Clinical Microscopy

Question 1

Potentially harmful microorganism

Answer 1

Biological hazards

Question 2

Transmission of microorganisms

Answer 2

Chain of infection

Question 3

Essential in preventing the spread of infection

Answer 3

Chain of infection

Question 4

Chain of infection requires a continuous link between:

Answer 4

1. Source
2. Mode (means) of transmission
3. Susceptible host

Question 5

6 components of the chain of infection
“IREMES”

Answer 5

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

Question 6

3 routes of infection

Answer 6

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

Question 7

Personal Protective Equipment

Answer 7

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

Question 8

______ is the primary method of infection transmission

Answer 8

Hand contact

Question 9

The best way to break the chain of infection

Answer 9

Handwashing

Question 10

When hands are visibly soiled, wash hands with ___

Answer 10

soap and water

Question 11

When hands are not visibly soiled, apply ___

Answer 11

alcohol based hand-rub (sanitizer)

Question 12

Handwashing procedure
1. Wash hands with ___
2. Apply antimicrobial soap.
3. Rub to form a lather, create _____, and loosen debris
4. Thoroughly clean between fingers, and up to the wrist for at least ____
5. Rinse hands in a ____ position
6. Dry with a paper towel
7. Turn off faucets with a clean paper towel to prevent recontamination .

Answer 12

1. warm water
2. friction
3. 15 (or 20) seconds
4. Downward

Question 13

Handwashing song

Answer 13

Happy Birthday 2x

Question 14

All biological wastes, except urine, must be placed in appropriate containers labeled with the_____ symbol

Answer 14

Biohazard

Question 15

The accepted BIOHAZARD label is _____

Answer 15

Fluorescent orange

Question 16

Discard urine by pouring it into a _____
Avoid splashing, and then flush with water

Answer 16

laboratory sink

Question 17

Empty urine containers can be discarded as ____

Answer 17

nonbiologically hazardous waste

Question 18

Disinfection of the sink using a ________ should be performed ______

Answer 18

1:5 or 1:10 dilution of sodium hypochlorite; daily

Question 19

Disinfection eliminates many or all pathogenic microorganisms, except _____

Answer 19

bacterial spores

Question 20

A 1:10 dilution of sodium hypochlorite is prepared by adding _______
effective for 1 month; used for disinfecting countertops and spills

Answer 20

1 part of sodium hypochlorite to 9 parts of water

Question 21

The basic outline of the biohazard symbol is a plain trefoil, which is _____ equally like in a triple Venn diagram with the overlapping parts erased. The diameter of the overlapping part is equal to half the radius of the three circles.

Answer 21

three circles overlapping each other

Question 22

Sharp objects are disposed of in ___

Answer 22

puncture resistant containers

Question 23

Color of puncture-resistant containers

Answer 23

red

Question 24

Type of hazard where procedures using radioisotopes are performed

Answer 24

Radioactive hazards

Question 25

True or false.
The best method of radioactive waste disposal is to store the used radioactive material in a locked, marked room until the background count is down to 10 half-lives for radioiodine,

Answer 25

True

Question 26

Best first aid for chemical spills

Answer 26

Flush the are with amounts of water for at least 15 minutes then seek medical attention

Question 27

For alkali or acid burns in the eye, wash out eye thoroughly with ____ for ____

Answer 27

running water for 15 minutes.

Question 28

DO not neutralize chemicals that come in contact with the skin.
Acid spills on floors can be neutralized and the soaked up with wet rages or spill pillows

Answer 28

Both statements are True

Question 29

Proper handling of chemicals “AW!”

Answer 29

Acid to water

Question 30

What will happen when water is added to acid

Answer 30

explosion

Question 31

The National Fire Protection Association (NFPA) Hazardous Materials Classification uses numbers from ____ to classify hazard severity, with 4 representing extremely hazardous.

Answer 31

0 to 4

Question 32

Yellow Quadrant
Reactivity or Stability Hazard

“SUVSM”

Answer 32

0 = Stable
1 = Unstable if heated
2 = Violent chemical change
3 = Shock and heat may deteriorate/detonate
4 = May deteriorate/detonate

Question 33

White Quadrant
Specific Hazard

Answer 33

OXY = Oxidizer
ACID = Acid
ALK = Alkali
COR = Corrosive
W = Use no water
Radiation

Question 34

Blue Quadrant
Health Hazard

“NSHED”

Answer 34

0 = Normal material
1 = Slightly hazardous
2 = Hazardous
3 = Extreme danger
4 = Deadly

Question 35

Red Quadrant
Flammability hazard

Answer 35

0 = Will not burn
1 = Above 200 deg F
2 = Below 200 deg F
3 = Below 100 deg F
4 = Below 73 deg F

Question 36

Degree of Hazards (Hazard Index)

“No SMS Ex’s”

Answer 36

0 = No/Minimal hazard
1 = Slight Hazard
2 = Moderate hazard
3 = Serious hazard
4 = Extreme / Severe Hazard

Question 37

All electrical equipment is grounded in a ____ to avoid electric shock

Answer 37

3-pronged plug

Question 38

If electrical shock occurs, never touch the person or the equipment involved. T/F

Answer 38

T

Question 39

Flammable chemicals should be stored in safety cabinets and ____ away from heat sources

Answer 39

explosion-proof refrigerators

Question 40

laboratory fire drills are held

Answer 40

Annually

Question 41

When fire is discovered, RACE

Answer 41

Rescue anyone in immediate danger
Activate the institutional fire alarm system
Close all doors to potentially affected areas
attempt to Extinguish the fire, if possible; exit the area

Question 42

To operate the fire extinguisher, PASS

Answer 42

Pull the pin
Aim at the base of the fire
Squeeze handles
Sweep nozzle side to side

Question 43

Fire type and fire extinguisher for ordinary combustibles: paper, cloth, rubbish, plastic, wood

Answer 43

Fire Type A
Extinguisher: Water, dry chemical, loaded steam

Question 44

Fire type and fire extinguisher for flammable liquids: alcohol, ether, grease, gasoline, paints, oil

Answer 44

Fire Type B
Extinguisher: Dry chemical, carbon dioxide, halon foam

Question 45

Fire type and fire extinguisher for electrical equipment and motor switches

Answer 45

Fire Type C
Extinguisher: Dry chemical, carbon dioxide, halon - best

Question 46

Fire type and fire extinguisher for flammable metals: mercury, magnesium, sodium, lithium

Answer 46

Fire Type D
Extinguisher: Metal X, sand; dry powder; fought by firefighters only

Question 47

Fire type and fire extinguisher for detonation (Arsenal fire)
E for Explosives

Answer 47

Fire Type E
Extinguisher: Allowed to burn out and nearby materials protected

Question 48

Fire Type and fire extinguisher for cooking media: grease, oils, fats

Answer 48

Fire Type K
Extinguisher: Liquid designed to prevent splashing and cool the fire

Question 49

Key Notes:

Answer 49

Water (A)
Dry chemicals (ABC)
Carbon dioxide (BC)
Halon (BC)
Dry chemical extinguishers (ABC) are the most common all-purpose extinguishers
Class D and E fires should be handled only by trained personnel

Question 50

General precautions - Physical hazards

Answer 50

1. Avoid running in rooms and hallways
2. Watch for wet floors
3. Bend knees when lifting heavy objects
4. Keep long hair pulled back
5. Avoid dangling jewelry
6. maintain clean, organized work area
7. Wear closed-toe shoes

Question 51

Miscellaneous Hazard Information

Answer 51

1. Ergonomic work hazards are work-related and include strain due to repeated positions
2. Cryogenic hazards are hazards due to extremely low temperatures
3. Mechanical hazards include centrifuges, refrigerators, autoclaves, homogenizers, and glasswares
4. Centrifuge accidents or improper removal of rubber stopper from test tubes may produce aerosols

Question 52

Weighs approximately 150 g and measures 12.5 cm x 6 cm x 2.5 cm (length, width, depth)

Answer 52

Kidney

Question 53

How long is the ureter?

Answer 53

25 cm

Question 54

Site when approximately 150 ml urine accumulates; a nerve reflex is initiated

Answer 54

Bladder

Question 55

4 cm long in women and 24 cm long in men`

Answer 55

Urethra

Question 56

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

Answer 56

10-15 seconds

Question 57

___ is actually a fluid biopsy of the kidney

Answer 57

Urine

Question 58

Basic structural and functional unit of the kidney

Answer 58

Nephron

Question 59

How many nephrons are there in each kidney?

Answer 59

1 to 1.5 Million nephrons

Question 60

2 Types pf nephron

Answer 60

Cortical and Juxtamedullary Nephrons

Question 61

Consists of glomerulus and renal tubules

Answer 61

Nephrons

Question 62

Order of Urine formation

Answer 62

1. Glomerulus
2. PCT
3. LH
4. DCT
5. CD
6. Calyx
7. Renal Pelvis –> Ureter –> Bladder –> Urethra

Question 63

Renal Blood Flow:
The kidneys receive ___ of the total cardiac input

Answer 63

25%

Question 64

Total Renal Blood FLow

Answer 64

1,200 mL/min

Question 65

Total Renal Plasma Flow

Answer 65

600 - 700 mL/min

Question 66

Order of renal blood flow

Answer 66

1. Renal artery (blood in)
2. Afferent arteriole
3. Glomerulus
4. Efferent arteriole
5. Peritubular capillaries
6. Vasa recta
7. Renal vein (blood out)

Question 67

In the order of renal blood flow, where is reabsorption and secretion takes place

Answer 67

Peritubular capillaries

Question 68

What part of the renal blood flow does the countercurrent mechanism takes place

Answer 68

Vasa recta

Question 69

The working portion of the kidney

Answer 69

Glomerulus

Question 70

Coil of approx. 8 capillary lobes (capillary tuft) located within the Bowman’s capsule

Answer 70

Glomerulus

Question 71

Attached to the glomerular basement membrane are the ____

Answer 71

Podocytes (epithelial cells)

Question 72

Glomerulus resembles a _____

Answer 72

Sieve

Question 73

Glomerulus serves as a non-selective filter of plasma substances with a MW of _____

Answer 73

< 70,000 Da

Question 74

Approximately ______ of the filtered plasma volume is actually excreted as urine

Answer 74

1%

Question 75

3 parts of the glomerular filtration barrier

Answer 75

1. Capillary endothelium
2. Trilayer basement membrane
3. Filtration diaphragm

Question 76

GFM with large open pores

Answer 76

Capillary endothelium

Question 77

GFM: lamina rara, lamina densa, lamina rara externa

Answer 77

Trilayer basement membrane

Question 78

Found between the podocytes of Bowman’s space

Answer 78

Filtration diaphragm

Question 79

SG of Glomerular filtrate

Answer 79

1.010

Question 80

Substances that are filtered out in the glomerulus

“SWAGU”

Answer 80

Salt
Water
Amino acids
Glucose
Urea

Question 81

pH of albumin

Answer 81

<4.9

Question 82

Why is albumin not excreted in the urine?

Answer 82

It is not filtered by the glomerulus (has a shield of negativity because they repel each other (albumin is negatively charged, tho it is only 69kda)

Question 83

First function to be affected in renal disease

Answer 83

Tubular reabsorption

Question 84

When the plasma concentration of a substance that is normally completely reabsorbed reaches an abnormally high level, the filtrate concentration exceed the ______ of the tubules, and the substance begins appearing in the urine

Answer 84

Maximal reabsorptive capacity (Tm)

Question 85

_____ is the plasma concentration at which active transport stops

Answer 85

Renal threshold

Question 86

Renal threshold for glucose

Answer 86

160 - 180 mg/dL

Question 87

Alter urine concentration

Answer 87

PCT, LH, DCT, CD

Question 88

Major site (65%) of reabsorption of plasma substances

Answer 88

PCT

Question 89

Renal concentration begins in the _______

Answer 89

Descending and ascending LH

Question 90

Solute concentration is highest in the _____

Answer 90

LH (renal medulla)

Question 91

_____ is a selective urine concentration process in the ascending and descending loops of Henle

Answer 91

Countercurrent mechanism

Question 92

The ____ is highly impermeable to water

Answer 92

Ascending LH

Question 93

“DAM” collects water, so does the

Answer 93

Descending LH

Question 94

“ASIN” - ding loop reabsorbs

Answer 94

ASIN (salt), but NOT water

Question 95

Substances that are reabsorbed via active transport

Answer 95

Glucose, amino acids, salts
Sodium
Chloride

Question 96

Substance Location
Glucose, amino acids, salts
Sodium
Chloride

Answer 96

GAS - PCT
Sodium - PCT and DCT
Chloride - Ascending LH

Question 97

Substances that are reabsorbed via passive transport

Answer 97

Water
Urea
Sodium

Question 98

Substance and their location
Water
Urea
Sodium

Answer 98

Water - PCT, descending LH, CD
Urea - PCT, ascending LH
Sodium - Ascending LH

Question 99

The movement of substance across cell membranes into the bloodstream by electrochemical energy

Answer 99

Active transport

Question 100

The movement of molecules across a membrane by diffusion because of a physical gradient

Answer 100

Passive transport

Question 101

Regulates water reabsorption in the DCT and CD

Answer 101

Antidiuretic hormone (ADH/ Vasopressin)

Question 102

Regulates sodium reabsorption in the DCT

Answer 102

Aldosterone

Question 103

Increased body hydration = Decreased ADH = ____ Urine volume

Answer 103

Increased

Question 104

Decreased body hydration = Increased ADH = ____ Urine volume

Answer 104

Decreased

Question 105

Diabetes insipidus = ____ Deficiency

“DI = Daming Ihi”

Answer 105

ADH

Question 106

SIADH = ___ Excess

Answer 106

ADH

Question 107

T or F
Effects of Angiotensin II
Release of Aldosterone and ADH (Increase water and sodium reabsorption
Vasoconstriction (Increased blood pressure)
Corrects renal blood flow

Answer 107

T

Question 108

T or F
The juxtaglomerular apparatus consists of the JG cells (which produce renin) in the afferent arteriole, and the macula densa (which detects decrease in BP) of the DCT

Answer 108

T

Question 109

Action of RAAS:
Dilates the ___ and constricts the ___

Answer 109

afferent arteriole; efferent arteriole

Question 110

Action of RAAS:
Stimulates __ reabsorption in the PCT

Answer 110

Sodium

Question 111

Action of RAAS:
Triggers the adrenal cortex to release ____ to cause sodium reabsorption and potassium excretion in the DCT and CD

Answer 111

aldosterone

Question 112

Action of RAAS:
Triggers release of ____ by the hypothalamus to stimulate water reabsorption in the CD

Answer 112

anti-diuretic hormone

Question 113

One of the functions of tubular secretion is the regulation of the ____ in the body through secretion of hydrogen ions (in the form of NH4 and H2PO4)

Answer 113

Acid-base balance

Question 114

Blood pH

Answer 114

7.4

Question 115

Another function of the tubular secretion is the elimination of waste products not filtered by the glomerulus.
T or F

Answer 115

T

Question 116

Major site for removal of nonfiltered substances

Answer 116

Proximal convoluted tubule

Question 117

It is in the PCT where H ions are secreted in exchange for Na ions, which are reabsorbed with HcO3 into the plasma.
T or F

Answer 117

T

Question 118

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

Answer 118

Renal Tubular Acidosis

Question 119

Acidic blood pH
Alkaline urine

Answer 119

Renal Tubular Acidosis

Question 120

An example of test for glomerular filtration is the clearance tests

Answer 120

T

Question 121

used to evaluate glomerular filtration

Answer 121

Clearance tests

Question 122

Measure the rate at which the kidneys are able to remove a filterable substance from the blood

Answer 122

Glomerular Filtration Test

Question 123

Examples of glomerular filtration tests

Answer 123

1. Urea
2. Creatinine
3. Inulin
4. Beta microglobulin
5. Radioisotopes
6. Cystatin C

Question 124

Obsolete clearance test

Answer 124

Urea clearance test

Question 125

Most common clearance test

Answer 125

Creatinine

Question 126

Gold standard or reference method clearance test

Answer 126

Inulin (MW: 5,200 Da)

Question 127

Better marker for renal tubular function than of GFR

Answer 127

Beta2-microglobulin (MW 11,800 Da)

Question 128

Alternative for creatinine clearance

Answer 128

Cystatin C (MW: 13, 359 Da)

Question 129

Formula of creatinine clearance

Answer 129

(UV / P) x (1.73 m2/ A)

U = Urine creatinine (mg/dL)
P = Plasma creatinine
V = Urine volume
A = Body Surface area

Question 130

Reference ranges for creatinine clearance

Answer 130

Males = 107 - 139 mL/min
Females = 87 - 107 mL/min

Question 131

Measure of the completeness of a 24-hour urine collection

Answer 131

Creatinine clearance

Question 132

What is the greatest source of error in any clearance procedure utilizing urine?

Answer 132

The use of improperly timed urine specimens

Question 133

Around ___ of creatinine is secreted by the renal tubules

Answer 133

7 - 10%

Question 134

Detect and monitor kidney disease (recent studies)

Answer 134

Estimated GFR

Question 135

Estimated GFR formula developed by Cockgroft and Gault

Answer 135

Ccr = [(140 - age) (body weight in kg) / 72 x serum creatinine in mg/dl] x 0.85 (if female)

Question 136

What are the variables included in the estimated GFR formula by Cockgroft and Gault

Answer 136

Age
Body wt in kg
Sex

“ABS”

Question 137

Modification of Diet in Renal Disease (MDRD) System Formula

Answer 137

See notes for reference

Question 138

What are the variable included in the MDRD system formula?

Answer 138

Ethnicitiy
BUN
Serum albumin

“EBS”

Question 139

MDRD- IDMS (Isotope Dilution Mass Spectrometry) Traceable formula

Answer 139

See notes for reference

Question 140

Formula for GFR recommended by the National Kidney Disease Education Program (NKDEP)

Answer 140

MDRD- IDMS (Isotope Dilution Mass Spectrometry) Traceable formula

Question 141

Tests for Tubular Reabsorption

Answer 141

Concentration Tests
- Obsolete tests (Fishberg, Mosenthal test)
- Recently used tests (Specific gravity, Osmolality)

OFM
RSO

Question 142

Used to evaluate tubular reabsorption

Answer 142

Concentration test

Question 143

A tubular reabsorption test wherein the patient is deprived of fluid for up to 24 hours

Answer 143

Fishberg test

Question 144

Urine SG after 12-hr restricted fluid diet is about ___ or more (Fishberg test)

Answer 144

1.022 or more

Question 145

Urine SG after 24-hr restricted fluid diet is about ___ or more (Fishberg test)

Answer 145

1.026 or more

Question 146

A tubular reabsorption test wherein the patient maintains normal diet and fluid intake.

Answer 146

Mosenthal test

Question 147

Compares day and night urine in terms of volume and SG

Answer 147

Mosenthal test

Question 148

Tubular reabsorption test influenced by the number and density of particles in a solution

Answer 148

Specific Gravity

Question 149

Influenced by the number of particles in a solution (Tubular reabsorption test)
More preferred than SG determination
More precise than osmolarity because it does not vary with temperature

Answer 149

Osmolality

Question 150

Osmolality include the methods of

Answer 150

Freezing point osmometry and Vapor pressure osmometry

Question 151

NV for urine osmolality

Answer 151

1-3x (275 to 900 mOsm/kg) than of serum (275 to 300 mOsm/kg)

Question 152

Tests for tubular secretion and renal blood flow

Answer 152

P-aminohippuric acid (PAH) test
Phenolsulfonphthalein (PSP) test
Other measurements used (urine pH, titratable acidity, urinary ammonia)

Question 153

Most commonly used (reference method) test for tubular secretion and renal blood flow

Answer 153

P-aminohippuric acid (PAH) test

Question 154

First illustrated medical book printed.

Answer 154

Fasciculus Medicinae

Question 155

During the Middle Ages, disease was thought to result from the imbalance of ____, reflected by one of the urine colors

Answer 155

Humours

Question 156

4 temperaments/ humours

Answer 156

Sanguineous (blood)
Choleric (yellow bile)
Phlegmatic (phlegm)
Melancholic (black bile)

Question 157

The ____ of urine was used by the Babylonians and Egyptians to detect diabetes

Answer 157

Taste test

Question 158

Hindu physicians noticed that ____ attracted ants

Answer 158

honey urine

Question 159

Uroscopy; first documented the importance of sputum examination

Answer 159

Hippocrates

Question 160

Albuminuria by boiling urine

Answer 160

Frederik Dekkers

Question 161

Wrote a book about “pisse prophets” (charlatans)

Answer 161

Thomas Bryant

Question 162

Examination of urine sediment

Answer 162

Thomas Addis

Question 163

Introduced urinalysis as part of doctor’s routine patient examination

Answer 163

Richard Bright

Question 164

Urochrome (history)

Answer 164

Ludwig Thudichum

Question 165

CSF (history)

Answer 165

Domenico Cotugno

Question 166

Phenylketonuria (history)

Answer 166

Ivan Folling

Question 167

Alkaptonuria (history)

Answer 167

Archibald Garrod

Question 168

Orthostatic or cyclic proteinuria

Answer 168

Frederick William Pavy

Question 169

Cystine calculi (history)

Answer 169

William Wollaston

Question 170

Benedict’s reagent (history)

Answer 170

Stanley Benedict

Question 171

Urine composition

Answer 171

95 - 97% water
3 - 5% solids (60 grams = Total Solids in 24 hours)

Question 172

Total solids

Answer 172

35 grams organic
25 grams inorganic

Question 173

Urine component - Total solids (organic component)

Answer 173

Urea (major)
Creatinine (2nd)
Hippurate
Uric acid
CHO
Pigments
fatty acids
mucins
enzymes
hormones

Question 174

Urine component - total solids (inorganic components

Answer 174

Chloride (major) > sodium > potassium
Sodium chloride (principal salt)
sulfate
phosphate
ammonium
magnesium
calcium

Question 175

Urine specimen for routine and qualitative urinalysis
Ideal for cytology studies (ONLY IF with prior hydration and exercise 5 mins before collection!)

Answer 175

Random/ Occasional / Single

Question 176

Ideal specimen for routine urinalysis and pregnancy testing (hCG)
Often preferred for cytology studies / cytodiagnostic urine testing

Answer 176

First morning

Question 177

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

Answer 177

First morning

Question 178

Urine specimen for the evaluation of orthostatic proteinuria

Answer 178

First morning

Question 179

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

Answer 179

First morning

Question 180

2nd voided urine after a period of fasting

Answer 180

Second morning/Fasting

Question 181

Urine specimen for glucose determination

Answer 181

Second morning/Fasting

Question 182

Urine specimen for diabetic screening or monitoring
Preferred for testing glucose

Answer 182

2-hr post-prandial

Question 183

Optimal with blood samples in glucose tolerance test

Answer 183

Glucose tolerance

Question 184

At least 2 voided collection
Series of blood and urine samples are collected at a specific time intervals to compare concentration of a substance in urine with its concentration in the blood
Used in the diagnosis of diabetes

Answer 184

Fractional specimen

Question 185

For routine screening and bacterial culture

Answer 185

Midstream clean catch

Question 186

Patient should thoroughly cleanse his glans penis or her urethral meatus before collection

Answer 186

Midstream clean catch

Question 187

May be urethral or ureteral urine specimen
For bacterial culture

Answer 187

Catheterized

Question 188

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

Answer 188

Suprapubic

Question 189

Use of soft, clear plastic bag with adhesive
Sterile specimen obtained by catheterization or suprapubic aspiration
Urine collected from diaper is NOT recommended for testing

Answer 189

Pediatric specimen

Question 190

Urine specimen for prostatic infection
1. First portion of voided urine
2. Middle portion of voided urine
3. Urine after prostatic massage

Answer 190

Three-glass technique

Question 191

tube number that serves as the control for bladder and kidney infection for the three-glass technique

Answer 191

2

Question 192

Prostatitis (infected prostate) how many WBC and bacteria are seen

Answer 192

Number of WBC and bacteria in the 3rd specimen is 10x greater than that of the 1st

Question 193

T or F
If control is positive for WBC and bacteria, the results from the 3rd specimen are considered invalid

Answer 193

T

Question 194

Four glass method of urine collection method which 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)

Answer 194

Stamey-Meares Test for Prostatitis

Question 195

In the Stamey-Meares test for prostatitis, urethral infection or inflammation is tested for by the ___

Answer 195

initial voided urine

Question 196

In the Stamey-Meares test for prostatitis, urinary bladder infection is tested for by the ___

Answer 196

Midstream urine

Question 197

The ______ are cultured and examined for white blood cells in the Stamey-Mears prostatitis test

Answer 197

Prostatic secretions

Question 198

Having more than ____ WBCs per high power field is considered abnormal in the Stamey-Mears test

Answer 198

10 to 20

Question 199

4 types of timed urine specimen

Answer 199

1. 24-hour
2. 12-hour
3. 4-hour
4. Afternoon (2-4PM)

Question 200

In the 24-hour urine, at the start time, the 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 200

24-hour

Question 201

Type of urine specimen for Addis Count

Answer 201

12-hour

Question 202

Type of urine specimen for nitrite determination
Urine remains in bladder for at least 4 hours before voiding

Answer 202

4-hour

Question 203

Type of urine specimen for urobilinogen determination

Answer 203

Afternoon (2-4pm)

Question 204

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

Answer 204

Chain of Custody

Question 205

Required urine volume for drug specimen collection

Answer 205

30 - 45 ml

Question 206

Container capacity for drug specimen collection

Answer 206

60 ml

Question 207

Temperature for drug specimen. Checked within 4 minutes; if out of range, record temperature and contact supervisor immediately

Answer 207

32.5 deg C - 37.7 deg C

Question 208

Added to the toilet water reservoir to prevent specimen adulteration

Answer 208

Blueing agent (dye)

Question 209

pH of a possibly adulterated urine specimen for drug testing

Answer 209

> 9

Question 210

Specific gravity of a possibly adulterated urine specimen for drug testing

Answer 210

SG <1.005

Question 211

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

Answer 211

4 cm

Question 212

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

Answer 212

3L

Question 213

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

Answer 213

False increased

Question 214

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

Answer 214

False decreased

Question 215

When both routine UA and culture are requested, the ____ should be performed first

Answer 215

culture

Question 216

Following collection, urine specimens should be delivered to the laboratory promptly and tested within ____.; ideally within ___

Answer 216

2 hours; 30 minutes

Question 217

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

Answer 217

As soon as possible

Question 218

Changes in unpreserved urine (increased)

Answer 218

pH
Bacteria
Odor
Nitrite

“pBaON”

Question 219

Darkened / modified in unpreserved urine

Answer 219

Color

Question 220

Decreased in unpreserved urine

Answer 220

Clarity
Glucose
Ketones
Bilirubin
Urobilinogen
RBC/WBC/Cast
Trichomonas
Proteins

Question 221

Urea –Urease—> Ammonia ; loss of CO2

Answer 221

pH

Question 222

Increased due to multiplication in unpreserved urine

Answer 222

Bacteria, Nitrite

Question 223

Urea –Urease—> Ammonia

Answer 223

Odor

Question 224

Oxidation or reduction of metabolites happen leading to darkened or modified changes in unpreserved urine

Answer 224

Color

Question 225

Bacterial multiplication; precipitation of amorphous material –> decreased

Answer 225

Clarity

Question 226

Decreases due to glycolysis

Answer 226

glucose

Question 227

Volatilization and bacterial metabolism –> decreased

Answer 227

Ketones

Question 228

Light exposure/photo oxidation to biliverdin

Answer 228

Bilirubin (CB)

Question 229

Disintegrate in dilute alkaline urine

Answer 229

RBC, WBC, Casts

Question 230

Loss of motility; death; possible misidentification as WBCs

Answer 230

Trichomonas

Question 231

Least affected parameter in unpreserved urine

Answer 231

Protein

Question 232

What are the ideal characteristics of a urine specimen

Answer 232

Bactericidal, inhibit urease, preserve elements, no interference

Question 233

Urine preservative
Adv: Does not interfere with chemical tests
Disadvantage: Raises SG by hydrometer; Precipitates amorphous phosphates and urates

Answer 233

Refrigeration

Question 234

Preservative of choice for routine UA and urine culture (up to 24 hours0
Prevents bacterial growth for 24 hours

Answer 234

Refrigeration

Question 235

Urine preservative
Preserves glucose and sediments well
Disadvantage: Interferes with acid precipitation test for protein

Answer 235

Thymol

Question 236

Preserves protein and formed elements well
Does not interfere with routine analyses other than pH
Disadvantage: May precipitate crystals when used in large amounts

Answer 236

Boric acid

Question 237

Keeps pH about 6.0
Bacteriostatic at 18 g/L;
For culture transport, C&S
Interfere with drug and hormone analyses

Answer 237

Boric acid

Question 238

Excellent sediment preservative
Disadvantage: Reducing agent;
interferes with chemical tests for glucose, blood, leukocytes & copper reduction

Answer 238

Formalin (Formaldehyde)

Question 239

Preservative that does not interfere with routine tests
-Floats on urine surface and clings to pipettes and testing materials
-Best all round preservative

Answer 239

Toluene

Question 240

Preservative that prevents glycolysis
-Good preservative for drug analysis
-May use sodium benzoate instead of fluoride for reagent strip testing

Answer 240

Sodium fluoride

Question 241

Preservative that does not interfere with routine tests
-Causes an odor change
-use 1 drop/ounce of specimen

Answer 241

Phenol

Question 242

Preservative that is convenient when refrigeration not possible
-May contain one of more of the preservatives including sodium fluoride

Answer 242

Commercial preservative tablets

Question 243

Preservative that contains collection cup, C & S preservative tube or UA tube

Answer 243

Urine Collection Kits

Question 244

Preservative wherein the sample is stable at room temperature for 48 hours; preserves bacteria
-Preservative is boric acid and may not be used for UA

Answer 244

Gray C & S tube

Question 245

Preservative that is stable for 72 hours at room temperature
-Instrument compatible
-Bilirubin and urobilinogen may be decreased if specimen is exposed to light and left at RT
-Preservative is sodium propionate

Answer 245

Cherry red/Yellow top tube

Question 246

Preservative that preserves cellular elements
-Used for cytology studies (50 mL urine)

Answer 246

Saccamano fixative
(50% ethanol + 2% carbowax)

Question 247

Normal urine (24 hours) volume

Answer 247

600 to 2000 mL

Question 248

Average volume of urine (24 hours)

Answer 248

1200 to 1500 mL

Question 249

Night urine output

Answer 249

< 400 mL

Question 250

Urine day:night ratio

Answer 250

2-3:1

Question 251

Container capacity (UA)

Answer 251

50 mL

Question 252

required volume of urine for routine UA

Answer 252

10 to 15 mL (ave: 12 mL)

Question 253

Polyuria

Answer 253

> 2000 mL/24 hours

Question 254

Causes of polyuria

Answer 254

Increased fluid intake
Diuretics, nervousness
Diabetes mellitus
Diabetes insipidus

Question 255

Oliguria

Answer 255

< 500 mL/24 hrs
< 400 mL/day

Question 256

Causes of oliguria

Answer 256

Dehydration
Renal diseases
Renal calculi or tumor

Question 257

Anuria

Answer 257

< 100 ml/ 24 hours

Question 258

Causes of anuria

Answer 258

Complete obstruction
Toxic agent
Decreased renal blood flow

Question 259

Excretion of more than 500 mL of urine at night

Answer 259

Nocturia

Question 260

SG of nocturia

Answer 260

< 1.018

Question 261

Any increase in urine excretion

Answer 261

Diuresis

Question 262

Rough indicator of the degree of hydration

Answer 262

Urine color

Question 263

Correlates with urine SG

Answer 263

Urine color

Question 264

Normal urine color

Answer 264

Colorless to deep yellow

Question 265

Abnormal urine color

Answer 265

Red or red brown

Question 266

Urine color determination

Answer 266

Look down through the container against a white background

Question 267

-Major pigment of urine
-lipid soluble pigment that is a product of endogenous metabolism

Answer 267

Urochrome