Urinalysis

Urinalysis
	White blood cells seen under a microscope from a urine sample.
Specialty	{{#statements:P1995}}
MeSH	D016482
Other codes	LOINC Codes for Urinalysis panels
MedlinePlus	003579
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A urinalysis (UA), also known as routine and microscopy (R&M), is an array of tests performed on urine, and one of the most common methods of medical diagnosis.^[1] The word is a portmanteau of the words urine and analysis.^[2]

The target parameters that can be measured or quantified in urinalysis include naked-eye (gross) examination for color and smell plus analysis for many substances and cells, as well as other properties, such as specific gravity.

A part of a urinalysis can be performed by using urine test strips, in which the test results can be read as color changes. Another method is light microscopy of urine samples.

Target parameters

Urine test results should always be interpreted using the reference range provided by the laboratory that performed the test, or using information provided by the test strip/device manufacturer.^[3]

In addition to the substances mentioned in tables below, other tests include a description of color and appearance.

Color (also check the color area in urine)

Mayo Clinic has a nice review of urine color change causes.^[4] The following are examples of color change causes and not a complete listing (if your urine is abnormal colored, web search the color for possible causes).

Nearly colorless: excessive fluid intake for the conditions (such as habit polydipsia...quite common in the USA); &, if not, this could be a sign of untreated diabetes mellitus, diabetes insipidious, and certain types of nephritis
Yellow: distinctly yellow may indicate riboflavin (vitamin B2) intake
Yellow-amber: normal
Orange: too little fluid intake for the conditions
Red: may indicate leakage of red blood cells or their hemoglobin contents; intake of red substances
Dark:
- Reddish-orange: intake of substances or medications
- Rusty-yellow to reddish-brown: intake of substances or medications
- Dark brown: intake of substances or medications ; damaged muscle (myoglobinuria) from extreme exercise or other widespread damage; altered blood; intake of phenolic (phenols) substances; a problem in porphyrin (porphyria) metabolism; and melanin from melanocytic tumors (melanoma)
- Brown black: intake of substances or medications; lots of altered blood; a problem with homogentisic acid metabolism (alkaptonuria) which can result in dark whites of the eyes and dark-colored internal organs and tissues (ochronosis); Lysol (the product with phenols) poisoning; much melanin from melanocytic (melanoma) tumors.
Magenta to purple-red: phenolphthalein type of stimulant laxative (as in Ex-Lax)
Green (or dark with greenish hue): possible problem with bile metabolism (bilirubinuria) and jaundice
Other colors: always think of substances that you have eaten or taken in drinks in the past 48 hours.

Smell (also check the smell area in urine)

The odor (scent) of urine can normally vary from odorless (when very light colored and dilute) to a much stronger odor when the person is dehydrated and the urine is concentrated. Brief changes in odor are usually just interesting and not medically significant (example: the abnormal smell many can detect after eating asparagus. Diabetics in ketoacidosis (urine has lots of ketones) have a type of abnormal urine odor. Mayo Clinic has a nice discussion of urine odor and causes.^[5]

Ions and trace metals

Target	Lower limit	Upper limit	Unit	Comments	LOINC Codes
Nitrite	n/a	0 / negative^[6]		The presence of nitrites in urine, termed nitrituria, indicates the presence of coliform bacteria. <templatestyles src="Module:Hatnote/styles.css"></templatestyles> Further information: Nitrite test	5802-4
Sodium (Na) – per day	150^[7]	300^[7]	mmol / 24 h	A urinalysis is frequently ordered during the workup of acute renal failure. Full kidney function can be detected through the simple dipstick method.	2956-1
Potassium (K) – per day	40^[7]	90^[7]	mmol / 24 h	Urine K may be ordered in the workup of hypokalemia. In case of gastrointestinal loss of K, the urine K will be low. In case of renal loss of K, the urine K levels will be high. Decreased levels of urine K are also seen in hypoaldosteronism and adrenal insufficiency.	2829-0
Urinary calcium (Ca) – per day	15^[8]	20^[8]	mmol / 24 h	An abnormally high level is called hypercalciuria and an abnormally low rate is called hypocalciuria. <templatestyles src="Module:Hatnote/styles.css"></templatestyles> Further information: Urinary calcium	14637-3
Urinary calcium (Ca) – per day	100^[8]	250^[8]	mg / 24 hours		6874-2
Phosphate (P) – per day	n/a^[7]	38^[7]	mmol / 24 h	Phosphaturia is the hyperexcretion of phosphate in the urine. This condition is divided into primary and secondary types. Primary hypophosphaturia is characterized by direct excess excretion of phosphate by the kidneys, as from primary renal dysfunction, and also the direct action of many classes of diuretics on the kidneys. Additionally, secondary causes, including both types of hyperparathyroidism, cause hyperexcretion of phosphate in the urine.	14881-7

A sodium-related parameter is fractional sodium excretion, which is the percentage of the sodium filtered by the kidney which is excreted in the urine. It is a useful parameter in acute renal failure and oliguria, with a value below 1% indicating a prerenal disease and a value above 3%^[9] indicating acute tubular necrosis or other kidney damage.

Proteins and enzymes

Target	Lower limit	Upper limit	Unit	Comments
Protein	0	trace amounts^[6] / 20	mg/dl	Proteins may be measured with the Albustix test. Since proteins are very large molecules (macromolecules), they are not normally present in measurable amounts in the glomerular filtrate or in the urine. The detection of protein in urine, called proteinuria, may indicate the permeability of the glomerulus is increased. This may be caused by renal infections or by other diseases that have secondarily affected the kidneys, such as hypertension, diabetes mellitus, jaundice, or hyperthyroidism. <templatestyles src="Module:Hatnote/styles.css"></templatestyles> Further information: Proteinuria
Human chorionic gonadotropin \|hCG	–	50^[10]	U/l	This hormone appears in the urine of pregnant women.And also in case of testicular cancer in male. Home pregnancy tests commonly detect this substance.

Blood cells

Target	Lower limit	Upper limit	Unit	Comments
Red blood cells (RBCs) / erythrocytes	0^[6]^[11]	2^[6] – 3^[11]	per High Power Field (HPF)	May be present as intact RBCs, which indicate bleeding. Even trace amount of blood is enough to give the entire urine sample a red/pink hue, and it is difficult to judge the amount of bleeding from a gross examination. Hematuria may be due to a generalized bleeding diathesis or a urinary tract-specific problem (trauma, stone, infection, malignancy, etc.) or artefact of catheterization in case the sample is taken from a collection bag, in which case a fresh urine sample should be sent for a repeat test. If the RBCs are of renal or glomerular origin (due to glomerulonephritis), the RBCs incur mechanical damage during the glomerular passage, and then osmotic damage along the tubules, so get dysmorphic features. The dysmorphic RBCs in urine which are most characteristic of glomerular origin are called "G1 cells", which are doughnut-shaped rings with protruding round blebs sometimes looking like Mickey Mouse's head (with ears). Painless hematuria of nonglomerular origin may be a sign of urinary tract malignancy, which may warrant a more thorough cytological investigation. <templatestyles src="Module:Hatnote/styles.css"></templatestyles> Further information: Hematuria
RBC casts	n/a	0 / negative^[6]
White blood cells (WBCs) / leukocytes / (pus cells)	0^[6]	2^[6] / negative^[6]		<templatestyles src="Module:Hatnote/styles.css"></templatestyles> Further information: Pyuria
White blood cells (WBCs) / leukocytes / (pus cells)	–	10	per µl or mm³	"Significant pyuria" at greater than or equal to 10 leucocytes per microlitre (µl) or cubic millimeter (mm³)
"Blood" / (actually hemoglobin)	n/a	0 / negative^[6]	dip-stick qualitative scale of 0 to 4+	Hemoglobinuria is suggestive of in vivo hemolysis, but must be distinguished from hematuria. In case of hemoglobinuria, a urine dipstick shows presence of blood, but no RBCs are seen on microscopic examination. If hematuria is followed by artefactual ex vivo or in vitro hemolysis in the collected urine, then the dipstick test also will be positive for hemoglobin and will be difficult to interpret. The urine color may also be red due to excretion of reddish pigments or drugs.

Other molecules

Target	Lower limit	Upper limit	Unit	Comments
Glucose	n/a	0 / negative^[6]		Glucose can be measured with Benedict's test. Although glucose is easily filtered in the glomerulus, it is not present in the urine because all of the glucose filtered is normally reabsorbed from the renal tubules back into the blood. Presence of glucose in the urine is called glucosuria. <templatestyles src="Module:Hatnote/styles.css"></templatestyles> Further information: Glucosuria
Ketone bodies	n/a	0 / negative^[6]		With carbohydrate deprivation, such as starvation or high-protein diets, the body relies increasingly on the metabolism of fats for energy. This pattern is also seen in people with diabetes mellitus, when a lack of the hormone insulin prevents the body cells from using the large amounts of glucose available in the blood. This happens because insulin is necessary for the transport of glucose from the blood into the body cells. The metabolism of fat proceeds in a series of steps. First, triglycerides are hydrolyzed to fatty acids and glycerol. Second, the fatty acids are hydrolyzed into smaller intermediate compounds (acetoacetic acid, betahydroxybutyric acid, and acetone). Thirdly, the intermediate products are used in aerobic cellular respiration. When the production of the intermediate products of fatty acid metabolism (collectively known as ketone bodies) exceeds the ability of the body to metabolize these compounds, they accumulate in the blood and some end up in the urine (ketonuria). <templatestyles src="Module:Hatnote/styles.css"></templatestyles> Further information: Ketonuria
Bilirubin	n/a	0 / negative^[6]		The fixed phagocytic cells of the spleen and bone marrow destroy old red blood cells and convert the heme groups of hemoglobin to the pigment bilirubin. The bilirubin is secreted into the blood and carried to the liver, where it is bonded to (conjugated with) glucuronic acid, a derivative of glucose. Some of the conjugated bilirubin is secreted into the blood and the rest is excreted in the bile as bile pigment that passes into the small intestine. The blood normally contains a small amount of free and conjugated bilirubin. An abnormally high level of blood bilirubin may result from an increased rate of red blood cell destruction, liver damage (as in hepatitis and cirrhosis), and obstruction of the common bile duct as with gallstones. An increase in blood bilirubin results in jaundice, a condition characterized by a brownish-yellow pigmentation of the skin and of the sclera of the eyes. <templatestyles src="Module:Hatnote/styles.css"></templatestyles> Further information: Bilirubinuria
Urobilinogen	0.2^[6]	1.0 ^[6]	Ehrlich units or mg/dL
Creatinine – per day	4.8^[7]	19^[7]	mmol / 24 h
Free catecholamines, dopamine – per day	90 ^[12]	420 ^[12]	μg / 24 hours
Free cortisol	28^[13] or 30^[14]	280^[13] or 490^[14]	nmol/24 h	Values below threshold indicate Addison's disease, while values above indicate Cushing's syndrome. A value smaller than 200 nmol/24 h (72 µg/24 h^[15]) strongly indicates absence of Cushing's syndrome.^[14]
Free cortisol	10^[16] or 11^[15]	100^[16] or 176^[15]	µg/24 h
Phenylalanine		30.0	mg/L^[17]	In neonatal screening, a value above the upper limit defines phenylketonuria.^[17]

Other urine parameters

Test		Lower limit	Upper limit	Unit	Comments
Urine specific gravity		1.003 ^[1]^[6]	1.030^[1]^[6]	no unit	This test detects the ion concentration of urine. Small amounts of protein or ketoacidosis tend to elevate the urine's specific gravity (SG). This value is measured using a urinometer and indicates hydration or dehydration. If the SG is under 1.010, the patient is hydrated; an SG value above 1.020 indicates dehydration.
Osmolality		400^[7]	n/a^[7]	mOsm/kg
pH		5^[6]	7^[6]	(unitless)
Bacterial cultures	by urination	–	100,000	colony forming units per millilitre (CFU/mL)	Bacteriuria can be confirmed if a single bacterial species is isolated in a concentration greater than 100,000 CFU/ml of urine in clean-catch midstream urine specimens (one for men, two consecutive specimens with the same bacterium for women). <templatestyles src="Module:Hatnote/styles.css"></templatestyles> Further information: Bacteriuria
Bacterial cultures	by bladder catheterisation	–	100	colony forming units per millilitre (CFU/mL)	For urine collected via bladder catheterisation, the threshold is 100 CFU/ml of a single species. <templatestyles src="Module:Hatnote/styles.css"></templatestyles> Further information: Bacteriuria

Drugs

Urine may be tested to determine whether an individual has engaged in recreational drug use. In this case, the urinalysis would be designed to detect whatever marker indicates drug use.

Methods

When doctors order a urinalysis, they will request either a routine urinalysis or a routine and microscopy (R&M) urinalysis, with the difference being a routine urinalysis does not include microscopy or culture.

Urine test strip

A urine test strip can quantify:

Leukocytes – with presence in urine known as leukocyturia
Nitrite – with presence in urine known as nitrituria
Protein – with presence in urine known as proteinuria, albuminuria, or microalbuminuria
Blood – with presence in urine known as hematuria
specific gravity

Microscopic examination

A urine sample is about to be examined under a phase-contrast microscope using a Neubauer counting chamber. The urine is under the cover slide, in the upper segment formed by the H-shaped grooves.

The numbers and types of cells and/or material such as urinary casts can yield a great detail of information and may suggest a specific diagnosis.

Hematuria – associated with kidney stones, infections, tumors and other conditions
Pyuria – associated with urinary infections
Eosinophiluria – associated with allergic interstitial nephritis, atheroembolic disease
Red blood cell casts – associated with glomerulonephritis, vasculitis, or malignant hypertension
White blood cell casts – associated with acute interstitial nephritis, exudative glomerulonephritis, or severe pyelonephritis
(Heme) granular casts – associated with acute tubular necrosis
Crystalluria – associated with acute urate nephropathy (or acute uric acid nephropathy, AUAN)
Calcium oxalatin – associated with ethylene glycol
Waxy casts – associated with chronic renal disease

Other methods of urinalysis

Urine culture – a microbiological culture of urine samples, detecting bacteriuria, is indicated when a urinary tract infection is suspected.
Ictotest – this test is used to detect the destruction of old red blood cells in the urine.
Hemoglobin test – this tests for hemolysis in the blood vessels, a rupture in the capillaries of the glomerulus, or hemorrhage in the urinary system, which cause hemoglobin to appear in the urine.

References

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↑ http://www.mayoclinic.org/symptoms/urine-odor/basics/causes/sym-20050704
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↑ ^7.0 ^7.1 ^7.2 ^7.3 ^7.4 ^7.5 ^7.6 ^7.7 ^7.8 ^7.9 Reference range list from Uppsala University Hospital ("Laborationslista"). Artnr 40284 Sj74a. Issued on April 22, 2008
↑ ^8.0 ^8.1 ^8.2 ^8.3 medscape.com - Urine Calcium: Laboratory Measurement and Clinical Utility By Kevin F. Foley, PhD, DABCC; Lorenzo Boccuzzi, DO. Posted: 12/26/2010; Laboratory Medicine. 2010;41(11):683–686. © 2010 American Society for Clinical Pathology. In turn citing:
- Wu HBA. Tietz Guide to Clinical Laboratory Tests. 4th ed. St. Louis, MO: Saunders, Elsevier; 2006.
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External links

‹ The template below (Abnormal clinical and laboratory findings for urine) is being merged. See templates for discussion for the discussion that led to this result. ›

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[4] ttp://www.mayoclinic.org/diseases-conditions/urine-color/basics/causes/con-20032831

[5] ttp://www.mayoclinic.org/symptoms/urine-odor/basics/causes/sym-20050704

[southwest-6] 6.00 ^6.01 ^6.02 ^6.03 ^6.04 ^6.05 ^6.06 ^6.07 ^6.08 ^6.09 ^6.10 ^6.11 ^6.12 ^6.13 ^6.14 ^6.15 ^6.16 ^6.17 Normal Reference Range Table from The University of Texas Southwestern Medical Center at Dallas. Used in Interactive Case Study Companion to Pathologic basis of disease.

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Wu HBA. Tietz Guide to Clinical Laboratory Tests. 4th ed. St. Louis, MO: Saunders, Elsevier; 2006.

[9] Wu HBA. Tietz Guide to Clinical Laboratory Tests. 4th ed. St. Louis, MO: Saunders, Elsevier; 2006.

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[medlineplus-16] 16.0 ^16.1 MedlinePlus - Cortisol – urine. Update Date: 11/23/2009. Updated by: Ari S. Eckman. Also reviewed by David Zieve.

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Urinalysis

Contents

Target parameters

Color (also check the color area in urine)

Smell (also check the smell area in urine)

Ions and trace metals

Proteins and enzymes

Blood cells

Other molecules

Other urine parameters

Drugs

Methods

Urine test strip

Microscopic examination

Other methods of urinalysis

See also

References

External links

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