Urinalysis

Question 1

What is the purpose of urinalysis?

Answer 1

The purpose of urinalysis is to diagnose and manage renal or urinary tract disease, and to detect metabolic or systemic diseases not related to the kidney.

Question 2

Why is a morning sample best when collecting urine via normal micturation?

Answer 2

A morning sample is best because it is more concentrated and is free from influences such as feeding or exercise.

Question 3

Why should you avoid the initial stream when collecting urine via normal micturation?

Answer 3

The initial stream may contain cells or debris from the urethra or genital tract.

Question 4

When must sterile containers be used to collect urine samples via normal micturation?

Answer 4

Sterile containers should be used when making a bacterial culture?

Question 5

What methods can be used to collect a urine sample for urinalysis?

Answer 5

Collection via normal micturation (voided), manual compression of the urinary bladder, catheterization, or cystocentesis.

Question 6

What are the advantages of urine collection via catheterization?

Answer 6

Catheterization provides an immediate sample that is practically free from contamination.

Question 7

Is bacteria present in normal urine?

Answer 7

no

Question 8

What is a disadvantage of urine collection via catheterization?

Answer 8

Catheter trauma may increase number of RBCs and epithelial cells.

Question 9

When is cystocentesis most commonly used?

Answer 9

Cystocentesis is most commonly used to collect urine from small animals.

Question 10

Why should urine samples be fresh when analyzed?

Answer 10

Samples should be fresh when analyzed because bacteria in a sample may multiply, cells break down, casts may dissolve in alkaline urine, and some bacteria may increase pH.

Question 11

What should you do if you are unable to perform urinalysis within one hour of collection?

Answer 11

refrigerate the sample

Question 12

What effect does refrigeration have on a urine sample?

Answer 12

The specific gravity is slightly increased.

Question 13

What effect does freezing have on a urine sample?

Answer 13

It alters the sediment, however it is an acceptable preservation for chemistry analysis.

Question 14

What effect does formalin have on a urine sample?

Answer 14

One drop of formalin preserves formed elements, but alters the chemistry of the urine.

Question 15

What are the components of a complete urinalysis?

Answer 15

A complete urinalysis consists of examining the physical characteristics of the urine, measuring the specific gravity (concentration of solids), running routine chemistries, a microscopic sediment examination all using routine protocol and as soon after collection as possible.

Question 16

What are the physical characteristics of normal urine?

Answer 16

Normal urine is amber/yellow due to urochrome pigment. Its intensity of color depends on concentration. Clear is normal except in horses and rabbits.

Question 17

What are causes of abnormally colored urine?

Answer 17

hemorrhage (red), hemoglobinuria (red), bilirubinuria (dark yellow/orange/brown w. colored foam upon agitation) and myoglobinuria (brown)

Question 18

Define hemoglobinuria.

Answer 18

the presence of hemoglobin in the urine, causing it to turn red in color

Question 19

Define bilirubinuria.

Answer 19

the presence of bilirubin in the urine, causing it to turn dark yellow/orange/brown in color and colored foam upon agitation

Question 20

Define myoglobinuria.

Answer 20

the presence of myoglobin in the urine, causing it to turn brown in color

Question 21

What are possible causes of turbidity in urine?

Answer 21

Mucus, crystals, cells, semen, bacteria, lipids, and casts are all possible causes of turbidity in urine.

Question 22

Define floculent.

Answer 22

loosely clumped in texture

Question 23

What is urine volume related to?

Answer 23

Urine volume is related to fluid intake, exercise and the size of the animal.

Question 24

Define polyuria.

Answer 24

abnormally excessive urination

Question 25

What are some physiologic causes of polyuria?

Answer 25

Increased water consumption, supplemental fluids, steroid administration, and diuretic administration are all possible physiologic causes of polyuria.

Question 26

What are some pathologic causes of polyuria?

Answer 26

Chronic renal disease, diabetes mellitus, diabetes insipidus, hyperadrenocorticism, psychogenic polydipsia, and renal glycosuria are all possible pathologic causes of polyuria.

Question 27

Define oliguria.

Answer 27

abnormally low urination

Question 28

What are some physiologic causes of oliguria?

Answer 28

Decreased water intake, dehydration, and exercise are all possible physiologic causes of oliguira.

Question 29

What are some pathologic causes of oliguria?

Answer 29

Acute renal failure, urinary tract obstruction, terminal chronic renal failure, and shock are all possible pathologic causes of oliguria.

Question 30

What does urine with an ammonia odor indicate?

Answer 30

retained urine

Question 31

What does urine with a fetid odor indicate?

Answer 31

protein breakdown

Question 32

What does urine with an acetone odor indicate?

Answer 32

ketosis

Question 33

Define urine specific gravity.

Answer 33

Specific gravity is a measure of the total solids in the urine as compared to water. It indicates the concentrating and diluting abilities of the kidneys.

Question 34

What are some possible causes of variations in urine specific gravity?

Answer 34

Diet, fluid intake, climate and activity are all potential causes of variations in urine specific gravity.

Question 35

What methods can be used to measure urine specific gravity?

Answer 35

A urinometer or refractometer is used to measure urine specific gravity.

Question 36

How much urine is required to measure urine specific gravity using a urinometer?

Answer 36

10-15ml

Question 37

How does a standard refractometer differ from a veterinary refractometer?

Answer 37

A standard refractometer measures up to 1.035-1.050. A veterinary refractometer measures up to 1.060 and has seperate scales for cats and dogs/large animals.

Question 38

Define hematouria.

Answer 38

urine containing blood, turning it red

Question 39

How is urine specific gravity interpreted?

Answer 39

Urine specific gravity can range from 1.000 (water) to >1.060. It is usually inversely related to volume.

Question 40

Define isothenuria.

Answer 40

continued excretion of urine at the SG of glomerular filtrate (1.008-1.012)

Question 41

What may isothenuria indicate?

Answer 41

Isothenuria may be a chance finding of normal kidneys, or it may indicate a complete lack of concentrating ability of nephron tubules (at least 2/3 of nephrons nonfunctional).

Question 42

How may a lack of concentrating ability of the nephron tubules of the kidneys be confirmed?

Answer 42

Lack of concentration ability may be confirmed by demonstrating dehydration and/or azotemia.

Question 43

How are the chemical characteristics of urine analyzed?

Answer 43

Chemical characteristics are analyzed by use of reagent strips.

Question 44

What is the procedure for analyzing urine using reagent strips?

Answer 44

Immerse the dipstick in well mixed, unspun urine, blot excess urine and visually compare the test areas.

Question 45

What does urine pH indicate?

Answer 45

Urine pH is a crude index of the body’s acid-base balance.

Question 46

What is the normal range of urine pH?

Answer 46

5-8.5

Question 47

What factors may affect urine pH?

Answer 47

Urine pH depends somewhat on diet and metabolism, and becomes alkaline when kept at room temprature.

Question 48

What values are associated with urinary cystitis?

Answer 48

Alkaline values are often associated with urinary cystitis because of the bacterial catabolism of urea to ammonia.

Question 49

Define proteinuria

Answer 49

presence of protein in the urine

Question 50

What are possible causes of proteinuria?

Answer 50

Glomerular or tubular disease, hemorrhage, and inflammatin are all possible causes of proteinuria.

Question 51

What are possible sources of protein in the urine?

Answer 51

plasma, urinary tract, sometimes the genital tract

Question 52

When are small amounts of protein in urine significant?

Answer 52

Small amounts of protein are significant in dilute urine.

Question 53

What are the normal glucose levels in urine?

Answer 53

Glucose is not normally present in urine - no color change on the reagent strip is normal. Glucose is normally filtered by the glomerulus and reabsorbed by the proximal tubules.

Question 54

Define glycosuria.

Answer 54

glucose in the urine exceeding the renal threshold

Question 55

What are some possible causes of glycosuria?

Answer 55

Stress, especially in cats, diabetes mellitus, and primary renal glycosuria are all possible causes of glycosuria.

Question 56

Define ketonuria.

Answer 56

presence of ketones in the urine

Question 57

When does ketonuria occur?

Answer 57

Ketonuria occurs when excessive amounts of fatty acids are metabolized, accumulate in the blood and then are excreted in the urine.

Question 58

What is the most important cause of ketonuria>

Answer 58

Diabetes mellitus is the most important cause of ketonuria.

Question 59

When may a false positive for ketonuria occur?

Answer 59

False positives may occur with highly pigmented urine.

Question 60

What are some possible causes of ketonuria other then diabetes melletus?

Answer 60

Fevers, anorexia, pregnancy, starvation, ketosis (in cattle)

Question 61

What may cause a false negative for bilirubin?

Answer 61

Excessive delay in reading

Question 62

What are some causes of bilirubinuria?

Answer 62

hepatocellular disease, obstructive biliary tract disease, hemolyis, may also be present in normal dogs

Question 63

How is hematuria identified?

Answer 63

Hematuria causes red, cloudy urine with RBCs after being spun down for sedimentation.

Question 64

How is hemoglobinuria identified?

Answer 64

Hemoglobinuria causes red to brown urine with absence of RBCs in the urine sedimentation.

Question 65

How is myoglobinuria identified?

Answer 65

Hemoglobinuria causes brownish urine, with an absence of RBCS in the urine sedimentation. There is also absence of evidence of hemolysis.

Question 66

What does myoglobinuria idicate?

Answer 66

muscle disease

Question 67

What is the normal reading for urobilinogen?

Answer 67

negative in many normal animals, not a very valuable test

Question 68

What does a positive urobilinogen test indicate?

Answer 68

A positive test indicates patent bile duct, and increased concentrations are seen in cases of hemolysis and decreased functional hepatic mass.

Question 69

What is the procedure for urine sedimentation examination?

Answer 69

The urine is centerfuged for 5 minutes at a low rate of speed (1000-3000 RPM). The supernate is poured off, and the remaining sediment and supernate is mixed gently. Pipette 1 drop to the slide, add coverslip, and examine with microscope. One drop of Sedi-stain may be added to the remaining sediment and 1 drop added to the same slide with a coverslip.

Question 70

How is a urine sedimentation examined using a microscope?

Answer 70

Scan the sample under the 10x objective and with low light, noting the presence of casts. Report types and average numbers/LPF. Examine at least 10 fields with the 40x objective, estimating the average numbers of RBCs, WBCs, and epithelial cells/fiend. Report relative quantities of bacteria, amorphous and other crystals, and fat droplets as few/moderate/many. Note the presence of sperm, mucus, yeast, etc.

Question 71

How are squamous epithelial cells identified in a sediment examination?

Answer 71

Squamous epithelial cells are the largest cells seen in a sediment examination. They have an irregular outline with angular margins and a small, round nucleus. They occur singly or in sheets, and originate from the urethra and/or the vagina/prepuce.

Question 72

How are transitional epithelial cells identified in a sediment examination?

Answer 72

Transitional epithelial cells are between squamous and renal epithelial cells in size. Shapes may vary - round, oval, spindled and caudate shapes are seen. They may be in clusters or single, and are of little diagnostic importance unless they are neoplastic. A few will normally have two nuclei. They originate from the renal pelvis, ureter, urinary bladder, or the proximl urethra.

Question 73

How are renal epithelial cells identified on a sediment examination?

Answer 73

Renal epithelial cells are small, round, and slightly larger then RBCs. They usually degenerate and are difficult to identify. They originate in the renal tubules.

Question 74

How are erythrocytes identified on a sediment examination?

Answer 74

Erythrocytes as seen on a urine sediment examination are round, slightly light refractile, and range from colorless to pale orange. They may crenate in concentrate urine or balloon/lyse in dilute urine.

Question 75

What does a presence of erythrocytes > 4-5/HPV indicate?

Answer 75

a hemorrhage at some point in the urinary tract, possibly due to a needle puncture or catheter trauma depending on the method of collection

Question 76

How are leukocytes identified on a sediment exam?

Answer 76

Leukocytes as seen on a urine sediment exam are large, granular cells with a nucleus that is frequently degenerate. They are larger then RBCs but smaller then epithelial cells.

Question 77

Define pyuria.

Answer 77

pus (neutrophils) in the urine

Question 78

What is a possible cause of pyuria?

Answer 78

inflammation of the genitourinary tract due to cystitis, pyelonephritis, etc.

Question 79

What condition is pyuria frequently associated with?

Answer 79

Pyuria is frequently associated with bactiuria.

Question 80

Define bacturia.

Answer 80

presence of bacteria in the urine

Question 81

What do casts in a sedimentation exam indicate?

Answer 81

renal irritation, renal inflammation, or renal degeneration

Question 82

What condition is often associated with the presence of casts on a sedimentation exam?

Answer 82

proteinuria

Question 83

How are hyaline casts identified on a sediment exam?

Answer 83

Hyaline casts are made of protein alone, and are colorless, semitransparent, and cylindrical with rounded ends. A few may be present in normal urine, but they may also indicate the mildest form of renal irritation.

Question 84

How are granular casts identified on a sedimentation exam?

Answer 84

Granular casts are the most common type of cast seen. They are hyaline casts containing granules, and are primarily derived from the disentigration of the tubular epithelial cells. They indicate more severe renal disease then hyaline casts.

Question 85

How are waxy casts identified on a sedimentation exam?

Answer 85

Waxy casts are broader then hyaline casts, highly refractive and brittle, and usually have broken off square ends. They are yellow or dull waxy in appearance. Waxy casts indicate severe nephritis and renal degeneration.

Question 86

How are fatty casts identified on a sedimentation exam?

Answer 86

Fatty casts contain many fat globules that are very refractive.

Question 87

Where are fatty casts commonly seen?

Answer 87

Fatty casts are commonly seen in cats with renal disease due to the increased lipid content of urine.

Question 88

How are RBC casts identified on a sedimentation exam?

Answer 88

RBC casts are deep yellow or orange in color, and consist of RBCs incorperated in a hyaline matrix. They indicate hemorrhage has occurred within the nephron of the kidney.

Question 89

How are WBC casts identified on a sedimentation exam?

Answer 89

White blood cell casts consist of intact leukocytes incorperated in the hyaline matrix. They indicate renal inflammation i.e. pyelonephritis

Question 90

How is bacteria identified on a urine sedimentation exam?

Answer 90

Bacterial rods occur singly or in chains. Cocci may be more difficult to ID if seen singly; staining may help.

Question 91

What is the significance of bacteria seen on a urine sedimentation exam?

Answer 91

Normal urine is sterile until it reaches mid-urethra. Bacteria may be normal in samples collected via catheter or voiding, but is not normal in urine collected via cystocentesis.

Question 92

How are fat droplets identified on a urine sediment exam?

Answer 92

Fat droplets are round, highly refractile, and vary in size. They float to the undersurface of the coverslip. Fat droplets are present in most cats. They indicate fat metamorphosis of the renal tubules, obesity, high fat diets, hypothyroidism, and diabetes mellitus.

Question 93

How is mucus identified on a urine sediment exam?

Answer 93

Mucus as seen on a urine sediment exam appears as narrow, twisted, ribbon like strands. It can be caused by urethral irritation or genital secretions.

Question 94

In what species is mucus a normal finding on a urine sediment exam?

Answer 94

the horse

Question 95

When is sperm seen in a urine sediment exam?

Answer 95

Sperm is commonly seen in U/A of intact male animals, and may be seen in voided or catheterized samples of female animals post breeding.

Question 96

What factors contribute to crystal formation in urine?

Answer 96

Crystal formation depends on pH, solubility, the concentration of the crystalloid, and the administration of drugs.

Question 97

What is the significance of crystals in a urine sediment exam?

Answer 97

They can be seen in cases of urolithiasis and in a few metabolic disturbances but are otherwise of little importance

Question 98

How are struvite/magnesium ammonium phosphate crystals identified?

Answer 98

they appear as “coffin lids” or envelopes and are presennt in alkaline, neutral and slightly acid urine

Question 99

How are calcium carbonate crystals identified?

Answer 99

they appear as spheres/ovals/dumbbells and are formed in alkaline urine. they are common in horses

Question 100

How are calcium oxalate dihydrate crystals identified?

Answer 100

they appear as small colorless envelopes, and are formed in acid, slightly neutral and alkaline urine

Question 101

How are calcium oxalate monohydrate crystals formed?

Answer 101

they are colorless and rectangular with blunt points (“picket fences”) and are formed in acid, neutral and slightly alkaline urine. they indicate ethelyne glycol toxicity

Question 102

How are ammonium biurate crystals identified?

Answer 102

they are yellow, opaque, or brown in color and appear as “thorn apple” spheres. they are often covered with spicules, dumbbells, or sheaves of needles and are formed in alkaline urine. commonly seen in dalmations, and may be seen with portal caval shunt or liver disease

Question 103

How are bilirubin crystals identified?

Answer 103

Bilirubin crystals appear as yellow to reddish brown needle-like structures in bundles, and form in acid urine.

Question 104

How are cystine crystals identified?

Answer 104

they appear as flat, colorless, hexagonal plates with well defined edges that occur singly or in clusters. they indicate altered protein metabolism; congenital cystinuria in dogs

Question 105

When are sulfonamide crystals seen?

Answer 105

with exessive treatment (with sulfa drugs)

Question 106

When are tyrosine crystals seen?

Answer 106

rarely seen with liver disease

Question 107

What are some possible artifacts seen on a sediment exam?

Answer 107

pollen grains/spores, glass particles, fecal material, fragments of cotton or other fabric, starch granules from glove powder, etc