CLINICAL MICROSCOPY

Question 1

Potential harmful microorganisms

Answer 1

BIOLOGICAL HAZARD

Question 2

3 routes of infection

Answer 2

1. Inhalation
2. Ingestion
3. Direct inoculation or skin contact

Question 3

6 components (Chain of infection)

Answer 3

IREMES
1. Infectious agent
2. Reservoir
3. Exit portal
4. Mode of transmission
5. Entry portal
6. Susceptible host

Question 4

PPE

Answer 4

1. Gloves
2. Fluid resistant gowns
3. Eye and face shields
4. Countertop shields

Question 5

The primary method of infection transmission

Answer 5

HAND CONTACT

Question 6

BEST WAY to break the chain of infection

Answer 6

HANDWASHING

Question 7

HANDWASHING PROCEDURE

Answer 7

1. Wet hands with warm water.
2. Apply antimicrobial soap.
3. Rub to form a lather, create friction, and loosen debris.
4. Thoroughiy clean between fingers, including thumbs, under fingernails and rings, and up to the
   When hands wrist for at least [15 (or 20) seconds]
5. Rinse hands in a DOWNWARD POSITION.
6. Dry with a paper towel.
7. Turn off faucets with a clean paper towel to apply alcohol prevent recontamination.

Question 8

HANDWASHING SONG

Answer 8

Happy Birthday (2x)

Question 9

When hands are visibly soiled

Answer 9

Wash hands with soap and water

Question 10

When hands are NOT visibly soiled

Answer 10

Apply alocohol based hand rub
(ex. Sanitizer)

Question 11

ALL biological waste, except _____, must be placed in appropriate containers labeled with the biohazard symbol.

Answer 11

URINE

Question 12

Accepted BIOHAZARD label

Answer 12

FLUORESCENT ORANGE

Question 13

Disinfection of the sink using a _____, should be perform _____. (Effective for ____; used for disinfecting countertops and spills)

Answer 13

1:5 or 1:10 dilution of sodium hypochlorite
Daily
1 month

Question 14

Eliminates many or all pathogenic microorganisms, except bacterial spores.

Answer 14

DISINFECTION

Question 15

Chemical spills best first aid

Answer 15

Flush the area with amounts of water for at least 15 minutes the seek for medical attention.

Question 16

What will you do for alkali or acid burn in the eye?

Answer 16

Wash out eye thoroughly with running water for 15 minutes.
DO NOT NEUTRALIZE CHEMICALS that come in contact with the skin.
Acid spills on floors can be neutralized and then soaked up with wet rags or spills.

Question 17

CHEMICAL HANDLING

Answer 17

ALWAYS ADD ACID TO WATER

Question 18

NFPA number 1 quadrant

Answer 18

YELLOW
(Reactivity/Stability hazard)

Question 19

May deteriorate/ detonate

Answer 19

4

Question 20

2 represents?

Answer 20

Violent chemical change

Question 21

3 represents

Answer 21

Shock & heat may deteriorate/detonate

Question 22

0 and 1 represents

Answer 22

0- stable
1- unstable when heated

Question 23

Second quadrant

Answer 23

WHITE quadrant (Specific hazard)
OXY- oxidizer
ACID- acid
ALK- alkali
COR- corrosive
W- use no water
Radiation

Question 24

3rd quadrant

Answer 24

BLUE quadrant (HEALTH hazard)

Question 25

0, 2 and 3 represents?

Answer 25

0- normal material
2- hazardous
3- extreme danger

Question 26

1 and 4 represents

Answer 26

1- slightly hazardous
4- deadly

Question 27

4th quadrant

Answer 27

RED (flammability hazard)

Question 28

Will not burn

Answer 28

0

Question 29

1 and 2 represents

Answer 29

1- above 200^F
2- below 200^F

Question 30

3 and 4 represents

Answer 30

3- below 100^F
4- below 73^F

Question 31

DEGREE OF HAZARDS (hazard index)
“No SMS Ex’s”

Answer 31

0- NO/Minimal hazard
1- Slight hazard
2- Moderate hazard
3- Serious hazard
4- Extreme/Severe

Question 32

Electrical hazard

Answer 32

*DO NOT OPERATE equipment with wet hands.
*All electrical equipment is grounded in a 3-cronsed plug to avoid electric shock.
*If electrical shock occurs, never touch the person er the equipment involved.
- Turn off the circuit breaker
- Unplug the equipment
- Move the equipment using a nonconductive glass or wood object

Question 33

All laboratory personnel must be involved in laboratory fire drills at least ____

Answer 33

ANNUALLY

Question 34

When a fire is discovered?

Answer 34

RACE
RESCUE anyone in immediate danger
ALARM (Activate the institutional fire alarm system)
CONTAIN (Close all doors to potentially affected areas)
EXTINGUISH/ EVACUATE (Attempt to extinguish the fire, if possible; exit the area) ALWAYS CHOOSE EXTINGUISH!!

Question 35

To operate a Fire extinguisher?

Answer 35

PASS
PULL the pin
AIM the base of the fire
SQUEEZE handles
SWEEP nozzle side to side

Question 36

Ordinary combustibles; PAPER, cloth, rubbish, plastic, WOOD
Type of fire?
Type of extinguisher?

Answer 36

Type A fire
WATER, dry chemical, loaded steam

Question 37

Cooking media: grease, oils, tats
Type of fire and extinguisher?

Answer 37

Type K fire

Liquid designed to prevent splashing and cool the fire

Question 38

Flammable metals: mercury, magnesium, sodium, lithium

Answer 38

Type D fire

Metal X, sand; dry powder; fought by fire fighters only

Question 39

Flammable liquids: grease, gasoline, paints, oil

Answer 39

Type B fire

Dry chemical, carbon dioxide, halon foam

Question 40

Electrical equipment and motor switches

Answer 40

Type C fire

Dry chemical, carbon dioxide, halon

Question 41

Detonation (Arsenal fire)

Answer 41

Type E fire

Allowed to burn out and nearby materials protected

Question 42

Best fire extinguisher for electrical fire?

Answer 42

HALON (BC)

Question 43

The most common all purpose extinguishers

Answer 43

ABC (dry chemical extinguishers)

Question 44

Kidney weights approximately ____ & measures ____

Answer 44

150 g

12.5 cm x6 cm x2.5 cm

Question 45

Ureter length ___

Urethra - ___ cm long in women and ___ cm long in men

About every ______, small amounts of urine are emptied into the bladder from the ureters.

Urine is actually a fur biopsy of the kidney

Answer 45

25 cm long

4 cm long in women
24 cm long in men

10-15 seconds

Question 46

Basic strustural & functional unit of the kidney

Answer 46

Nephrons
1. Cortical nephrons (85%)
- removal of waste products and nutrients reabsorption
2. Juxtamedullary
- urine concentration

1 to 1.5 million nephrons PER kidney
Consists of glomerulus and renal tubules

Question 47

ORDER OF URINE FORMATION:

Answer 47

1. Glomerulus
2. Proximal convoluted tubule (PCT) -NEAR
3. Loop of Henle (LH)
4. Distal convoluted tubule (DCT)- FAR
5. Collecting duct (CD)- last part of nephron
6. Calyx
7. Renal Pelvis

Question 48

The kidney receives ____ of the total cardiac output.

Answer 48

25%

Question 49

ORDER of RENAL blood flow

Answer 49

1. RENAL ARTERY
   - blood in
   -unfiltered
2. Afferent arteriole
   - approaching
3. Glomerulus
   - plasma filtration of substances
4. Efferent arteriole
   - exiting
5. Peritubular capillaries
   - capillaries surrounding renal tubules (reabsorption and secretion)
6. Vasa recta in LH (selective reabsorption)
7. Renal vein
   - blood out
   - filtered

Question 50

2 kidneys

Total renal blood flow:

Answer 50

1,200 mL/min

Question 51

Total renal plasma flow:

Answer 51

600-700 mL/min

Question 52

The “working portion” of the kidney
Coil of approx. 8 capillary lobes (capillary tuff) located w/in the Bowman’s capsule
★Attached to the glomerular basement membrane are the podocytes (epithelial cells)
★ Resembles a SIEVE “salaan”

Non-selective filter of plasma substances with MW of <70,000 Da - easy pass

Approximately 1% of the filtered plasma volume is actually excreted as urine

Answer 52

GLOMERULUS

Question 53

GLOMERULAR FILTRATION BARRIER

Answer 53

1. Capillary endothelium with its large open pores “ Fenestrated”
2. Trilayer basement membrane (lamina rara interna, lamina densa, lamina rara externa)
3. Filtration diaphragm found between the podocytes of Bowman’s space

Question 54

What are the glomerular filtrate?

Answer 54

SWAGU
Salts
Water
Amino acids
Glucose
Urea

Question 55

Glomerular filtrate SG

Answer 55

1. 010

Question 56

A protein that is not filtered by the glomerulus because of its negative charge.
Has a molecular weight of 69, 000 Da
Can be positive if the pH is _____

Answer 56

ALBUMIN

<4.9

Question 57

First function to be affected in renal disease

Answer 57

TUBULAR REABSORPTION

Question 58

RENAL THRESHOLD FOR GLUCOSE

Answer 58

160-180 mg/dL

Question 59

Alter urine concentration

Answer 59

PCT, LH, DCT, CD

Question 60

The major site for reabsorption

Answer 60

PCT (65%)

Question 61

Highly impermeable to water

Answer 61

Ascending LH

Question 62

During Hyponatremia what will happen to amino acids, glucose and urea?

Aldosterone _____ (increase or decrease)
ADH ______

Answer 62

100% amino acids are reabsorbs
Glucose reabsorbs (<RTG)
40% of urea will be reabsorbs.

Aldosterone- INCREASED
ADH - INCREASED

Question 63

Hypernatremia

Answer 63

SWGU will be excreted in the urine.

Aldosterone -DECREASED
ADH- DECREASED
0% amino acids
More than or equal renal threshold for GLUCOSE
60% urea will be excreted

Question 64

What are the substances that are ACTIVELY transport by the PCT?

Answer 64

Glucose
Amino acids
Salts

Question 65

What is the substance that is ACTIVELY transport by the ASCENDING LH?

Answer 65

Chloride

Question 66

What is the substances that is ACTIVELY transport by the PCT and DCT?

Answer 66

Sodium

Question 67

What is/are the substances that is/are PASSIVELY transport by the PCT, ascending LH and CD?

Answer 67

WATER

Question 68

What is/are the substances that is/are PASSIVELY transport by the PCT, ascending LH?

Answer 68

UREA

Question 69

What is/are the substances that is/are PASSIVELY transport by the ascending loop of henle?

Answer 69

SODIUM

Question 70

Regulates WATER REABSORPTION in the DCT and CD?

Answer 70

Anti-Diuretic hormone (ADH/VASOPRESSIN)

Question 71

ADH deficiency

Answer 71

DIABETES INSIPIDUS
DI- “Dami Ihi”

Question 72

ADH excess

Answer 72

Syndrome of inappropriate ADH secretion (SIADH)

Question 73

Increased Body Hydration ___ ADH ____ Urine volume

Answer 73

Decreased, Increased

Question 74

Decreased body hydration ____ADH ____urine volume

Answer 74

INCREASED, DECREASED

Question 75

Regulates SODIUM REABSORPTION

Answer 75

ALDOSTERONE

Question 76

RAAS is activated by:

Answer 76

Decreased Na, Decreased BP

Dilation: afferent
Constriction: efferent

Question 77

Activated RAAS

Answer 77

Increased BP
Constriction: Afferent

Question 78

Effects of Angiotension II

Answer 78

• Release of Aldosterone S ADH (Increased Sodium & water reabsorption)
• Vasoconstriction (Increased blood pressure)
• Corrects renal blood flow

Question 79

Juxtaglomerular apparatus consists of the JG cells produces ____ in the afferent arteriole

Answer 79

RENIN

Question 80

Macula Densa ________ of the DCT

Answer 80

Detects decrease in BP

Question 81

ACTION OF RAAS

Answer 81

1. Dilates the afferent arteriole & constricts the efferent arteriole
2. Stimulates sodium reabsorption in the PCT
3. Triggers the adrenal cortex to release aldosterone to cause sodium reabsorption & potassium excretion in the DCT and CD
4. Triggers release of anti-diuretic hormone by the hypothalamus to stimulate water reabsorption in the CD

Question 82

2 Major Functions of tubular secretion

Answer 82

1. Regulation of the acid-base balance in the body through secretion of hydrogen ions (in the form of NH4 and H2P04).
2. Elimination of waste products not filtered by the glomerulus

Question 83

Major site for removal of non-filtered substances.

Answer 83

PROXIMAL CONVOLUTED TUBULE

Question 84

Failure to produce an acid urine due to inability to secrete hydrogen ions

Answer 84

RENAL TUBULAR ACIDOSIS

Question 85

What is the relationship between pH and Hydrogen ions?

Answer 85

INVERSELY PROPORTIONAL

Question 86

RENAL TUBULAR ACIDOSIS

Answer 86

Increased hydrogen ions in the blood
Decreased hydrogen ions in the urine
Increased pH = alkaline

Question 87

Used to evaluate glomerular filtration.
Measure the rate at which the kidneys are able to remove a filterable substance from the blood.

Answer 87

CLEARANCE TEST

Question 88

What clearance test is obsolete, oldest, not accurate, present in all urine specimen (40% is reabsorbed)

Answer 88

UREA

Question 89

Most common but not reliable indicator to patient suffering from muscle wasting diseases.

Answer 89

CREATININE (ENDOGENOUS)

Question 90

GOLD STANDARD test for glomerular filtration

Answer 90

INULIN (EXOGENOUS)

Question 91

better marker of renal tubular function than of GFR

Answer 91

Beta2-microglobulin (MW: 11,800 Da)

Question 92

Creatinine Clearance Formula

Answer 92

Ccr (mL/min)= UV/P x 1.73m^2

Where:
Ccr= Creatinine clearance
U = Urine creatinine (mg/dL)
P= Plasma creatinine
V= Urine volume (mL/min)
A= Body surface area

Normal values
Male 107-139 mL/min
Female 87-107 mL/min

Question 93

Is a measure of the completeness of a
24-hour urine collection

Answer 93

CREATININE CLEARANCE

Question 94

By far the greatest source of error in any clearance procedure utilizing urine is the use of ______

Answer 94

IMPROPERLY TIMED URINE SPECIMENS

Around 7-10% of creatinine is secreted by the renal tubules.

Question 95

Variables used in Estimated GFR formula developed by cockgroft and gault

Answer 95

Age
Sex
Body weight in kg

Formula:
Ccr= (140–age)(body wight in kg)/72x serum creatinine in mg/dL

Results x 0.85 (if female)

Question 96

Modification of Diet in Renal disease (MDRD) system formula variables:

Answer 96

Ethinicity
BUN
Serum albumin

Question 97

used to evaluate tubular reabsorption

Answer 97

CONCENTRATION TESTS

Question 98

Patient is deprived of fluid for up to 24 hours
# Urine S.G. after 12-hour restricted fluid diet is about 1.022 or more
# Urine S.G. after 24-hour restricted fluid diet is about 1.026 or more

Answer 98

Obsolete test

1. Fishberg test

Question 99

Patient maintains normal diet and fluid intake
Compare day & night urine in terms of volume & S.G.

Answer 99

Obsolete test

2. Mosenthal test

Question 100

Influenced by the number & density of particles in a solution

Answer 100

Recently used tests
1. Specific gravity

Question 101

Influenced by the number of particles in a solution
More preferred than S.G. determination
More precise than osmolarity because it does not vary with temperature Methods include freezing point osmometry & vapor pressure osmometry
NV =1-3x (275 to 900 mOsm/kg) than of serum (275 to 300 mOsm/ kg)

Answer 101

4. Osmolality

Question 102

most commonly used; reference method for tubular secretion and renal blood flow

Answer 102

p-aminohippuric acid (PAH) test

Question 103

obsolete; results are hard to interpret

Answer 103

Phenolsulfonphthaiein (PSP) test

Question 104

inferred diagnoses from urine evaluation

Answer 104

Hippocrates, Aristotle and the ancient Egyptians

Question 105

4 temperaments/ humors:

Answer 105

1. Sanguineous (blood)
2. Choieric (vellow bile)
3. Phlegmatic (phlegm)
4. Melancholic (black bile)

Question 106

The __________ of urine was used by the Babylonians and Egyptians to detect diabetes
Hindu physicians noticed that ________ attracted ants

Answer 106

“taste test”
“honey urine”

Question 107

Uroscopy; first documented the importance of sputum examination

Answer 107

Hippocrates

Question 108

Albuminuria by boiling urine

Answer 108

Frederik Dekkers

Question 109

Wrote a book about “pisse prophets” (charlatans)

Answer 109

Thomas Bryant

Question 110

Examination of urine sediment

Answer 110

Thomas Addis

Question 111

Introduced urinalysis as part of doctor’s routine patient examination

Answer 111

Richard Bright

Question 112

Urochrome

Answer 112

Ludwig Thudichum

Question 113

Cerebrospinal fluid

Answer 113

Domenico Cotugno

Question 114

Phenylketonuria

Answer 114

Ivan Folling

Question 115

Alkaptonuria

Answer 115

Archibald Garrod

Question 116

Cystine calculi

Answer 116

William Wollaston

Question 117

Benedict’s reagent

Answer 117

Stanley Benedict

Question 118

URINE COMPOSITION
_____% water
_____% solids (______ total solids in 24 hours)

Answer 118

95-97% water
3-5% solids (60% total solids in 24 hours)

Question 119

Total solids
_____ grams organic

_____major organic compound
_____2nd organic compound

Answer 119

35 grams

UREA
CREATININE

Question 120

_____grams inorganic compound

_____major inorganic compound >_____ >______

_____principal salt

Answer 120

25 grams

Chloride > Sodium > Potassium

NaCl

Question 121

For routine and qualitative urinalysis
* Ideal for cytology studies (ONLY IF with prior hydration, & exercise 5 mins before collection!

Answer 121

1. RANDOM/OCCASIONAL / SINGLE

Question 122

Ideal specimen for routine urinalysis and pregnancy testing (hEG)

Often preferred for cytology studies/ cyto diagnostic urine testing

Most concentrated and most acidic - allows well preservation of cells and casts

For evaluation of orthostatic pruteinuria.

Patient voids before going to bed, and immediately on rising from sleep collects urine specimen

Alternative for cyto

Answer 122

FIRST MORNING

!!concentrated>hypertonic>shrink cells
Hypocentilation>respiratory acidosis

Question 123

2nd voided urine after a period of fasting
For glucose determination

Answer 123

SECOND MORNING /FASTING

Question 124

For diabetic screening or monitoring
Preferred for testing glucose

Answer 124

2-hour post-prandial

Question 125

Optional with blood samples in glucose tolerance test

Answer 125

Glucose tolerance

Question 126

At least 2 voided collection

Series of blood and urine samples are collected at specific time intervals to compare concentration of a substance in urine with its concentration in the blood
Used in the diagnosis of diabetes

Answer 126

Fractional specimen

Question 127

For routine screening and bacterial culture
Patient should thoroughly cleanse his glans penis or her urethral meats before collection
Less contaminated by epithelial and bacterial cells

Answer 127

MIDSTREAM CLEAN CATCH

Question 128

May be urethral or ureteral
For bacterial culture

Answer 128

CATHETERIZED

Question 129

Abdominal wail is punctured, and urine is directly aspirated from the bladder
Bladder urine for anaerobic bacterial culture and urine cytology
Most sterile

Answer 129

SUPRAPUBIC ASPIRATION

Question 130

Use of soft, clear plastic bag with adhesive

Sterile specimen obtained by catheterization or suprapubic aspiratica

Urine collected from diaper is NOT recommended for testing

Answer 130

PEDIATRIC SPECIMEN

Question 131

For prostatic infection

Answer 131

THREE -GLASS TECHNIQUE

Question 132

if the # of WBC and bacteria in the 3rd spx is 10x GREATER than that of the 1st

Answer 132

PROSTATITIS

Question 133

Serves as a CONTROL for bladder & kidney infection.

Answer 133

2nd specimen

If control is (+) for WBCs and bacteria, the results from the 3rd specimen are considered invalid

If may laman <UTI></UTI>

Question 134

The four-glass method consists of bacterial cultures of the
initial voided urine (VB1), midstream urine (VB2), expressed prostatic secretions (EPS), and a post-prostatic massage urine specimen (VB3). Urethral infection or inflammation is tested for by the VB1, and the VB2 tests for urinary bladder infection. The prostatic secretions are cultured and examined for white blood cells. Having more than 10 to 20 white blood cells per high-power field is considered abnormal.

Answer 134

STAMEY-MEARS TEST EOR PROSTATITIS

Question 135

At start time, patient empties bladder into toilet; then all subsequent urine is collected At end time, patient empties bladder into collection container
Requires preservative - it depends on the test performed

Answer 135

24-hour (Ex: 8 AM -> 8 AM)

Question 136

For addis count

Answer 136

12-hour (Ex: 8 AM -> 8 PM)

Question 137

for nitrite determination

Urine remains in bladder for at least 4 hours before voiding

Answer 137

4-hour

(First morning urine- best for nitrite determination)

Question 138

For UROBILINOGEN determination

Answer 138

Afternoon (2-4 PM)

Question 139

Process providing documentation of proper sample ID from the time of collection to the receipt of laboratory results.

Answer 139

CHAIN OF CUSTODY

Question 140

Required urine volume for DRUG test

Answer 140

30-45 ml

Question 141

Drug test Container capacity

Answer 141

60 ml

Question 142

Optimal temperature of urine in DRUG test

Answer 142

32.5- 37.7°C (checked within 4 minutes)

Question 143

Added to the toilet water reservoir to prevent specimen adulteration

Answer 143

Blueing agent

Question 144

Urine containers should have a wide base, and has an opening of at least ______ cm. The wide base prevents spillage, and a _____cm opening is an adequate target for urine collection.

Answer 144

4 cm

Question 145

24-hr urine containers should hold up to _____ and may be colored to protect light sensitive analytes.

Addition of urine before the start of 24-hour collection period causes ________ results.

Failure to include urine at the end of 24-hour collection period causes ______ results

Answer 145

3L

False increased

False decreased

Question 146

When both a routine UA and culture are requested on a catheterized or midstream collection, what will you do first?

Answer 146

CULTURE should be performed first to prevent contamination of the specimen

Question 147

Following collection, urine specimens should be delivered to the laboratory promptly and tested within ________
(Strasinger, Harr); ideally within _____ minutes (Turgeon)

Physical, chemical and microscopic characteristics of a urine specimen begin to change _________

Answer 147

Within 2 hours

Ideally- 30 minutes

AS SOON AS THE URINE IS VOIDED

Question 148

CHANGES IN UNPRESERVED URINE
Increased analytes?
Decreased analytes?

Answer 148

Increased analytes
-pH
-Bacteria
-Odor
-Nitrite

Darkened/Modified
-Color

Decreased analytes
Clarity
Glucose
Ketone
Blood
Urobilinogen
RBC/WBC/Casts
Trichomonas- resembles WBC

Question 149

Least affected analyte in unpreserved urine?

Answer 149

PROTEIN

Question 150

What is the ideal urine preservative?

Answer 150

Ideal urine preservative does not exist (Sirasinger)

Question 151

Does not interfere with chemical tests

Raises SG by hydrometer
Precipitates amorphous phosphates and urates

Preservative of choice for routine UA & urine culture
Prevents bacterial growth for 24 hours

Answer 151

REFRIGERATION (2-8 degree celsius)

Question 152

Excellent sediment preservative

Reducing agent, interieres with chemical tests for glucose, blood, leukocytes & copper reduction

Rinse specimen container with formalin to preserve cells and casts

Preservative of choice for Addis count

Answer 152

FORMALIN (formaldehyde)

Question 153

Freserves protein & formed elements well. Does not interfere w/ routine analyses other then pH

May precipitate crystals when used in large amcunts «cloudy urine

Keeps pH about 6 0
Bacteriostatic at 18 g/L;
For culture transport, C&S
Interferes with drug & hormone analyses

Answer 153

BORIC ACID

Boric acid and HCl
-preserves albumin and 5-HIAA, but always choose HCl

Question 154

Preserves glucose & sediments well

Interferes with acid precipitation test for protein

Answer 154

THYMOL

Question 155

Floats on urine surface;
Clings to pipettes & testing materials

Best all-around preservative

Answer 155

Toluene (Toluol)

Question 156

Prevents glycolysis
Good preservative for drug analysis

Inhibits reagent strip tests for glucose, blood & leukocytes

May use sodium benzoate instead of _____ for reagent strip testing

Answer 156

Sodium fluoride

Question 157

Causes an odor change

Answer 157

Phenol

Question 158

Convenient when refrigeration not possible

Answer 158

Commercial preservative tablets

Question 159

Components of Saccomanno fixative

Answer 159

(50% ethanol + 2% carbowax)

Question 160

PHYSICAL EXAMINATION OF URINE

Normal range (24 hours) ______

Average (24 hours) _______

Night urine output_______

Day: Night ratio______

Container capacity (UA)_______

Required for routine UA_____

Answer 160

Normal range (24 hours) 600-2000 ml

Average (24 hours) 1200-1500 ml

Night urine output <400 ml

Day: Night ratio 2-3:1

Container capacity (UA) 50 ml

Required for routine UA 10-15 ml (ave.12 ml)-urinometry and reagent strips

Question 161

Increased urine volume

Answer 161

POLYURIA

> 2.000 mL/24 hrs (in adults - Henry
2.5 L/day (in adults - Strasinger)
2.5-3.0 mL/kg/day (in children)

Causes:
Increased fluid intake
Diuretics, nervousness
DM (sweet) ⬆️ SG (glucose)
DI (tasteless) ⬇️ SG (diluted urine)

Question 162

Decreased urine volume

Answer 162

OLIGURIA

<500 mL/24 hrs (in adults - Henry)
<400 mL/day (in adults - Strasinger)
<1 mL/kg/hr (in infants)
<0.5 mL/kg/hr (in children)

Causes:
Dehydration
Renal diseases
Renal calculi or tumor

Question 163

Complete cessation of urine flow

Answer 163

ANURIA

<100 mL/ 24 hrs (Graff)

Causes:
Complete obstruction (stones, tumors)
Toxic agents
Decreased renal blood flow

Question 164

Excretion of more than 500 mL of urine at night

Answer 164

NOCTURIA

> 500 ml/night
S.G. < 1.018

Causes:
Pregnancy
Renal diseases, bladder stones
Prostate enlargement

Question 165

Any increase in urine excretion

Answer 165

DIURESIS

Causes:
Excessive water intake (polydipsia)
Diuretics therapy, hormonal imbalance
Renal dysfunction, drug ingestion

Question 166

Rough indicator of the degree of hydration and should correlate with urine S.G.

Answer 166

URINE COLOR

Question 167

Normal urine color

Answer 167

Colorless to deep yellow

⬆️fluid intake=Pale yellow=⬇️SG
⬇️fluid intake=Dark yellow⬆️SG

Question 168

Abnormal urine color

Answer 168

Red/red-brown (most common)

Question 169

URINE COLOR DETERMINATION

Answer 169

Look down through the container against a white background (also works for determining urine clarity but not the best way)

Question 170

Major pigment in urine
Lipid-soluble pigment that is a product of endogenous metabolism
Production is directly proportional to metabolic rate

Answer 170

UROCHROME

⬆️ in thyrotoxicosis, fever, starvation, fasting

Question 171

Pink (or red)
Derived from melanin metabolism
May denosit in amornhous urates and uric acid crystals

Answer 171

UROERYTHRIN

Question 172

(Dark yellow/orange-brown)
Derived from oxidation of colorless urobilinogen
Present in old specimens.

Answer 172

UROBILIN

Question 173

Recent fluid consumption, polyuria, dilute random specimen

Answer 173

Colorless to pale yellow

Question 174

Pyuria/leukocyturia (⬆️ WBCs)

Answer 174

Milky white

Question 175

Methemoglobin (acidic urine)

Hemogentisic acid (alkaline urine): Alkaptonuria

Melanin (upon air exposure): Melanuria

Phenol derivative, Argyrol, Methyldopa/ Levodopa, Metronidazole (Flagyl)

Answer 175

Brown/Black

Question 176

Porphyrins

Answer 176

Burgundy/ Purplish red/ PORTWINE

(If there’s no portwine in the choices, choose RED)

Question 177

Concentrated specimen: strenuous exercise, dehydration, fever, burns.
First morning specimen
Excessive urobilin, bilirubin, carotene

Answer 177

Dark yellow to amber

Question 178

Bilirubin has been oxidized to biliverdin

Answer 178

Yellow-green
Yellow-brown

Question 179

Pseudomonas infection

Answer 179

Green

Question 180

Phenol
Indican

Answer 180

Blue-green

Question 181

Pink, Red urine

Answer 181

RBCs (Cloudy/ smoky red): Hematuria blood in urine

Hemoglobin (Clear red) pigments

Myoglobin (Clear red/reddish-brown/cola-colored/tea-colored)

Porphobilin (derived from porphobilinogen)

Beets (alkaline urine in genetically susceptible persons), menstrual contamination

Fuchsin (aniline dye from foods and candy)

Rifampin - most body fluids are red and TB medication

Question 182

Drug that causes green color of urine

Answer 182

Phenol poisoning

Question 183

Bright orange-red
Bright yellow

Answer 183

Rifampin
Riboflavin (multivitamins)

Question 184

URINE CLARITY DETERMINATION

Answer 184

Thoroughly mix the specimen
Examine the specimen while holding in front of a light source
View through a newspaper print - BEST WAY

Question 185

No visible particulates, transparent

Answer 185

Clear

Question 186

May PRECIPITATE or be CLOTTED

Answer 186

Milky

Question 187

Many particulates, print BLURRED through urine

Answer 187

CLOUDY

Question 188

PRINT CANNOT be seen through urine

Answer 188

TURBID

Question 189

Few particulates, print EASILY seen through urine

Answer 189

HAZY

Question 190

Pathologic causes of urine turbidity

Answer 190

1. RBCs, WBGs
2. Bacteria (uniform turbidity not cleared by acidification or filtration)
3. Yeasts (1DM)
4. Non squamous epithelial celis
5. Abnormal crystals, lymph fluid (chyluria), lipids

Question 191

Non-pathologic cause of urine turbidity

Answer 191

1. Squamous epithelial cells (⬆️ in females).
2. Amorphous urates (pink sediment)
3. Amorphous phosphates & carbonates
   (white or beige precipitate)
4. Vaginal cream, semen, fecal contamination, radiographic contrast media, talcum power

Question 192

Present in ACIDIC urine

Answer 192

Amorphous urates
Radiographic contrast media

Question 193

Present in ALKALINE urine

Answer 193

Amorphous phosphates, carbonates

Question 194

Soluble with Heat

Answer 194

Amorphous urates, uric acid crystals

Question 195

Soluble in Dilute acetic acid

Answer 195

RBCs, amorphous phosphates, carbonates

Question 196

Insoluble in Dilute Acetic Acid

Answer 196

WGCs, bacteria, yeast, spermatozoa

Question 197

Soluble in Ether

Answer 197

Lipids, lymphatic fluid, chyle

Question 198

Normal ODOR of urine due to presence of volatile acids from food

Answer 198

AROMATIC
FAINTLY
DISTINCT
FRAGRANT

Question 199

Odorless urine

Answer 199

ACUTE TUBULAR NECROSIS (acute renal failure)

Question 200

UTI, old urine odor

Answer 200

FOUL
AMMONIACAL
PUNGENT

Question 201

Ketones (DM, starvation, vomiting)

Answer 201

FRUITY
Sweet

Question 202

Maple syrup urine disease (MSUD)

Answer 202

CARAMELIZED SUGAR
CURRY
MAPLE SYRUP

Question 203

MOUSY, MUSTY, BARNY

Answer 203

Phenylketonuria (PKU)

Question 204

Rancid butter

Answer 204

Tyrosinemia

Question 205

Sweaty feet, acrid

Answer 205

Isovaleric acidemia, glutaric acidemia

Question 206

Menthol-like

Answer 206

Phenol containing medications

Question 207

Cabbage, hops

Answer 207

Methionine malabsorption (Oasthouse syndrome)

Question 208

Cystine disorder

Answer 208

Sulfur odor

Question 209

Trimethylaminuria

Answer 209

Rotting Fish (GG)

Question 210

Ingestion of onions, garlic, and ASPARAGUS, UTI

Answer 210

PUNGENT
Fetid

Question 211

Swimming pool

Answer 211

Hawkinsinuria

Question 212

3-hydroxy-3-methylglutaric aciduria

Answer 212

Cat urine

Question 213

Multiple carboxylase deficiency

Answer 213

Tomcat urine

Question 214

GLUCOSE
Principle:
Reading time:
Positive color:

Answer 214

Principle: Double Sequential enzyme reaction
Reading time: 30 seconds
Positive color: Green to brown

Question 215

_________
Principle: Diazo reaction
Reading time:
Positive color:

Answer 215

BILIRUBIN
Reading time: 30 seconds
Positive color: Pink to violet

Question 216

_________
Principle:
Reading time: 40 seconds
Positive color:

Answer 216

KETONES

Principle: Sodium Nitroprusside reaction
Positive color: PURPLE

Question 217

_________
Principle: Greiss Reaction
Reading time:
Positive color:

Answer 217

NITRITE

Reading time: 60 seconds
Positive color: UNIFORM PINK

Question 218

PROTEIN

Principle:
Reading time:
Positive color:

Answer 218

Principle: Protein error of indicators
Reading time: 60 seconds
Positive color: Blue-green

Question 219

pH

Principle:
Reading time:
Positive color:

Answer 219

Principle: Double indicator system
Reading time: 60 seconds
Positive color: orange (pH 5.0) to blue (pH 9.0)

Question 220

BLOOD

Principle:
Reading time:
Positive color:

Answer 220

Principle: Pseudoperoxidase activity of hemoglobin
Reading time: 60 seconds
Positive color:
- Uniform green/blue (Hgb/Mb)
- Speckled /spotted (intact RBCS)

Question 221

UROBILINOGEN

Answer 221

Principle: Ehrlich reaction
Reading time: 60 seconds
Positive color: Red

Question 222

_________

Principle:
Reading time: 120 seconds
Positive color:

Answer 222

LEUKOCYTE

Principle: LEUKOCYTE ESTERASE
Positive color: PURPLE

Question 223

Principle:
Reading time: 45 seconds
Positive color:

Answer 223

SG

Principle: pKa change of polyelectrolyte
Positive color: Blue (1.000) to yellow (1.030)

Question 224

Specimens must be returned to room temp before chemical testing by reagent strips, why?

Answer 224

Enzyme reactions on the strips perform best at room temp

Question 225

1. Dip the reagent strip briefly (____________) into a well-mixed uncentrifuged urine specimen at RT.
2. Remove excess urine by _____________ to the container as the strip is withdrawn.
3. _________________
4. Wait the specified amount of time for the reaction to occur.
5. Compare the color reaction of the strip pads to the manufacturer’s color chart in good lighting.

Answer 225

1. No longer than 1 second
2. Touching the edge of the strip
3. Blot the edge of the strin on a disposable absorbent pad.

Question 226

Care of reagent strips

Answer 226

COOL, DRY AREA
a. Store with dessicant in an opaque, tightly closed container.
b. Store below 30C (RT), do not freeze

Question 227

Automated reagent strips reader principle

Answer 227

REFLECTANCE PHOTOMETRY

Question 228

Automated reagent strips reader principle

Answer 228

REFLECTANCE PHOTOMETRY
the darker the color of the reagent pad, the lesser the light reflection (inversely related)

Question 229

A measure of the amount of dissolved substances in a solution
Density of solution compared with density of similar volume of distilied water at a similar temp.
Influenced by number and size of particles in a solution

Answer 229

SPECIFIC GRAVITY

Question 230

SG of random urine

Answer 230

1.003-1.035

Question 231

1st morning urine SG

Answer 231

≤ 1.020

Question 232

24-hour urine SG

Answer 232

1.016-1.022

Question 233

If SG is <1.003
If SG is >1.040

Answer 233

Not a urine (except in D.I) 1.001
Radiographic dye present-sharp image

Question 234

SG = 1.010
SG < 1.010
SG > 1.010

Answer 234

ISOTHENURIA
HYPOSTHENURIA
HYPERSTHENURIA

Question 235

URINOMETRY (urinometer/hydrometer)
-calibration temp _____
-requires temp correction:
______ for every 3 °C that the specimen temp is BELOW the calib temp
______ for every 3 °C that the specimen temp is ABOVE the calib temp.

-requires correction for GLUCOSE and PROTEIN
1 g/dL Glucose= _______
1 g/dL Protein= ________

Urine Volume required =_________

Calibration:
[Potassium sulfate solution]
[SG reading should be _____ ]

Disadvantage:

Answer 235

calibration temp: 20 °C

-0. 001 for every 3 °C that the specimen temp is BELOW the calib temp
+0.001 for every 3 °C that the specimen temp is ABOVE the calib temp.

1 g/dL Glucose= -0.004
1 g/dL Protein= -0.003

Urine Volume required = 10-15 ml

SG reading should be 1.015

Disadvantage: uses large urine volume

Question 236

When using the urinometer, an adequate amount of urine is poured into a proper-size container and the urinometer is added with a ______ motion.
The scale reading is then taken at the ______ of the urine meniscus.

Answer 236

SPINNING
BOTTOM

Question 237

Refactometer is also known as?

Answer 237

RF
TS METER (total solids)

Put 1-2 drops of sample on the prism

Question 238

Refractometry is an INDIRECT method based on _________.

Compensated to temperature________
Advantage________

Answer 238

Refractive index
RI= light velocity in air/light velocity in solution

Compensated to temperature (15-38 °C) or 60 °F-100 °F

Advantage: NO NEED FOR TEMPERATURE CORRECTION

REQUIRES CORRECTION FOR GLUCOSE AND PROTEIN

Question 239

Calibration Reading
1. DISTILLED/deionized H2O=___________
2. 3% NaCl= ___________
4. 5% NaCl= ___________
5. 7% NaCl=___________
5. 9% Sucrose=_________________________

Answer 239

1. 1.000 ± 0.001
2. 1.015 ± 0.001
3. 1.022 ± 0.001
4. 1.035 ± 0.001
5. 1.034 ± 0.001

Question 240

Both refractometer and urinometer requires correction for ____________.
Refractometer reading is ______ than that of the urinometer by 0.002

Answer 240

GLUCOSE and PROTEIN
LOWER (Rf<U by 0.002)

Question 241

SG DILUTION

• Specimens with very high S.G. readings can be diluted and retested
• To obtain the actual S.G., multiply the _____ of S.G. by the ______.

Answer 241

Decimal portion x dilution factor

Example: Urine specimen diluted 1:4 has a reading of 1.014. What is the actual S.G. reading?

Actual SG= 0.014 x 4= 0.056 (1. 056)

Question 242

REAGENT STRIP for SG
REAGENT:
False +:
False -:
Add _____ to reading when pH ≥ 6.5 due to interference with brothymol blue indicator
Not affected by glucose, protein & radiographic dye (Henry)

Answer 242

REAGENT:
- Poly (methyl vinyl ether /maleic anhydride) BROMTHYMOL BLUE
- Ethylene glycol diaminoethyl ether tetraacetic acid BROMTHYMOL BLUE

False +: High concentration of protein (Strasinger)
False -: Highly alkaline urines (>6.5)

0.005

Question 243

Obsolete method
Based on frequency of soundwave entering a soln. changes in proportion to the density of soln.
Ex: Yellow IRIS (International Remote Imaging System)

Answer 243

HARMONIC OSCILLATION DENSITOMETRY (H.O.D.)

Question 244

IRIS DIAGNOSTICS
____ required urine volume
____ for IRIS Slideless microscope
____ for IRIS Mass Gravity Meter

Answer 244

Models 300 and 500 workstations
6 mL = required urine volume
4 mL (of 6 mL) = for IRIS Slideless microscope

2 mL (of 6 mL) = for IRIS Mass Gravity Meter (for S.G. determination - by using H.O.D.)

Question 245

______ refers to the “sourness” of a solution, whereas _______ refers to its “bitterness”

Answer 245

ACIDITY
ALKALINITY

Question 246

Important in the identification of crystals and determination of unsatisfactory specimens

Answer 246

pH

A blood pH <5.8 or >7.8 will result in death

Question 247

Normal urine RANDOM pH_____
First morning pH_____
When pH is ≥ 9.0 ______

Answer 247

4.5-8.0
5.0-6.0
UNPRESEVED URINE

Question 248

Causes of ACIDIC urine

Answer 248

1. Diabetes Mellitus (⬆️ ketone bodies)
2. Starvation (⬆️ ketone bodies)
3. High protein diet
4. Cranberry juice - treatment for UTI (antibaderial)
5. Emphysema, dehydration, diarrhea, acid-producing bacteria (E. coli), medications

Question 249

Causes of Alkaline Urine

Answer 249

1. Renal tubular acidosis
2. Vegetarian diet
3. After meal - due to alkaline tide
4. Vomiting - metabolic alkalosis
5. Old specimens, hyperventilation, presence of wrease-producing bacteria

Question 250

_______occurs after meals due to withdrawal of H ions for the purpose of secretion of H ions, Cranberry juice contains quinic acid that causes urinary excretion of hippuric acid (antibacterial).

Answer 250

ALKALINE TIDE

Question 251

pH

REAGENTS:
Interferences:
Correlation with other tests:

Answer 251

Reagents: METHYL RED & BROMTHYMOL BLUE

Interferences: Runover from adjacent pads, old specimens

Correlation with other tests:
NITRITE
LEUKOCYTE
MICROSCOPIC

Question 252

Most indicative of renal disease
Produces ______ in urine when shaken

Answer 252

PROTEIN
WHITE FOAM

Question 253

NORMAL URINARY PROTEIN____
Mild/minimal proteinuria ____
Moderate proteinuria_____
Large/heavy proteinuria____

Answer 253

NORMAL URINARY PROTEIN

<10 mg/dL or <100 mg/ day (Strasinger), <150 mg/ day (Henry)

Mild/minimal proteinuria
<1 g/day

Moderate proteinuria
1-3 or 4 g/day

Large/heavy proteinuria
>3 or 4 g/day

Question 254

Major seruin protein found in the urine

______ of plasma albumin enters the uitrafiltrate
______ of all filtered protein is reabsorbed

Answer 254

ALBUMIN

<0.1%
95-99%

Question 255

PROTEINS in normal urine consist of
_____ ALBUMIN and _____ globulins.

Answer 255

1/3 albumin [95-98% reabsorb, <0.1% ultrafiltrate]

2/3 globulins

Question 256

Caused by conditions that affect the plasma PRIOR to its reaching the kidney
Will not detected in routine UA
NOT indicative of actual renal disease

Answer 256

PRE-RENAL (BEFORE) or OVERFLOW PROTEINURIA

Question 257

a. Intravascular hemolysis = ____
b. Muscle injury = _____
c. Severe infection & inflammation = ____

Answer 257

a. Hemoglobin
b. Myoglobin
c. ⬆️ APR’s

Question 258

Proliferation of Ig-producing plasma cells

Answer 258

MULTIPLE MYELOMA

Question 259

Immunoglobulin light chains (identical: K - K, γ-γ)

Tests = ______

Urine = precipitates at ______ (cloudy) & dissolves at _____ (clear)

Answer 259

BENCE- JONES PROTEIN

Tests: Serum electrophoresis, immunofixation electrophoresis

40-60 °C; 100 °C

Question 260

(‘true renal disease”)

Answer 260

RENAL PROTEINURIA

Question 261

_____________
Decreased glomerular filtration
May lead to renal failure

Answer 261

A. Glomerular Proteinuria
1. Diabetic nephropathy

Question 262

Indicator of Diabetic Nephropathy?

Answer 262

MICROALBUMINURIA
- proteinuria undetectable by routine reagent step

Question 263

Albumin Excretion Rate (AER) = in ug/ min or in mg/24 hours

Normal AER = ______
Microalbuminuria =_______
Clinical albuminuria=_________

Answer 263

Normal AER = 0-20 ug/min
NEGATIVE routine rgt. strip

Microalbuminuria = 20-200 ug/min (30-300 mg/24 hrs)
NEGATIVE routine rgt. strip

Clinical albuminuria= >200 ug/min
POSITIVE routine rgt. strip

Question 264

Test for microalbuminuria

A strip employing antibody-enzyme conjugate that binds albumin

Answer 264

MICRAL TEST

Reagents: Gold-labeled antibody, -galactosidase, Chlorophenol red galactoside

Sensitivity: 0 - 10 mg/mL

Interference: False (-) = Dilute urine

Question 265

PEINCIPLE of MICRAL test

Answer 265

ENZYME IMMUNOASSAY

Question 266

IMMUNODIP TEST FOR MICROALBUMINURIA
Principle:
Sensitivity:
Reagents:
Interferences:

Answer 266

Principle: Immunochromographics
Sensitivity: 1.2-8.0 mg/dL
Reagents: Antibody coated blue latex particles
Interferences: False (-)= Dilute urine

Question 267

ALBUMIN: CREATININE RATIO - CLINITEST MICROAL BUMIN STRIPS/MULTISTIX-PRO

Principle:
Reagents:
Sensitivity:
Interference:

Answer 267

Principle: Sensitive albumin tests related to creatinine conc, to correct for patient hydration.

Reagents
• Albumin: diodo-dihydroxydinitrophenyl tetrabromosulfonphthaleir.
• Creatinine: copper sulfate, tetramethylbenzidine, disopropylbenzenedihydroperoxide

Sensitivity:
Albumin = 10 - 150 mg/L
Creatinine = 10 - 300 mg/ dL 0.9 - 26.5 mmol/L)

Interferences: Visibly bloody/abnormally colored urine.| Creatinine = Cimetidine - False (+)

Question 268

-Proteinuria when standing due to increased pressure to renal veins
-Increased venous pressure causes renal congestion and glomerular changes
-Monitored every 6 months and re-evaluated as necessary

Answer 268

Orthostatic / Cadet / Postural proteinuria
- young adults are mostly affected

Question 269

Negative (-) FIRST MORNING
Positive (+) 2 hours after standing

Answer 269

ORTHOSTATIC PROTEINURIA

Question 270

Negative (+) FIRST MORNING
Positive (+) 2 hours after standing

Answer 270

CLINICAL PROTEINURIA

Question 271

⬆️ BP disorder occur during pregnancy

Answer 271

PRE-ECLAMPSIA

Question 272

Other causes of glomerular proteinuria

Answer 272

Nephrotic syndrome
Toxic agents
Dehydration
Strenuous exercise
Hypertention
Amyloidosis
Pre-eclampsia

Question 273

Originally discovered in workers exposed to cadmiun dust (a heavy metal).
Normaily filtered albumin can no longer be reabsorbed

Answer 273

Tubular Proteinuria

1. Fanconi’s syndrome
2. Toxic agents heavy metals
3. Viral infections

Question 274

Post- Renal Proteinuria (after) causes:

Answer 274

1. Lower UTI/ inflammation
2. Menstrual contamination
3. Injury / trauma
4. Vaginal secretions
5. Prostatic fluid / spermatozoa

Question 275

Protein rgt. Strips

Reagents:
False (+):
False (-):

Indicator is SENSITIVE to _______

Correlations:

Answer 275

Reagents:

TETRABROMphenol blue, citrate buffer at pH 3.0
Tetrachlorophenol TETRABROMosulfonphthalein, citrate buffer at pH3.0

False (+):
-high SG
-highly buffered alkaline urine
-pigmented specimen

False (-): Proteins other than albumin, microalbuminuria

Sensitive to ALBUMIN

CORRELATIONS
- Blood nitrite
- Leukocytes
- Microscopic

Question 276

A cold precipitation test that reacts equally with all forms of protein.
Aka: Exton’s test

Answer 276

SULFOSALICYLIC ACID PRECIPITATION TEST

Question 277

SSA reagent= _______

Answer 277

Exton’s reagent (3% SSA + sodiurn sulfate)

Procedure:

3 ml of 3% SSA + 3 mL centrifuged urine —10 mins incubation—> (+) Cloudiness
or
3 ml of 7% SSA + 11 mL centrifuged urine —10 mins incubation—>
(+) Cloudiness

Question 278

No increase in turbidity
If viewed from top, circle is visible in test tube bottom

Grade:
Range (mg/dL) {stras}:
Range (Henry):

Answer 278

Grade: Neg
Range (mg/dL) {stras}: <6
Range (Henry): 5 mg/dL

Question 279

Noticeable or perceptible turbidity.
If viewed from top, circle not visible in test tube bottom
Can read newsprint through mixture

Grade:
Range (mg/dL) {stras}:
Range (Henry):

Answer 279

Grade: Trace
Range (mg/dL) {stras}: 6-30
Range (Henry): 20 mg/dL

Question 280

Distinct turbidity with no granulation Cannot read newsprint through mixture

Grade:
Range (mg/dL) {stras}:
Range (Henry):

Answer 280

Grade: 1+
Range (mg/dL) {stras}: 30-100
Range (Henry): 50 mg/dL

Question 281

Turbidity with granulation but NO flocculation.

Grade:
Range (mg/dL) {stras}:
Range (Henry):

Answer 281

Grade: 2+
Range (mg/dL) {stras}: 100-200
Range (Henry): 200 mg/dL

Question 282

Turbidity with granulation AND flocculation

Grade:
Range (mg/dL) {stras}:
Range (Henry):

Answer 282

Grade: 3+
Range (mg/dL) {stras}: 200-400
Range (Henry): 500 mg/dL

Question 283

Clumps of protein

Grade:
Range (mg/dL) {stras}:
Range (Henry):

Answer 283

Grade: 4+
Range (mg/dL) {stras}: >400
Range (Henry): 1.0 g/dL or 1000 mg/dL

Question 284

COMPARISON OF REAGENT STRIP AND SSA PROTEIN TEST RESULTS

Strip result: POSITIVE (+)
SSA result: NEGATIVE (-)

Answer 284

Highly buffered alkaline with no albumin present - false-positive reagent strip

Highly buffered alkaline with albumin present - false-negative SSA test
(To differentiate, acidify urine to pH ~ 5.0 and retest)

Question 285

COMPARISON OF REAGENT STRIP AND SSA PROTEIN TEST RESULTS

Strip result: NEGATIVE (-)
SSA result: POSITIVE (+)

Answer 285

Proteins other than albumin present
False (+)
=Radiographic contrast media (delayed reaction)
=Drugs and/or drug metabolites (tolbutamide, penicillins, cephalosporins, sulfonamides)
(Examine precipitate microscopically - drugs and radiographic dye form crystalline precipitates; whereas protein precipitates are amorphous)

Question 286

Large volume of urine can produce a _______ protein reaction despite significant proteinuria because the protein present is being excessively diluted…

S.G. should be considered in evaluating urine protein because a ____ protein in a dilute specimen is more significant than in a concentrated specimen.

Answer 286

Negative

Trace

Question 287

Most frequently tested in urine

Answer 287

GLUCOSE

Question 288

CLINICAL SIGNIFICANCE OF URINE GLUCOSE
⬆️ blood glucose
⬆️ urine glucose

Causes:_______

Answer 288

HYPERGLYCEMIA-associated

Causes:
1. Diabetes Mellitus
2. Cushing’s syndrome (⬆️cortisol)
3. Pheochromocytoma (⬆️catecholamines)
4. Acromegaly (⬆️ growth hormone)
5. Hyperthyroidism (⬆️T3, T4)

Question 289

Normal blood glucose
⬆️ urine glucose

Answer 289

RENAL-ASSOCIATED

Causes:
1. Impaired tubular reabsorption of glucose
2. Fanconi syndrome
“ Defective tubular reabsorption of glucose and amino acids”.

Question 290

Is it possible for an individual to have hyperglycemia without glucosuria?

Answer 290

Yes! It is possible for an individual to have hyperglycemia without glucosuria when the glomerular filtration rate is decreased due to certain diseases. Only limited amounts of glucose are able to
LL pass into the ultra-filtrate, and the tubules are able to reabsorb
all the glucose presented to them.

Question 291

GLUCOSE rgt. Strip

Reagents:
False (+):
False (-):

Correlations:

Answer 291

Reagents:
Glucose oxidase, Peroxidase, Potassium iodide (blue to green to brown)

Glucose oxidase, Peroxidase, Tetrameihylbenzidine (yellow to green)

False (+): Oxidizing agents, detergents

False (-): High levels of ascorbic acid, ketones, high S.G., LOW TEMP, improperly preserved specimen

Glucose strip was the 1st “dip and read” reagent strip developed by Miles, Inc., in 1950
Sensitivity = 100 mg/dL

Other chromogers:
-Aminopropylcarbazole (yellow to orange-brown)
-o-toluidine (pink to purple)

Correlations: Ketones and protein

Question 292

Nonspecific test for reducing sugars

Answer 292

COPPER REDUCTION TEST (CLINITEST / BENEDICT’S TEST)

Question 293

Principle used in Copper reduction test for glucose

Answer 293

Copper reduction
CuSO4 (copper sulfate)—-> (+)Cu2O (copper oxide)
Blue—->Brick red

Question 294

Reporting of Benedicts test
___= clear blue color, biue precipitate may form
___= reddish-yellow color, brick red or red precipitate

Answer 294

(-)

4+

Question 295

___=bluish- green color
___=yellow-orange color, yellow-orange precipitate

Answer 295

Tr

3+

Question 296

____= green color, green or yellow precipitate
____=yellow to green color, yellow precipitate

Answer 296

1+

2+

Question 297

False positive

Answer 297

Reducing agents (ascorbic acid, uric acid)

Tip (same action as the test principle)

Question 298

False negative

Answer 298

Oxidizing agents (detergents)

Tip (opposite of the test principle)

Question 299

CLINITEST TABLET PROCEDURE
________+ 10 gtts H2O+ Clinitest tablet
-> Read reaction 15 secs after bubbling stops

Answer 299

5 gtts urine (5 drops)

Question 300

Occurs when > 2 g/di sugar is present

Answer 300

Pass-through phenomenon:

• Blue > Green > Yellow > Brick red&raquo_space;» Blue or Green-brown
• Due to reoxidation of cuprous oxide to cupric oxide and other cupric complexes (green)
• To prevent pass through, use 2gtts urine (use separate color chart to interpret the reaction)

Question 301

The tablets contain:
CuSO4, =
Na citrate =
NaCO3 =
NaOH=

Answer 301

The tablets contain:
CuSO4, = main reacting agent
Na citrate - for heat production
NaCO3 = eliminates interfering 02
NaOH= for heat production

Question 302

Glucose oxidase = 1+positive
Clinitest= negative

Answer 302

Small amount of glucose present

Question 303

Glucose oxidase = 4+positive
Clinitest= negative

Answer 303

Possible oxidizing agent interference on reagent strip

Question 304

Glucose oxidase = negative
Clinitest= positive

Answer 304

Non-glucose reducing substance present
Possible interfering substance for rgt. Strip (ex. Ascorbic acid)

Question 305

Result from increased fat metabolism due to inability to metabolize carbohydrates

Answer 305

KETONES

Question 306

Ketones renal threshold

Answer 306

70 mg/dL

Question 307

Ketones are seen in:

Answer 307

Type 1 DM
Vomiting
Starvation
Malabsorption

Question 308

Major ketone but not detected in reagent strip

Answer 308

Beta-hydroxybutyric acid

Question 309

Parent ketone (1st ketone body formed)

Answer 309

Acetoacetic acid (AAA)/Diacetic acid (20%)

Question 310

Acetone

Answer 310

2%

Question 311

Rgt. Strip for ketone

Principle:
Reagents:
Interferences:
Correlations:

Answer 311

Principle:
Acetoacetic acid (acetone) + Na nitroprusside (&glycine)———-» (+) PURPLE

Reagents:
Na nitroprusside/nitreferricvanide, Clycine

False (+): Pthalein dyes, pigmented red urinc, levodopa, drugs with suifhydryl groups
False (-): Improperly preserved specimens

Correlations: GLUCOSE

Question 312

ACETEST (Tablet)
________ urine + Acetest tablet
- -> (+) Purple color after 30 seconds

Composition = Sodium nitroprusside, Disodium phosphate, Glycine and Lactose

Answer 312

1 gtts urine

Question 313

CLOUDY RED URINE
Sensitive early indicator of renal disease

Seen in: _______
Microscopic: ______

Answer 313

HEMATURIA

Seen in:

Glomerulonephritis
Renal calculi, tumors
Strenuous exercise trauma
Anticoagulant therapy

Intact RBC’s

Question 314

Hemoglobinuria

Color of urine:
Seen in:
Microscopic:

Answer 314

Clear red urine

Seen in: INTRAVASCULAR HEMOLYSIS

Transfusion reactions
Hemolytic anemia
Severe burns
Brown recluse spider bites

No RBC’s seen

Heme portion of the hgb is TOXIC TO THE RENAL TUBULES

Question 315

MYOGLOBINURIA

Must be at least _______, to show clear red (red-brown) urine.

Seen in:

Answer 315

Must be at least 25 mg/dl, to show clear red (red-brown) urine.

RHABDOMYOLYSIS
- Muscular trauma
- Crush syndrome
- Extensive exertion
- CHOLESTEROL-LOWERING STATIN MEDICATIONS

Heme portion of the myoglobin is toxic to the renal tubules

> 1.5 mg/dL= renal failure risk

Question 316

What is more toxic to the renal tubules?
a. Heme
b. Hemoglobin
c. Myoglobin

Answer 316

C. Myoglobin

Question 317

True or False:
LYSIS of RBCs in the urine usually shows a mixture of hemoglobinuria and hematuria.

Answer 317

TRUE

Question 318

RED or PINK plasma
⬇️ haptoglobin levels

Blondheim’s test (ammonium sulfate test) ——-> PRECIPITATED

BLOOD (-)

Procedure:

Urine + 2.8g NH4Sulfate (80% satd.)
Allow the mixture to sit for 5 mins

Filter/Centrifuge

Test supernatant for blood with a reagent strip

Answer 318

HEMOGLOBIN

Question 319

PALE YELLOW PLASMA
⬆️ CK and aldolase activity

NOT PRECIPITATED by Ammonium sulfate

BLOOD (+)

Answer 319

MYOGLOBIN

Question 320

Rgt. Strip for BLOOD

Principle:
Reagents:
Interferences:
Correlations:

Answer 320

Principle: PSEUDOPEROXIDASE ACTIVITY OF HEMOGLOBIN

Reagents: =
Diisoprobylbenzene dehydroperoxide tetramethylBENZINE
Dimethyldihvdroperoxyhexane tetramethyl BENZIDINE

False +
Strong oxidizing agents, bacterial peroxidases, menstrual contamination.

False -
High SG, created cells, formalin, captopril, high concentrations of nitrite, ascorbic acid (>25 mg / dL), unmixed specimens

Uniform green / blue color =Hemoglobin / Myoglobin

Speckled / spotted
= Hematuria (Intact RBCs)

Chemstrip contains iodate overlay that eliminates ascorbic acid interference
Ilemoglobin level of 10 mg/ dL produces a positive protein reagent strip reaction

Correlations: Protein, Microscope

Question 321

Early indication of liver disease

Answer 321

BILIRUBIN
- Tea-colored/amber/beer brown urine with yellow foam

Clinical significance:
Hepatitis
Cirrhosis
Biliary obstruction (gallstones, carcinoma)

Question 322

Rgt. Strip for BILIRUBIN

Principle:
Reagents:
Interferences:
Correlations:

Answer 322

Principle: DIAZO REACTION
Bilirubin diglucuronide (CB) + Diazonium salt ————> Azodye

Reagents:
2,4-dichloroaniline diazonium salt
2,6-dichlorobenzene diazonium salt

False (+): Highly pigmented urines, phenazopyridine, indican, metab. of Lodine
False (-): Specimen exposure to light, high conc. of nitrite, ascorbic acid (>25 mg/dL)

(+) Tan or Pink to Violet (but VIOLET is the best answer)

Correlations: UROBILINOGEN

Question 323

ICTOTEST (Tablet)
_________ + Ictotest tablet + 2 gtts H20
–> {+) _________ color after 60 seconds

Answer 323

ICTOTEST (Tablet)
10 gtts urine + Ictotest tablet + 2 gtts H20 –> {+) Blue to purple color after 60 seconds

• Confirmatory test; more sensitive than strip with less interference

Question 324

Bile pigment that resuited from hemogiobin degradation

Answer 324

UROBILINOGEN

Question 325

Normal value of UROBILINOGEN in urine?

Specimen____

Answer 325

<1 mg/dl or Ehrlich unit

Afternoon urine (2-4 pm)

Question 326

Rgt. Strip for urobilinogen

Principle:
Reagents:
False (+):
False (-):
Correlations:

Answer 326

Principle: Ehrlich reaction

Urobilinogen (and Ehrlich-reactive compounds) + PDAB ——-> (+) Red

Reagents:
o-dimethylaminobenzaldehyde (PDAB or Ehrlich reagent)
4-methovbenzene-diazonium-tetrafluoroborate (specific for UBG)

False (+):

Ehrlich-reactive comp. (porphobilinogen, indican, methyldopa, procaine sulfonamides, p-aminosalicylic acid chlorpromazine), pigmented urine

False (-):
Old specimens, preservation in formalin high concentrations of nitrite

Correlations: BILIRUBIN

Question 327

Differentiate urobilinogen (UBG), porphobilinogen (PBG) and other Ehrlich-reactive compounds (ERC).

Uses extraction with organic solvents:____&_____

Answer 327

WATSON- SCHWARTZ TEST

Chloroform and Butanol

Question 328

Souble in CHLOROFORM & BUTANOL

Answer 328

Urobilinogen(UBG)

Question 329

Insoluble in BUTANOL and CHLOROFORM

Answer 329

Porphobilinogen (PBG)

Question 330

Soluble in BUTANOL
Insoluble in CHLOROFORM

Answer 330

Ehrlich reactive compounds (ERC)

Question 331

(Inverse Ehrlich reaction)
Rapid screening test for porphobilinogen only. (≥ _____ mg/dL)

+ color:

Answer 331

HOESCH TEST
(≥2 mg/dL)

RED

Question 332

Extravascular hemolytic disease
(Pre-hepatic hemolytic disease)

Blood:
Urine Bilirubin (CB):
Urine urobilinogen:

Answer 332

Blood: ⬆️ UB
Urine Bilirubin (CB): NEGATIVE
Urine urobilinogen: POSITIVE

Question 333

Liver damage (hepatic jaundice)

Blood:
Urine Bilirubin (CB):
Urine urobilinogen:

Answer 333

Blood: ⬆️UB/CB
Urine Bilirubin (CB): +/-
Urine urobilinogen: POSITIVE

Question 334

Bile duct obstruction
(Post-hepatic or obstructive jaundice)

Blood:
Urine Bilirubin (CB):
Urine urobilinogen:

Answer 334

Blood: ⬆️CB
Urine Bilirubin (CB): POSITIVE
Urine urobilinogen: -/+ (Strip= NORMAL)

Question 335

Rapid screening test of UTI or bacteriuria

Specimen:

Answer 335

NITRITE

Nitrate converters are generally Grain-negative bacilli, such as the Enterobacteriaceae

Specimen: 4 hour collection or first morning urine (referred)

Question 336

Rgt. Strip for NITRITE

Principle:
Reagents:
False (+):
False (-):
Correlations:

Answer 336

Principle: Greiss reaction

P-arsanilic acid (or sulfanilamide) + Nitrite ——-> Diazonium salt
Diazonium salt + Tetrahydrobenzoquinolin——->
(+) Uniform pink

Reagents:

Multistix = p-arsanilic acid, tetrahydrobenzo(h)-QUINOLIN-3-ol
Chemstrip = Sulfanilamide, hydroxytetrahydro benzoQUINOLINE

False (+): Improperly preserved specimens, highly pigmented urine

False (-): Nonreductase-containing bact, insufficient contact time bet bacteria & urinary nitrate, lack of urinary nitrate, large quantities of bacteria converting nitrite to nitrogen, antibiotics, high ascorbic acid, high SG

Pink spots/edges = considered NEGATIVE
(+) Nitrite corresponds to 100,000 organisms/ mL
If the nitrite test area shows a negative reaction, UTI cannot be ruled out
(Some UTIs are caused by Gram (+) cocci & yeasts - they lack nitrate reductase enzyme)
Dietary nitrate can be found in green vegetables

Correlations: protein, leukocytes, microscopic

Question 337

Significance:

Urinary tract infection or inflammation
Screening of urine culture specimens

Answer 337

LEUKOCYTES

Question 338

Rgt. Strip for Leukocytes

Principle:
Reagents:
False (+):
False (-):
Correlations:

Answer 338

Principle: Leukocyte esterase

Indoxylcarbonic acid——> Indoxyl + Acid indoxyl + Diazonium salt ——> (+) Purple

Reagents: =
Derivatives pyrrole amino acid ester, Diazonium salt

Indoxylcarbonic acid ester, Diazonium salt

False (+): Strong oxidizing agts, formalin, highly pigmented urine, nitrofurantoin
False (-): High concentrations of protein, glucose, oxalic acid, ascorbic acid

With esterase: Neutrophil, Eosinophil, Basophil, Monocyte, Histiocyte, Trichomonas
No esterase: Lymphocyte

Strip can detect lysed WBCs.
Trichomonas, Chlamydia, yeast, & interstitial nephritis produce pyuria w/o bacteriuria

Correlations: protein, nitrite, microscopic

Question 339

Water-soluble vitamin

11th Reagent Pad

Brands:
C-stix=_____
STix=_____
others: VChem. Urispec GP + A, and Merckoquant

Answer 339

ASCORBIC ACID

Ascorbicacid (2 5 mg/dL) + Phosphomolybdate ——> (+) Molybdenum blue

Brands:
C-stix= 10 seconds
STix= 60 seconds

GC-MS= more accurate quantitative method

Question 340

Ascorbic acid FALSE NEGATIVE reactions on: BB LNG

Answer 340

Blood
Bilirubin
Leukocyte
Nitrite
Glucose