Glucose:
For glucose measurement reagent pad is impregnated with glucose oxidase,
peroxidase, potassium iodide, and blue dye. The reaction employs glucose
oxidase and peroxidase to produce hydrogen peroxide, which is subsequently
reduced with concurrent oxidation of potassium iodide to release iodine. This
free iodine blends with the background color to produce a variety of colors
from green to dark brown. The lower detection limit is 70-130 mg/dl with an
upper limit of 2018 mg/dl. The color change should be read exactly 30s after
sample addition.
Glycosuria – Normal excretion is
<20 mg/24 hr. Glycosuria occurs due to increased blood glucose
(hyperglycemic glycosuria) or decreased renal threshold, impaired proximal
absorption (renal glycosuria). TmG (Tubular maximum for glucose) is 350mg/min
but when blood glucose rises above the renal threshold of 180 mg/dl of urine,
then excess is passed in urine.
Hyperglycaemic glycosuria:
Alimentary glycosuria: When a large carbohydrate diet
is taken, blood sugar rises and cross renal threshold.
·
Nervous or emotional glycosuria: Stimulation of
sympathetic nerves during emotion, stress that lead breakdown of liver glycogen
producing hyperglycemia and glycosuria.
·
Glycosuria due to endocrine disorder: E.g. diabetes
mellitus, hyperthyroidism, epinephrine, hyperpituitarism due to increased
secretion of GH, glucagonoma, etc.
Renal glycosuria:
·
Hereditary: There may be defect in carrier protein
e.g. in Fanconi syndrome.
·
Acquired: This may be due to damaged renal tubules,
heavy metal poisoning like lead, cadmium, mercury, aminoacidurias, renal
tubular acidosis etc.
·
Lowered renal threshold: This is seen during
pregnancy.
Protein:
The dipstick test for total protein
includes a cellulose test pad impregnated with tetrabromphenol blue and citrate
pH 3 buffer. The reaction is based on the protein error of indicators
phenomenon in which certain chemical indicators demonstrate one color in the
presence of protein and another in its absence. Thus tetrabromphenol blue is
green in the presence of protein at pH3 but yellow in its absence. The color is
read exactly 60 s after and test has lower detection limit of 150-300 mg/L. The
reagent is most sensitive to albumin and less to others.
Proteinuria - Normal excretion is <150 mg/24 hr and not detectable. Proteinuria
occurs due to
Secreted or
nephrogenic (derived from epithelium of urinary tract)
Glomerular
(increase permeability)
Overflow
(due to raised plasma concentration of low molecular weight proteins)
Tubular
(decreased tubular reabsorption or saturated reabsorption)
The positive dipstick test should
be confirmed in the lab by measuring either the protein/creatinine or
albumin/creatinine ratio on an early morning or random urine sample. Dipstick
for albumin measurement which includes dyes to which albumin binds producing
color.
For positive dipstick result; the
result should be confirmed using protein/creatinine ratio. Patients with two or
more positive (>30mg total protein or albumin/mmol creatinine) test on early
morning samples 1 to 2 weeks apart should be diagnosed having persistent
proteinuria and referred to CKD management program.
Hemoglobin
Presence of blood in urine can be
done by doing microscopy to see red blood cells or dipstick can be used. The
chemical detection of hemoglobin in urine depends on the peroxidase activity of
hemoglobin employing peroxidase substrate an oxygen acceptor. Here the
oxidizable substrate is tetramethyl benzidine (TMB) and organic peroxide. The
color change varies from orange through pale to dark green. Reading should be
done after 60s.
The presence of Hb or red cells in
urine indicates renal or bladder disease, glomerulonephritis, sickle cell
disease, vasculitis, etc.
Specific gravity
It consists of absorbent cellulose
pad impregnated with indicators which change color due to change in pK brought
about by solutes in urine; the hydrogen ions released are detected by the pH
indicator. The color changes from dark blue at low specific gravity to yellow
green at specific gravity of 1.030. Test is read 45s after sample addition.
Diabetic patients with uncontrolled hyperglycemia and glycosuria may have high
urine specific gravity even when normal renal concentrating function is
impaired. It can also be measured by refractometer. Here refractive index of
urine specimen will vary directly with total amount of dissolved solids in
sample. This instrument measures RI of urine as compared with water on a scale.
pH
To measure the pH of a sample, the
test pad is impregnated with indicators-one example being a mixture of methyl
red and bromthymol blue. Methyl red in a diluted form is red at pH below 4.2
and yellow at above 6.2. Bromothymol blue is yellow at pH<6.0 and blue at
values above 7.6. At pH within these values the indicators give shads of orange
and green, respectively. Thus the reagent blocks are evaluated at exactly 60s
and compared with color chart where the lowest pH block at 5.0 is orange and
highest at 8.5 is blue.
Bilirubin/Urobilinogen
The test includes fouchetes test
and Ehrlichs test.
Ketone bodies
This is done by Rothras test where
only acetone and acetoacetate will give positive result with nitroprusside. The
nitroprusside based strips are also used which gives different shades of color.
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