber, 1988)Some studies ( Harding et al., 1991; Lohr et al., 1993 and Carroll et al., 1994) noticed that 70-90 percent of the patients with clinically evident urinary tract infection had positive cytology. Occasionally urinary cytologies are positive, although the initial diagnostic study fails to reveal urinary tract infection (Macfarlane et al,. 1999;Wennerstrom,et al.,2000andTheis et al., 2000).The aim of this study is to determine the role and significance of cytological and/ or Microscopical examination of urine in diagnosis of urinary tract infections. Materials & Methods A total of (82) midstream urine specimens were collected in sterilized tubes from male (45 cases) and female patients (37 cases) in age ranged between 20-30 years, with clinical symptoms suggesting urinary tract infection. After centrifugation at 3000 rpm for 15 minutes, 0.1 ml from the sediment of each urine sample was spreaded on the following media: Nutrient agar, MacConkey agar and Blood agar (Difco). Samples were considered positive for urinary tract infection (U.T.I) when it yield