Urinalysis PDF

Summary

This document provides detailed information on urinalysis, including types of specimens, collection methods, and various tests. It covers a wide range of procedures and techniques, along with explanations of reagents and processes, making it a valuable resource for medical professionals.

Full Transcript

CHRISTINE A. AGBUNAG, RMT
 Formed in the kidneys as an ultrafiltrate of plasma.
It is the most analyzed body fluid in the body.

Reasons for using urine as specimen:
It is readily available and easily collected.
It contains information about the body’s major metabolic
functions.
Inexpensive laboratory testing can be performed.
It is most useful in ascertaining evidence of disease or disturbing
function of the kidneys.
Testing of urine with procedures commonly performed in an
expeditious, reliable, safe and cost-effective manner.

REASONS FOR URINALYSIS
Diagnosis of disease.
Screening asymptomatic populations for undetected disorders.
Monitoring progress of disease and effectiveness of
therapy.
Diagnosing and treating urinary tract infections.
1 Ease of collection and convenience for the patient.
Most commonly received in the laboratory
Collected at anytime but the time of collection
should be recorded.

2
Collected immediately after waking up from 8
hours of sleep. CONCENTRATED
SPECIMEN
Ideal screening specimen.
Prevent false-negative pregnancy tests and is used
for evaluating orthostatic proteinuria.
3
A second morning or second specimen voided
after fasting (glucose monitoring).

4
1. Tolerance test - fasting, 1/2 hour, 1 hour, etc.
2. 2-hour post prandial - two hours after meal.
3. Double voided - waiting time of approximately
30 minutes after emptying the bladder.
4. 24-hour urine specimen.
 Used to produce accurate quantitative results.
When the concentration of the substance to be
measured changes with diurnal variations and
with daily activities, such as exercise, meals, and
body metabolism, 24-hour collection is required.
To obtain an accurate timed specimen,
the patient must begin and end the
collection period with an empty bladder.
 24-hour specimen Procedure
1. Empty the bladder upon waking up.
2. Affix the label on the container and write down the time and date
of the specimen collection. Start timing.
3. Discard line output at the first hour of collection and collect all the
urine that has been passed for the next 24 hours.
4. If instructed, refrigerate the specimen collected all throughout the
collection period.
5. Collect urine prior to bowel movement.
6. Drink fluid as needed to avoid dehydration.
7. Take one last void at the end of the 24-hour collection period.
8. Make sure the container is sealed before placing it in the cooler.
Arrange to transport the specimen to the laboratory at the soonest
possible time.
5
Specimen is collected under sterile conditions by
passing a hollow tube (catheter) through the
urethra into the bladder.
Test requested most commonly on a catheterized
specimen is a bacterial culture.
6
Safer, less traumatic method for obtaining urine
for bacterial culture and routine urinalysis.
Alternative to the catheterized specimen.
More representative of the actual urine than the
routinely voided specimen.
It is less contaminated by epithelial cells
and bacteria.
7
Collected by external introduction of a needle
through the abdomen into the bladder.
Bacterial culture and cytology examinations.

8
1. Three-Glass Collection
2. Pre- and Postmassage Test
3. Stamey-Meares Test for Prostatitis
9
Soft, clear plastic bags that are hypoallergenic are
available for collecting routine specimens.
These bags have hypoallergenic skin adhesive
attach to the cleaned genital area of both boys
and girls.
Sterile specimens may be obtained by
catheterization or by suprapubic aspiration.
 Regular voided The patient voids or urinates into a clean container.

The patient voids or urinates into the toilet first, interrupts the urination
Midstream for a while, and then restarts into the container with the last urine flow
voided in the toilet.
Midstream clean- Special cleaning is performed on the genital area of the patient before
catch collection.
Urine of patient is collected from a sterile catheter inserted through the
Catheterized urethra into the bladder.
Suprapubic Urine of patient is collected by inserting needle directly into bladder and
aspiration aspirating the urine by the use of a sterile syringe.
When the patient is a child who is not potty-trained, urine is collected in a
Pediatric plastic bag and checked every 15 minutes until the required volume is
collected.
 Disposable, clean, dry, and leak-proof
Wide-mouth
Recommended capacity: 50 mL

1. Specimens in containers that are unlabeled or
improperly labeled
2. Labels and requisition forms that do not match
3. Specimens contaminated with feces or toilet
paper
4. Containers with contaminated exteriors
5. Specimens of insufficient quantity
6. Specimens that have been transported
improperly.
 Varies from almost colorless to black.
Variations may be due to normal metabolic functions,
physical activity, ingested materials or pathologic
conditions.
Normal color: pale yellow, yellow, dark yellow.
The yellow color of urine is caused by the presence of a
pigment, UROCHROME. product of endogenous
metabolism.
Examination of urine color should be under a good light
source, looking down through the container against a
white background.
 General term that refers to transparency or turbidity of
urine.
Common terminologies used
 Clear
 Hazy
 Cloudy
 Turbid
 Milky
Examine specimen while holding in front of a light source.
View through a newspaper print.
 URINE CLARITY DETERMINATION
No visible particulates,
CLEAR
transparent
Few particulates, print easily seen
HAZY
through urine
Many particulates, print blurred
CLOUDY
through urine
Print cannot be seen through
TURBID
urine
MILKY Many precipitate or be clotted
 Not part of routine urinalysis
Freshly voided urine: faint aromatic odor
ODOR POSSIBLE CAUSES
Aromatic Normal
Foul-ammonia-like UTI, bacterial decomposition
Fruity, sweet Diabetes mellitus, starvation, vomiting
Maple syrup Maple syrup urine disease
Mousy Phenylketonuria
Rancid Tyrosinemia
Sweaty feet Isovaleric acidemia
Cabbage Methionine malabsorption
Bleach Contamination
 Consists of chemical-impregnated absorbent pads
attached to a plastic strip.
Color-producing chemical reaction takes place
when the absorbent pad comes in contact with
urine.
The reactions are interpreted by comparing the
color produced on the pad with a chart supplied by
the manufacturer.
 Provide a simple, rapid means for performing medically
significant chemical analysis of urine
It includes:
 pH  Specific gravity  Ascorbic acid
 Protein  Ketones  Creatinine
 Blood  Glucose
 Urobilinogen  Bilirubin
 Nitrite  Leukocyte
REAGENT STRIP HANDLING AND STORAGE:
Store with desiccant in an opaque, tightly closed container
Stored below 30°C
Bottle should not be open in the presence of volatile fumes
Do not use expired reagent strips
Causes of reagent strip deterioration:
 Moisture
 Volatile chemicals
 Heat
 Light
REAGENT STRIP TECHNIQUE:
MIX DIP REMOVE BLOT COMPARE

Improper techniques:
 Unmixed specimens
 Allowing the strip to remain in the urine for extended
period
 Excess urine remaining on the strip
Specimens that have been refrigerated must be allowed to
return to room temperature before reagent strip technique
4-Parameter Urine Reagent strip
10-Parameter Urine Reagent strip
12-Parameter Urine Reagent strip
TIME (seconds) PARAMETER PRINCIPLE
GLUCOSE Double sequential enzymatic reaction
30
BILIRUBIN Diazo reaction
40 KETONE Sodium nitroprusside reaction
SPECIFIC pKa change of a polyelectrolyte
45
GRAVITY
PROTEIN Protein error of indicators
pH Double indicator system
BLOOD Pseudoperoxidase activity of
60
hemoglobin
UROBILINOGEN Ehrlich reaction
NITRITE Greiss reaction
120 LEUKOCYTES Leukocyte esterase
 Remarks Result
Derived from the metabolism of Formation of N2 gas
Urea
amino acids into ammonia
From catabolism of nucleic acid Formation of crystals
Uric acid in food and cell destruction
Creatinine: Jaffe Derived from creatine, Yellow/Orange
picric acid nitrogenous substance in
reaction muscle tissue
Component of principal salt Drops until the
Chloride: Fantus
(NaCl) formation of red brown
method
color
Phosphates Buffers in the blood Bright yellow precipitate
 Principle Positive Clinical Significance
Result
Purple ring at the Purple ring or Diabetes mellitus,
junction is produced in purple tinge propanol toxicity,
Acetone: Rothera’s
presence of acetone severe starvation,
Nitroprusside Test
fasting, fever, prolonged
vomiting
In a hot alkaline Green Blood sugar is elevated
Glucose: Benedict’s solution, glucose Yellow Renal tubular
Test reduces copper salts to Orange absorption is impaired
cuprous oxide Red
Denaturation of White ring at Proteinuria
Albumin: Heller precipitated proteins the junction of Glomerular damage
Ring’s test the solution Defect in reabsorption
of tubules.
 Principle Positive Clinical
Result Significance
Peroxidase Green Hematuria
activity of Blue Hemoglobinuria
Blood: Benzidine
Hemoglobin Myoglobinuria

Oxidation of bile Blue, green, Jaundice, liver disease,
Bile pigments:
pigments violet ring bilirubinuria,
Gmelin’s Test
gallstones
Formation of red Red ring or red Hyperlipidemia
Bile acid and color upon solution Cholestasis
salts: addition of Gallstones
Pettenkofer’s Test sucrose and
sulfuric acid
Normal Crystals
Uric Acid
Ca oxalate
Hippuric
Ca phosphate
Triple phosphate
Ca carbonate
Ammonium biurate
Abnormal Crystals
Bilirubin
Cholesterol
Cystine
Leucine
Tyrosine
1. Check request and specimen labels as to:
Name of Patient
Age
Sex
Birthday
Requesting Physician
Ward
Examination Desired
Specimen Submitted
Time received
Date and Time collected
2. Label the request and the specimen container with the
corresponding assigned number.
3. Examine the physical characteristics of urine sample
grossly or macroscopically as to COLOR AND
TRANSPARENCY/CLARITY.
4. Pour about 3ml to 5 ml of urine sample into a test tube
labeled with the corresponding assigned number.
5. Remove one urine dip strip from the bottle and replace cap.
6. Completely immerse reagent areas of the strip in fresh
urine and remove immediately to avoid dissolving out
reagents.
7. While removing, run edge of the entire length of the strip
against the rim of the urine container to remove excess
urine.
8. Hold the strip in a horizontal position to prevent
possible mixing of chemicals from adjacent reagent
areas and/or contaminating the hands with urine.
9. If reading visually, compare reagent areas to
corresponding Colour Chart on the bottle label at time
specified.
10.Hold strip close to colour blocks and match carefully.
Avoid laying the strip on
the Colour Chart, as this will result in the soiling of
colour chart.
11.For optimal results read result within the time specified
on the bottle label.
12.Centrifuge sample for about 5 minutes at 1500rpm.
13.Decant supernatant fluid and examine sediments under the
microscope.
Red Blood Cells, Pus cells and Casts: Reported as count per
HPO
Epithelial cells and other components: Reported as cell
seen per LPO OCCASIONAL 1-4
FEW 5-10
MODERATE 11-25
MANY OVER 25
14.Write results on official urinalysis form and logbook.
15.Official reports are signed by the Medical Technologist and
Pathologist before releasing to the general receiving and
releasing area.
Strasinger, S. K., & Di Lorenzo, M. S. (2021).
Urinalysis and body fluids. Seventh edition.
Philadelphia, PA, F.A. Davis Company.

Learning Guide for Principles of Medical
Laboratory Science 2 1st Edition · Author(s).
Bernard U. Ebuen, Nini F. · Publisher. C&E
Publishing, Inc.
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