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URINALYSIS

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URINALYSIS The urinalysis is a fundamental test that should be performed in all urologic patients A complete urinalysis includes both chemical and microscopic analyses. – PowerPoint PPT presentation

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Title: URINALYSIS


1
URINALYSIS
2
  • The urinalysis is a fundamental test that should
    be performed in all urologic patients
  • A complete urinalysis includes both chemical and
    microscopic analyses.

3
Reasons for inadequate urinalyses include
  • Improper collection,
  • Failure to examine the specimen immediately,
  • Incomplete examination (eg, most laboratories do
    not perform a microscopic analysis unless it is
    specifically requested by the provider),
  • Inexperience of the examiner, and
  • (5) Inadequate appreciation of the significance
    of the findings.

4
Collection of Urinary Specimens
  • In the male patient, a midstream urine sample is
    obtained
  • The four aliquots have been designated Voided
    Bladder 1, Voided Bladder 2, Expressed Prostatic
    Secretions, and Voided Bladder 3 (VB1, VB2, EPS,
    and VB3)
  • To evaluate for a possible infection in a female,
    a catheterized urine sample should always be
    obtained.
  • All urine samples should be examined within 1
    hour of collection and plated for culture and
    sensitivity if indicated for Neonates and Infants

5
Physical Examination of Urine
  • The physical examination of the urine includes an
    evaluation of color, turbidity, specific gravity
    and osmolality, and pH.

6
Color
  • The normal pale yellow color of urine is due to
    the presence of the pigment urochrome
  • Urine color varies most commonly because of
    concentration, but many foods, medications,
    metabolic products, and infection may produce
    abnormal urine color.

7
Common Causes of Abnormal Urine Color
Colorless Very dilute urine
Colorless Overhydration
Cloudy/milky Phosphaturia
Cloudy/milky Pyuria
Cloudy/milky Chyluria
Red Hematuria
Red Hemoglobinuria/myoglobinuria
Red Anthrocyanin in beets and blackberries
Red Chronic lead and mercury poisoning
Red Phenolphthalein (in bowel evacuants)
Red Phenothiazines (e.g., Compazine)
Red Rifampin
Orange Dehydration
Orange Phenazopyridine (Pyridium)
Orange Sulfasalazine (Azulfidine)
Yellow Normal
Yellow Phenacetin
Yellow Riboflavin
Green-blue Biliverdin
Green-blue Indicanuria (tryptophan indole metabolites)
Green-blue Amitriptyline (Elavil)
Green-blue Indigo carmine
Green-blue Methylene blue
Green-blue Phenois (e.g., IV cimetidine Tagamet,
Green-blue IV promethazine Phenergan)
Green-blue Resorcinol
Green-blue Triamterene (Dyrenium)
8
Brown Urobilinogen
Brown Porphyria
Brown Aloe, fava beans, and rhubarb
Brown Chloroquine and primaquine
Brown Furazolidone (Furoxone)
Brown Metronidazole (Flagyl)
Brown Nitrofurantoin (Furadantin)
Brown-black Alcaptonuria (homogentisic acid)
Brown-black Hemorrhage
Brown-black Melanin
Brown-black Tyrosinosis (hydroxyphenylpyruvic acid)
Brown-black Cascara, senna (laxatives)
Brown-black Methocarbamol (Robaxin)
Brown-black Methyldopa (Aldomet)
Brown-black Sorbitol
9
Turbidity
  • Cloudy urine is most commonly due to phosphaturia
  • The large numbers of white blood cells cause the
    urine to become turbid.
  • Pyuria is readily distinguished from
    phosphaturia either by smelling the urine
    (infected urine has a characteristic pungent
    odor)
  • Rare causes of cloudy urine include chyluria (in
    which there is an abnormal communication between
    the lymphatic system and the urinary tract
    resulting in lymph fluid being mixed with urine),
    lipiduria, hyperoxaluria, and hyperuricosuria.

10
Specific Gravity and Osmolality
  • Specific gravity of urine is easily determined
    from a urinary dipstick and usually varies from
    1.001 to 1.035.
  • A specific gravity less than 1.008 is regarded as
    dilute, and a specific gravity greater than 1.020
    is considered concentrated
  • Conditions that decrease specific gravity include
    --
  • increased fluid intake,
  • (2) diuretics,
  • (3) decreased renal concentrating ability, and
  • (4) diabetes insipidus.
  • Conditions that increase specific gravity
    include--
  • (1) decreased fluid intake
  • (2) dehydration owing to fever, sweating,
    vomiting, and diarrhea
  • (3) diabetes mellitus (glucosuria) and
  • (4) inappropriate secretion of antidiuretic
    hormone.
  • Osmolality is a measure of the amount of material
    dissolved in the urine and usually varies between
    50 and 1200 mOsm/L.

11
pH
  • Urinary pH is measured with a dipstick test
    strip( methyl red and bromothymol blue), which
    yield clearly distinguishable colors over the pH
    range from 5 to 9.
  • Urinary pH may vary from 4.5 to 8
  • The average pH varies between 5.5 and 6.5.
  • A urinary pH between 4.5 and 5.5 is considered
    acidic, whereas a pH between 6.5 and 8 is
    considered alkaline.

12
  • In patients with a presumed UTI, an alkaline
    urine with a pH greater than 7.5 suggests
    infection with a urea-splitting organism, most
    commonly Proteus.
  • Urinary pH is usually acidic in patients with
    uric acid and cystine lithiasis.
  • Alkalinization of the urine is an important
    feature of therapy in both of these conditions

13
Chemical Examination of Urine
  • Urine dipsticks provide a quick and inexpensive
    method for detecting abnormal substances within
    the urine
  • The abnormal substances commonly tested for with
    a dipstick include
  • blood,
  • (2) protein,
  • (3) glucose,
  • (4) ketones,
  • (5) urobilinogen and bilirubin, and
  • (6) white blood cells.

14
Hematuria
  • Normal urine should contain less than three red
    blood cells per HPF.
  • A positive dipstick for blood in the urine
    indicates either hematuria, hemoglobinuria, or
    myoglobinuria.
  • The chemical detection of blood in the urine is
    based on the peroxidase-like activity of
    hemoglobin
  • Hematuria can be distinguished from
    hemoglobinuria and myoglobinuria by microscopic
    examination of the centrifuged urine
  • The presence of a large number of erythrocytes
    establishes the diagnosis of hematuria.
  • If erythrocytes are absent, examination of the
    serum will distinguish hemoglobinuria and
    myoglobinuria

15
Differential Diagnosis and Evaluation of
Hematuria.
  • Hematuria may reflect either significant
    nephrologic or urologic disease
  • Hematuria of nephrologic origin is frequently
    associated with casts in the urine and almost
    always associated with significant proteinuria.
  • Even significant hematuria of urologic origin
    will not elevate the protein concentration in the
    urine into the 100 to 300 mg/dL or 2 to 3 range
    on dipstick.

16
Evaluation of glomerular hematuria (dysmorphic
erythrocytes, erythrocyte casts, and
proteinuria). ANA, antinuclear antibody ASO,
antistreptolysin O Ig, immunoglobulin.
17
Evaluation of nonglomerular renal hematuria
(circular erythrocytes, no erythrocyte casts, and
proteinuria). CT, computed tomography IgA,
immunoglobulin A IVU, intravenous urography PT,
prothrombin time PTT, partial thromboplastin
time
18
Evaluation of essential hematuria (circular
erythrocytes, no erythrocyte casts, no
significant proteinuria). CT, computed
tomography IVU, intravenous urography
19
Proteinuria
  • Healthy adults excrete 80 to 150 mg of protein in
    the urine daily
  • Proteinuria may be the first indication of
    renovascular, glomerular, or tubulointerstitial
    renal disease, or it may represent the overflow
    of abnormal proteins into the urine in conditions
    such as multiple myeloma.
  • Normally, urine protein is about 30 albumin, 30
    serum globulins, and 40 tissue proteins, of
    which the major component is Tamm-Horsfall
    protein.

20
Evaluation of proteinuria.
21
Glucose and Ketones
  • Urine testing for glucose and ketones is useful
    in screening patients for diabetes mellitus
  • A serum glucose of about 180 mg/dL above this
    level, glucose will be detected in the urine.
  • Ketones are not normally found in the urine but
    will appear when the carbohydrate supplies in the
    body are depleted and body fat breakdown occurs
  • Ketones excreted include acetoacetic acid,
    acetone, and ß-hydroxybutyric acid. With abnormal
    fat breakdown, ketones will appear in the urine
    before the serum.

22
Bilirubin and Urobilinogen
  • Normal urine contains no bilirubin and only very
    small amounts of urobilinogen
  • Conjugated bilirubin has a low molecular weight,
    is water soluble, and normally passes from the
    liver into the small intestine through the bile
    ducts, where it is converted to urobilinogen.
  • Therefore, conjugated bilirubin does not appear
    in the urine except in pathologic conditions in
    which there is intrinsic hepatic disease or
    obstruction of the bile ducts.
  • Indirect bilirubin is of high molecular weight
    and bound in the serum to albumin. It is water
    insoluble and, therefore, does not appear in the
    urine even in pathologic conditions.
  • Urobilinogen is the end product of conjugated
    bilirubin metabolism.

23
Leukocyte Esterase and Nitrite Tests
  • Leukocyte esterase activity indicates the
    presence of white blood cells in the urine.
  • The presence of nitrites in the urine is strongly
    suggestive of bacteriuria
  • The major cause of false-positive leukocyte
    esterase tests is specimen contamination
  • Nitrites are not normally found in the urine, but
    many species of gram-negative bacteria can
    convert nitrates to nitrites

24
Protocol for determining the need for urine
sediment microscopy in an asymptomatic population
25
Microscopy Technique
  • Low-power magnification is sufficient to identify
    erythrocytes, leukocytes, casts, cystine
    crystals, oval fat macrophages, and parasites
    such as Trichomonas vaginalis and Schistosoma
    hematobium.
  • High-power magnification is necessary to
    distinguish circular from dysmorphic
    erythrocytes, to identify other types of
    crystals, and, particularly, to identify bacteria
    and yeast
  • The urinary sediment should be examined
    microscopically for (1) cells, (2) casts, (3)
    crystals, (4) bacteria, (5) yeast, and (6)
    parasites

26
Cells
27
Casts
  • Tamm-Horsfall mucoprotein is the basic matrix of
    all renal casts it originates from tubular
    epithelial cells and is always present in the
    urine
  • When the casts contain only mucoproteins, they
    are called hyaline casts and may not have any
    pathologic significance.
  • Red blood cell casts contain entrapped
    erythrocytes and are diagnostic of glomerular
    bleeding, most likely secondary to
    glomerulonephritis
  • White blood cell casts are observed in acute
    glomerulonephritis, acute pyelonephritis, and
    acute tubulointerstitial nephritis
  • Granular and waxy casts result from further
    degeneration of cellular elements.
  • Fatty casts are seen in nephrotic syndrome,
    lipiduria, and hypothyroidism.

28
Crystals
  • Identification of crystals in the urine is
    particularly important in patients with stone
    disease
  • The identification of cystine crystals
    establishes the diagnosis of cystinuria
  • Crystals precipitated in acidic urine include
    calcium oxalate, uric acid, and cystine.
  • Crystals precipitated in an alkaline urine
    include calcium phosphate and triple-phosphate
    (struvite) crystals.

29
Urinary crystals
30
Bacteria
  • Normal urine should not contain bacteria.
  • In a fresh uncontaminated specimen, the finding
    of bacteria is indicative of a UTI.
  • Because each HPF views between 1/20,000 and
    1/50,000 mL, each bacterium seen per HPF
    signifies a bacterial count of more than
    20,000/mL.
  • Therefore, 5 bacteria/HPF reflects colony counts
    of about 100,000/mL.

31
Yeast
  • The most common yeast cells found in urine are
    Candida albicans
  • Yeasts are most commonly seen in the urine of
    patients with diabetes mellitus or as
    contaminants in women with vaginal candidiasis.

32
Parasites
  • Trichomonas vaginalis is a frequent cause of
    vaginitis in women and occasionally of urethritis
    in men
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