A - CHAPTER III: PHLEBOTOMY

Question 1

– collection of minute sample of blood through capillary puncture

Answer 1

MICROSAMPLING

Question 2

INFANTS up to 1 year of age

Answer 2

• Plantar surface of the big toe
• Median or lateral side of the heel
• Depth of puncture: up to 2.4 mm

Question 3

ADULTS:

Answer 3

• Middle or ring finger
• Puncture must be slightly off-center, perpendicular to the fingerprint
• Margin of the earlobe
• Depth of puncture: up to 3.1 mm

Question 4

– collection of a greater volume of blood from the veins or arteries

Answer 4

MACROSAMPLING

Question 5

ARTERIAL PUNCTURE:

Answer 5

• Collection of arterial blood for blood gas analysis or blood pH determination
• Common sites: radial artery, brachial artery, femoral artery

Question 6

• Collection of venous blood

Answer 6

VENIPUNCTURE

Question 7

Infants up to 18 months:

Answer 7

External jugular vein
Superior longitudinal sinus
Temporal vein

Question 8

18 months to 3 years:

Answer 8

Popliteal vein
Femoral vein
Long saphenous vein
Ankle vein

Question 9

3 years to adulthood:

Answer 9

Veins on the antecubital fossa
Wrist vein
Veins on the dorsal of hands & feet

Question 10

3 years to adulthood:

Answer 10

Veins on the antecubital fossa
Wrist vein
Veins on the dorsal of hands & feet

Question 11

METHODS OF PERFORMING VENIPUNCTURE:

Answer 11

I. OPEN SYSTEM
II. CLOSED SYSTEM

Question 12

– use of syringes

Answer 12

OPEN SYSTEM

Question 13

• The hub of the needle is color-coded, corresponding to its gauge

Answer 13

OPEN SYSTEM

Question 14

• The lower the gauge, the bigger the bore of the needle

Answer 14

OPEN SYSTEM

Question 15

– use of an evacuated system (evacuated tube, two-way needle and adapter)

Answer 15

CLOSED SYSTEM

Question 16

• Evacuated tubes are equipped with a hemogard (color-coded in accordance to the additive present)

Answer 16

CLOSED SYSTEM

Question 17

• Multiple sampling can be carried out

Answer 17

CLOSED SYSTEM

Question 18

– liquid portion of clotted blood

Answer 18

SERUM

Question 19

– liquid portion of anti-coagulated blood

Answer 19

PLASMA

Question 20

: preparation involves the removal of proteins from any biological specimen to prevent direct colorimetric interference by the formation of zwitterions at isoelectric pH where proteins exhibit maximum precipitation and minimum solubility

Answer 20

PROTEIN-FREE FILTRATE (PFF)

Question 21

METHODS of PFF PREPARATION:

Answer 21

A. Physical Methods:
1. Heat
2. Ultracentrifugation

B. Chemical Methods
(ACID Method)
1. Folin-Wu
2. Hayden’s method
3. Van Slyke
4. TCA (5%)
(BASE Method)
1. Nelson-Somogyi

Question 22

▪ Specimen: whole blood; plasma/serum
▪ 2/3 N Sulfuric acid
▪ 10% sodium tungstate

Answer 22

Folin-Wu

Question 23

▪ Specimen: serum
▪ N/12 Sulfuric acid
▪ 10% sodium tungstate

Answer 23

Hayden’s method

Question 24

• makes use of a pre-mixed acid

Answer 24

Van Slyke

Question 25

CONTAMINATION of SPECIMEN

Answer 25

❖ residual detergent in tubes
❖ Plasticizers in IV tubing and tube stoppers
❖ Cork stoppers & glass tubes
❖ Lead analysis: use lead-free, acid-washed containers

Question 26

Serum or plasma should be separated from cells [?] (unless collected in a gel separator tube).

Answer 26

within 2 hours of collection

Question 27

Rate of glycolysis:
At ref temperature –
At room temperature –

Answer 27

2 mg/dL
7 mg/dL

Question 28

Allow red top tubes to clot sufficiently (?) before centrifugation to avoid fibrin strands.

Answer 28

20-30 minutes

Question 29

Centrifuge [?] at [?] × g.

Answer 29

10 ± 5 minutes
1000-1200

Question 30

Keep tubes [?] during centrifugation

Answer 30

capped

Question 31

can be ultracentrifuged

Answer 31

Lipemic specimens

Question 32

SPECIMEN HANDLING REQUIREMENTS

Question 33

• Patients should not eat or drink anything (NPO) except water

Answer 33

FASTING

Question 34

• Glucose determination:

Answer 34

6 – 8 hours fasting

Question 35

• Lipid Profile:

Answer 35

10 – 12 hours fasting

Question 36

• Specimen to be collected at a specified time

Answer 36

TIMED

Question 37

• Label the tube with the time the specimen was drawn

Answer 37

TIMED

Question 38

• Tests for Cardiac profile

Answer 38

TIMED

Question 39

• Specimen collected when the highest serum concentration of a drug is anticipated

Answer 39

PEAK / Post-dose

Question 40

• Drawn 30 minutes to 1 hour after administration of the drug

Answer 40

PEAK / Post-dose

Question 41

• Therapeutic Drug Monitoring

Answer 41

PEAK / Post-dose

Question 42

• Specimen collected when the lowest serum concentration of a drug is expected, usually before the next dose is administered

Answer 42

TROUGH / Pre-dose

Question 43

• Chilling the specimen to slow down the metabolic process that will continue after blood is drawn

Answer 43

CHILLED

Question 44

• Placed in crushed ice & water for even cooling

Answer 44

CHILLED

Question 45

• Blood ammonia determination, blood gas analysis & Coagulation studies

Answer 45

CHILLED

Question 46

• Keep specimen at body temperature or close to 37°C (incubator)

Answer 46

KEEP WARM

Question 47

• For cold agglutinins

Answer 47

KEEP WARM

Question 48

• Specimen should be wrapped in aluminum foil or a light-inhibiting container should be used

Answer 48

PROTECT FROM LIGHT

Question 49

• Bilirubin, Vit. B12, Carotene

Answer 49

PROTECT FROM LIGHT

Question 50

• For legal or forensic proceedings, sample may be used as piece of evidence

Answer 50

CHAIN OF CUSTODY

Question 51

• Documentation of specimen handling begins with patient identification and continues until testing is complete

Answer 51

CHAIN OF CUSTODY

Question 52

o It must include date, time and identification of handler, all to be done in the presence of a witness

Answer 52

CHAIN OF CUSTODY

Question 53

• DNA Analysis, Drug testing, Alcohol levels

Answer 53

CHAIN OF CUSTODY

Question 54

REASONS FOR SPECIMENT REJECTION

Answer 54

✓ Hemolysis
✓ Lipemic / Lactescent serum
✓ Clots in an anti-coagulated specimen
✓ Partially-filled tubes
✓ Improper transport conditions
✓ Discrepancies b/w requisition & specimen label
✓ Unlabeled or mislabeled specimen
✓ Contaminated specimen/Leaking container

Question 55

SPECIMEN INTERFERENCES

Answer 55

1. HEMOLYSIS
2. ANTICOAGULANTS and PRESERVATIVES
3. ICTERIC SERUM / JAUNDICED SERUM
4. LACTESCENT SERUM / MILKY SERUM / TURBID SERUM
5. PARTIALLY-FILLED TUBES
6. SPECIMEN CONTAMINATION

Question 56

o Destruction of RBCs result in a plasma or serum appearing pink to red

Answer 56

HEMOLYSIS

Question 57

o Hemoglobin concentration: exceeds 200 mg/L

Answer 57

HEMOLYSIS

Question 58

o In-vivo hemolysis
o In-vitro hemolysis

Answer 58

HEMOLYSIS

Question 59

HEMOLYSIS Interferes with:

Answer 59

▪ Enzyme and electrolyte assays (K+, Zinc and Mg+2)
▪ Serum albumin (↑): Bromcresol Green method
▪ Serum protein (↑): Biuret method
▪ Serum bilirubin (↓): Diazo method

Question 60

▪ Serum albumin (↑):
▪ Serum protein (↑):
▪ Serum bilirubin (↓):

Answer 60

Bromcresol Green method
Biuret method
Diazo method

Question 61

o – dilution of plasma owing to water transport from the cells

Answer 61

Potassium oxalate

Question 62

o will inhibit various plasma enzyme activities

Answer 62

Anticoagulants that chelate calcium

Question 63

o inhibit amylase activity

Answer 63

Oxalates or citrates

Question 64

o inhibit Lactate dehydrogenase and Acid phosphatase

Answer 64

Oxalates

Question 65

will cause a decrease in calcium concentration

Answer 65

o EDTA, oxalates and citrates

Question 66

Bilirubin interferes with the ff:
▪ Albumin assay:
▪ Cholesterol assay:
▪ Glucose determination:
▪ Total Protein determination:

Answer 66

HABA method
Ferric chloride reagents
ortho-toluidine method
Biuret method

Question 67

LACTESCENT SERUM / MILKY SERUM / TURBID SERUM
o Interferes with the ff:
▪ Albumin assay:
▪ Calcium :
▪ Inorganic phosphates:
▪ CK, bilirubin and total protein levels decrease
▪ Inhibits the activity of

Answer 67

Bromcresol Green method
Cresolphthalein method
Ammonium molybdate
amylase, uricase and urease

Question 68

For proper ratio of blood to anti-coagulant to be achieved, all tubes should be filled until

Answer 68

the vacuum is exhausted

Question 69

Most important for Coagulation studies

Answer 69

PARTIALLY-FILLED TUBES

Question 70

o Improper application of antiseptic on the site prior to venipuncture, or traces of Povidone iodine on the site of puncture

Answer 70

SPECIMEN CONTAMINATION

Question 71

o Aseptic technique is very important for blood cultures.

Answer 71

SPECIMEN CONTAMINATION

Question 72

o increases K+ and Uric acid

Answer 72

Iodine

Question 73

SOURCES OF VARIATIONS IN SPECIMEN COLLECTION & PROCESSING

Answer 73

1. EXERCISE
2. PROLONGED FASTING
3. DIET
4. TOBACCO SMOKING6. POSTURE
5. POSTURE
6. OTHER FACTORS

Question 74

immediate fall and then subsequent increase in the concentration of free fatty acids

Answer 74

Transient Effects

Question 75

Increase in activities of muscle enzymes such as Creatine kinase, aldolase, AST, and Lactate dehydrogenase

Answer 75

Longer-lasting Effects

Question 76

• Changes the levels of sex hormones
• During a six-month training, there is an increase in the mean plasma testosterone concentration by 21%, the androstenedione concentration by 25%

Answer 76

Long-term physical training

Question 77

An 8 – 12 hour fasting is a must (GNFH or General Normal Fasting Hours) to ensure that laboratory measurements are compatible with reference values.

Answer 77

PROLONGED FASTING

Question 78

• Increase in the plasma concentration of potassium and triglycerides

Answer 78

DIET

Question 79

• Increase in plasma concentration of lactate, urate and the metabolites of ethanol namely acetaldehyde and acetate

Answer 79

ETHANOL INGESTION

Question 80

• Up to 80% increase in carboxyhemoglobin

Answer 80

TOBACCO SMOKING

Question 81

• Obtain specimen in a supine or upright sitting position

Answer 81

POSTURE

Question 82

• Incorrect application of tourniquet, fist exercise cause an increase in the concentration of lactate, enzymes, proteins, protein-bound substances

Answer 82

OTHER FACTORS

Question 83

DIURNAL VARIATION:
➢ Lower at night:
➢ Higher in the afternoon & evening:

Answer 83

• ACTH, Renin, Aldosterone, Insulin
• GH, ACP

Question 84

peaks early to late morning & decreases during the day

Answer 84

Iron

Question 85

SHOCK and TRAUMA:
➢ Increased:

Answer 85

cortisol, aldosterone, catecholamine, glucagon and insulin

Question 86

affects adrenal hormone secretion.

Answer 86

Stress

Question 87

will lead to disturbances in acid-base balance, an increase in the serum lactate concentration, and non-esterified fatty acids.

Answer 87

Anxiety resulting in hyperventilation

Question 88

an increase in the serum lactate concentration

Answer 88

acid-base balance

Question 89

SKIN COLOR:
➢ Blacks have increased

Answer 89

CK, aldolase, and LDH

Question 90

MENSTRUAL CYCLE:
➢ Increased

Answer 90

cholesterol, protein, albumin, fibrinogen, Mg, Cl-, Na+, and PO4