Chapter 23. Composition and Properties of Urine

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Transcription:

Chapter 23 Composition and Properties of Urine

Composition and Properties of Urine (1 of 2) urinalysis the examination of the physical and chemical properties of urine appearance - clear, almost colorless to deep amber - yellow color due to urochrome pigment from breakdown of hemoglobin (RBCs) other colors from foods, drugs or diseases cloudiness or blood could suggest urinary tract infection, trauma or stones pyuria pus in the urine hematuria blood in urine due to urinary tract infection, trauma, or kidney stones odor - bacteria degrade urea to ammonia, some foods impart aroma specific gravity - compared to distilled water /// density of urine ranges from 1.001-1.028

Composition and Properties of Urine (1 of 2) osmolarity - (blood = 300 mosm/l) /// ranges from 50 mosm/l to 1,200 mosm/l in dehydrated person ph - range: 4.5 to 8.2, usually 6.0 (mildly acidic) chemical composition: 95% water, 5% solutes Normal to find /// urea, NaCl, KCl, creatinine, uric acid, phosphates, sulfates, traces of calcium, magnesium, and sometimes bicarbonate, urochrome and a trace of bilirubin Abnormal to find /// glucose, free hemoglobin, albumin, ketones, bile pigments

Urine Volume normal volume for average adult - 1 to 2 L/day polyuria - output in excess of 2 L/day oliguria output of less than 500 ml/day anuria - 0 to 100 ml/day low output from kidney disease Dehydration circulatory shock prostate enlargement low urine output of less than 400 ml/day the body cannot maintain a safe low concentration of waste in the plasma

Diabetes diabetes any metabolic disorder resulting in chronic polyuria Know these four forms of diabetes diabetes mellitus type 1 and type 2 plus gestational diabetes high concentration of glucose in renal tubule glucose opposes the osmotic reabsorption of water more water passes in urine (osmotic diuresis) glycosuria glucose in the urine diabetes insipidus ADH hyposecretion causing not enough water to be reabsorbed in the collecting duct /// more water passes in urine

Diuretics any chemical that increases urine volume some increase GFR // caffeine dilates the afferent arteriole reduce tubular reabsorption of water // alcohol inhibits ADH secretion act directly on nephron loop (loop diuretic) inhibit Na + -K + -Cl - symport // impairs countercurrent multiplier reducing the osmotic gradient in the renal medulla // collecting duct unable to reabsorb as much water as usual Osmotic diuretics // Filtered but not reabsorbed // Solute may exceed Tubular Transport Maximum (i.e. glucose) commonly used to treat hypertension and congestive heart failure by reducing the body s fluid volume and blood pressure

Renal Function Tests tests for diagnosing kidney disease evaluating their severity monitoring their progress determine renal clearance determine glomerular filtration rate

Renal Clearance the volume of blood plasma from which a particular waste is completely removed in 1 minute represents the net effect of three processes: glomerular filtration of the waste + amount added by tubular secretion amount removed by tubular reabsorption = s the renal clearance

Renal Clearance (skip) determine renal clearance (C) by collecting blood and urine samples, measuring the waste concentration in each, and measuring the rate of urine output: U - waste concentration in urine 6.0 mg/ml (urea example) V - rate of urine output 2 ml/min P - waste concentration in plasma 0.2 mg/ml C renal clearance in ml/min of waste cleared C = UV/P = 60 ml/min (60 ml of blood plasma is completely cleared of urea per minute compare C to normal GFR of 125 ml/min to see if normal rate of clearance is occurring - 48% which is normal for urea

Glomerular Filtration Rate (skip) kidney disease often results in lowering of GFR need to measure patient s GFR can not use clearance rate of urea /// because some urea filtered by glomerulus is reabsorbed in the tubule and some urea is secreted into the tubule need a substance that is not secreted or reabsorbed at all so that all of it in the urine gets there by glomerular filtration use inulin, a plant polysaccharide to determine GFR // neither reabsorbed or secreted by the renal tubule // inulin GFR = renal clearance on inulin clinically GFR is estimated from creatinine excretion does not require injecting a substance or drawing blood to determine its blood concentration // In plasma and we know concentration

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