Chemical Analysis of Urine
The routine analysis of urine includes chemical test for protein, glucose, ketone bodies, occult blood, bile salts, bile pigments and urobilinogen.
Proteins in urine
Urine normally contains only a scant amount of protein which derives both from blood and urinary tract itself. Mainly albumin is filtered from nephrons due to low molecular weight others are reabsorbed by renal tubules. Other protein includes serum or plasma globulin, mucus or mucin, hemoglobin, bence jones protein.
Determination of protein in urine
Principle
All the methods are based on the principle of precipitation of protein by chemical agents or coagulation by heat.
Methods
Qualitative tests
If urine is alkaline make it slightly acidic by adding 3% glacial acetic acid.
Turbid urine should be filtered or centrifuged and supernatant should be used
Heat and acetic acid test
Sulphosalicyclic acid test
Purdy’s modification
Quantitative test for albumin
Qualitative test and semi quantitative test have limitation that they can’t detect the exact amount of protein excretion. So quantitative test is done on 24 hr urine
Mainly 2 methods are used for this purpose which uses picric acid for precipitation in different proportion methods are:
Esbach’s method
Aufrecht’s method
The most commonly used test are-
A. Heat and Acetic Acid Test
Place 5 to 10 ml of clear urine in test tube
Boil the upper portion over a flame.
If turbidity develops add 1-2 drops of glacial acetic acid. Sometimes turbidity may be due to phosphate or carbonate precipitation. it is so then glacial acetic acid clear up the turbidity .if it is due to protein then precipitation will be there after the addition of acetic acid
Reboil the specimen
If turbidity is present protein is present .if there is no turbidity at upper portion then protein is absent.
Grade the turbidity as follows:
Negative : No cloudiness
Trace: Barely visible cloudiness.
1+ : definite cloud without granular flocculation
2+ : heavy and granular cloud without granular flocculation
3+ : densed cloud with marked flocculation.
4+ : thick curdy precipitation and coagulation
Sulphosalicyaclic Acid Test
Reagents
3% sulphosalicylic acid is prepared
Sulphosalicyaclic acid 3.0 gm
Distilled water 100 ml
Procedure
Place 3-4ml of clean urine in test tube
From the side of tube add 2-3 drops of sulphosalicylic acid on top.
Let it stand for 5 minutes.
Observe the turbidity.
Result
No formation of turbidity at upper portion of urine indicates absence of protein
Formation of turbidity indicates presence of protein.
Turbidity is graded as follows:
Trace cloudiness against dark background
1+ dense cloudiness.
2+ cloudiness with granules and definite flocculation.
3+ cloudiness with flocculation.
4+ cloudiness with precipitation.
Clinical Significance
Proteinuria can occur mainly due to
1. Glomerular damage
2. Defect in reabsorption of process of tubules
Always proteinuria in not pathological. So there are mainly 3 types of proteinuria.
A. Accidental Proteinuria
Due to contamination of urine with vaginal seminal discharge after prostatic massage and derivation from diseased condition of genital tract or bladder accidental proteinuria is seen.
B. Functional Proteinuria
Non pathological proteinuria also called physiological albuminuria mainly seen in strenuous exercise, phrexia, exposure to cold, congestive heart failure hypertension atherosclerosis pregnancy dehydration fever if person stand in upright position for longer period. (Postural or orthostatic proteinuria)
C. Renal Proteinuria
Any condition resulting in increased permeability of urinary tract surfaces or in transduction such as glomerulonephritis diabetes nephritis associated with SLE, pyelonephritis, hereditary fructose intolerance, cystitis urinary tract, malignancies, heavy metal poisoning, eclampsia, amyloidosis, sarcoidosis, sickle cell disease, renal transplant rejection, multiple myeloma, degenerative and irritative condition and lower urinary tract.
Note
Orthostatic proteinuria can be differentiated from pathological proteinuria by testing 2 urine samples ,one collected immediately after rising and one collected after patient has been in upright position for 3 hour or longer.
During heat and acetic acid
If cloudiness is seen it may be due to phosphate or carbonates confirm by adding 3% glacial acetic acid. if it is due to protein cloudiness persist and if it is due to the phosphate the cloudiness disappears and if it is due to carbonate cloudiness disappears with effervescence.
If cloudiness is disappeared when nitric acid is added then it is due to mucin and nucleoprotein.
If cloudiness appears with the tube is being heated but disappears when boiling point is reached bence jones protein is present. Bence jones protein is low molecular weight protein which is easily filtered through the glomerulus. It has unusual solubility .it precipitates when heated at 40-60 degree centigrade and becomes soluble when boiled and reappears on cooling. it is seen in urine in multiple myeloma where there is malignant proliferative of plasma cells in bone marrow.
Heat and acetic acid test detect as little as 2-3 mg/100 ml of protein.
Sulfosalicylic acid detects 5 mg/100 ml of protein.
Sugar in Urine
Normally glucose is virtually absent from urine .the renal threshold for glucose ranges from 160-200mgm/dl depending on the individual .that is blood sugar must rise to its renal threshold before glucose will appear in urine. When glucose is present in urine it is called glysosuria .other less important sugar that may appear in urine are lactose galactose pentose which may give false positive results for glucose. So specific test must be performed for differentiating glucose from other sugars present in urine.
Methods.
1. Determination of Glucose.
Benedicts test
Fehlings test
2. Determination of Lactose
Yeast fermentation test
Osazone test.
Rubners test.
3. Seliwanoffs Test for Fructose
4. Bial’s Test For Pentoses
Determination of Glucose by Benedicts Test
Principle
When benedicts qualitative reagent is heated with 8 drops of urine glucose present in urine reduces cupric ions present in reagent to cuprous ions. Alkaline medium is provided to the reaction by sodium carbonate present in reagent .the color changes to green yellow orange or red according to concentration of glucose in urine.
Reagent
Benedict’s qualitative reagent preparation:
Sodium citrate 1.73 gm.
Sodium bicarbonate 100 gm.
Place in about 900 ml of distilled water.
Boil for 2-3 minutes and add 17.3 gm of cupric sulfate
Make final volume up to 1 liter
The reagent is stable at room temperature.
Procedure
Pipette ml of benedicts reagent in test tube
By using Pasteur pipette add 8 drops of urine
Heat carefully or place in boiling water bath for 5-10 mins
Cool under tap water.
Result
No change in color i.e. blue: Absence of sugar.
Pale green with slightly cloudy: Trace
Definite cloudy green: 1+
Yellow to orange precipitate with supernatant fluid pale blue: 2+
Orange to red precipitate supernatant fluid pale blue: 3+
Brick red precipitate supernatant decolorized: 4+
Clinical significance
In general glucose is seen in urine in 2 conditions
A. When blood sugar is elevated
B. When blood sugar is not elevated but renal tubular absorption-glucose is impaired.
Glucose in urine is mainly seen in diabetes mellitus.
It is increased in
Any cause of increased blood glucose.
Rapid intestinal absorption (post gastrectomy dumping normal pregnancy)
Endocrine disorders other than diabetes milletus like thyrotoxicosis, gigantism.acromegaly, Cushing syndrome.
Major trauma stroke myocardial infarction or circulatory collapse cerebral hemorrhage
Burns oral steroid therapy infection pheochromocytoma
Glycogen storage disease, obesity, sepsis, carcinoma of pancrease, fanconi’s syndrome, cystinosis.
Note
If benedicts show more than 2.5% sugar urine should be diluted.
If benedicts test is positive then it is necessary to confirm it by using glucose oxidase uristix
Sugar in urine is also detected in gestational diabetes oral glucose tolerance test spot test during post prandial blood glucose.
Benedict’s reagent gives false positive in certain non-carbohydrate also such as uric acid creatinine salicyaclic acid homogentisic acid and melanogen.
Ketone bodies
The term ketones refer to 3 intermediate product of fat metabolism, they are acetone acetoacitic acid and buta hydrooxybutyric acid.
Ketone is found when there is excessive fat metabolism .excessive fat metabolism occurs in various situation
Impaired ability to metabolize carbohydrate
Inadequate carbohydrate intake
Excessive carbohydrate loss
Increased metabolic demand.
Method
1. Rothera's test for acetone.
2. Gerhard's test for diacetic acid
3. Lindeman's test for diacetic acid
4. Han’s method for betahydroxybutyric acid.
5. Tablet test
Principle
Nitroprusside used in this test reacts with both acetone and acetoacetic acid in presence of alkali (NH4OH) to produce permanganent calomel red ring at the junction
Requirements
Test tubes
Rothera powder mixture
Sodium nitroprusside
Ammonium sulphate
Liquior ammonia solution
Procedure
Transfer about 5 ml of urine to a test tube
Saturate with ammonium sulphate
add 1 crystal of sodium nitroprusside
Layer the liquor NH4OH on the side of the tube
Observe permanganate calomel ring at the junction of two layers.
Clinical Significance
Increased In
Diabetes mellitus
Propanol poisoning
Severe starvation.
Severe carbohydrate restriction
Anorexia
Fasting
Fever
Prolonged vomiting
Lactic acidosis
Salicyclate toxicity.
Note
In diabetes mellitus impaired ability to metabolize carbohydrate takes place. as carbohydrate cannot be used to meet the body energy need, fats are burned which leads to the presence of ketones in the urine.
Acetoacetic acid oxidizes rapidly to form acetone therefore test must be carried out in fresh urine specimen.
Individuals receiving levadopa paraldehyde pyridium and phathalein compound may produce false positive result when tested for ketonuria. Presence of salicylates give false negative result.
When sugar is found in urine, the urine should be tested for ketone.
Occult Blood
The term occult means hidden. Blood may be present in the urine as either red blood cells or hemoglobin. If enough blood is present the color of sample may be range from pink tinged to red to brownish black.
Tests
1. Microscopical Examination
2. Chemical Examination
Benzidine test
Guaiacum test
Gregersens test
Ortho-toluidine test.
3. Spectroscopic Test
Benzidine Test
Principle
The peroxidase activity of hemoglobin present in urine decomposes hydrogen peroxide and the liberated oxygen oxidized benzidine to form a green- blue colored complex.
Procedure
Place a pinch of benzidine in a test tube
Add 2- 3 drops of 5% glacial acetic acid.
Mix well
Add 2 ml of hydrogen peroxide solution.
Transfer supernatant to a test tube label as T
Add few drops of urine and observe the color.
Clinical significance
1. Hematuria
Presence of more number of red blood cells in urine is called hematuria which is associated with disease of or damage to the genitourinary tract .other disorder commonly used associated with hematuria includes acute infection chronic glomerulonephritis tuberculosis of kidney nephritic syndrome toxic damage to glomerulus malignant hypertension infarction renal calculi trauma to kidney, acute cystitis, calculi, tumors in the ureter or bladder and kidney stones. In other clinical conditions such as bleeding disorder (leukemia, thrombocytopenia, coagulation factor deficiency, sickle disease or traits, scurvy), use of anticoagulant drugs.
2. Hemoglobinuria
It is the presence of free hemoglobin in urine as a result of intravascular hemolysis.
Causes of hemoglobinuria
Acute
Incompatible blood transfusion
Hemolytic anemia due to drugs and chemicals.
Favism.
Paroxysmal cold hemoglobunuria.
March (exertional) hemoglobunuria.
Hemolytic anemia associated with eclampsia
Hemolytic uraemic syndrome.
Hemolytic anemia due to burns
Snake and spider bites.
Chronic
PNH
Cardiac hemolytic anemia
Cold haemagglutination disease.
3. Myoglobinuria
Myoglobin is the haem protein of striated muscle. Myoglobin is very toxic to the renal tubules and in large amounts it is associated with acute renal failure.
Clinical Conditions
Myocardial infarction
Infarction of large skeletal muscle
Destruction of muscle with crush injury heat stroke electric shock
Trauma
Note
False positive result is seen in women during menstruation due to contamination of urine with menstrual blood. So this test should be avoided during menstruation cycle.
Free Hb is not normally found in the urine .instead any Hb that could be presented to the glomerulus combines with heptoglobin. The resultant Hb heptoglobin complex is too large to pass through the glomerular membrane .If the amount of free Hb exceeds the amount of heptoglobulin , however the Hb will pass through the glomerulus and ultimately be excreted into the urine .Any disorder associated with hemolysis of red blood cells and resultant release of Hb may lead to the appearance of Hb in urine
Hematuria can be differentiated from hemoglobunuria by doing microscopical examination. In hematuria RBC seen in microscopy. In hemoglobunuria, RBC cannot see even though the test for occult blood is positive.
This test can be done for stool as occult blood for stool.
Bile in Urine
Bilirubin, bile salt, bile pigment, urobilin, urobilinogen are the constituents of bile.
Determination of Bile Salt
Hay's test
Principle
Bile salts when present lower the surface tension of urine. When sulphur powder is added to the urine, sulphur particles sink to the bottom of the tube. In the case of normal urine, it will float on the surface.
Procedure
Place about 10 ml of urine in a test tube
Sprinkle a little dry sulphur powder on to the surface of urine.
Observe sulphur particles
Methods
Foam test
Gmelin's test
Smiths test
Fouchet's test
Ehrlich's aldehyde test
Schlesingers test
Foam test
Shake some urine in a test tube. If the foam on the top is yellow, the bile pigments are present.
Fouchet’s test
Principle
When barium chloride is added to urine it combines with sulphate radicals in urine and precipitate of barium phosphate is formed. If bile pigments are present in urine, they will adhere to these large molecules. Ferric chloride present in fouchet reagent then oxidizes yellow bilirubin in presence of trichloroacetic acid to green bilverdin.
Requirements
Test tube
Pasteur pipette
Fouchet’s reagent
Filter paper
Fouchet’s reagent:
Trichloroacetic acid 25 gm
Distilled water 100 ml
10 % ferric chloride solution 10 ml
Procedure
10 ml of urine + 2.5 ml of barium chloride
Filter
Unfold the filter paper and spread it on the dry filter paper.
Allow 1 drop of Fauchet’s reagent on the precipitate
A green or blue color indicates presence of bilirubin.
Ehrlichs Aldehyde Test for Urobilinogen
Procedure
Take 5 ml of urine in test tube and add half volume i.e. about 2.5 ml of barium chloride.
Mix well and filter.
Take 2.3 ml of filtrate and add 0.5 ml of aldehyde reagent.
Allow to stand for 3 mins.
View the top column of urine against a white background.
A pink color denotes the presence of urobilinogen.
Repeat the test with 1:10, 1:20, 1:50, 1:100, 1:200 dilution and report a terms of highest dilution giving a positive reaction.
Ehrlich's reagents
Paradimethylaminobenzaldehyde 2 gms.
20% HCl 100 ml.
Schlesingers Test for Urobilin
Procedure
Take 10 ml of urine and 6 drops of tincture of iodine in a test tube.
Take 1 gm of powdered zinc acetate and 10 ml 95% alcohol in another test tube.
Mix by pouring a into b and vice versa repeatedly until the solid zinc acetate has mostly gone into solution.
Filter.
Examine the filtrate.
A green is due to compound of zinc with urobilin, confirm spectroscopically absorption band junction of green and blue.
Clinical significance
Determination of bile salts, bile pigments, and urobilinogen is useful in the diagnosis of jaundice.
Bilirubin may be found in urine in liver disease and is usually found in clients who have biliary tract obstructions.
Conjugated bilirubin appearing in urine generally indicates that there is excess conjugated bilirubin in blood stream.
Bilirubinuria is seen when intracanalicular pressure rises secondary to periportal inflammation, fibrosis or hepatocyte swelling.
Gallstones in the common bile duct or carcinoma of the head of pancreas are possible sources of extra hepatic biliary obstruction leading to bilirubinuria.
Congenital hyperbilirubinemia seen in gilberts disease or crigler najjar disease.
When liver cells are damaged, excreation of urobilinogen in the bile decreased, where as its urinary excreation is increased. This may be seen in cirrhosis, hepatitis and congenital heart failure with congestion of the liver.
Excessive urobilinogen also may be found in the urine of those with liver disease or hemolytic disorder.
Urine bilirubin
Urine urobilinogen
Bile duct obstruction
+ + +
negative
Liver damage
+ or -
+ +
Hemolytic disease
negative
+ + +
The bilirubin in urine is made confirmed by doing confirmatory bilirubin test called as diazo test.
The Fouchet’s test is also called Harrison spot test.
Fresh urine sample should be used for bilirubin determination because exposure of urine to light and room air may give false negative result .large amount of ascorbic acid and nitrates also give false negative result.
Acidic urine will result in decreased urinary level of urobilinogen. High levels of nitrates in the urine also may cause false negative results in test for urobilinogen.
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This is good but there is problem with assay procedure for protein in Urine in SSA method
ReplyDeleteYou didn't mention what's concentration of SSA in the procedure and that procedure is not for 3% SSA. So there may be mix up between procedure and the reagent, that you describe (you described preparation of 3% SSA only)
volume of the Benadict's reagent is missing it should be corrected as follows
ReplyDeletePipette 5.0 ml of benedicts reagent in to Test tube/Boiling tube
Galacial acitic acid use in ketonebody test ?
ReplyDelete