BOC BB QUESTIONS Flashcards

Question 1

Q

The minimum hemoglobin concentration in a fingerstick from a male blood donor is:

0 g/dL (120 g/L)
5 g/dL (125 g/L)
5 g/dL (135 g/L)
0 g/dL (150 g/L)

Answer

A

All donors, regardless of sex, requrire a minimum hemoglobin of 12.5 g/dL (125 g/L). The value must not be performed on an earlobe stick.

Question 2

Q

A cause for permanent deferral of blood donation is:

Diabetes
Residence in an endemic malarial region
History of jaundice of uncertain cause
History of therapeutic rabies vaccine

Answer

A

Jaundice is a sign of liver impairment, which might be due to HBV or HCV. Infection with HBV and HCV is a cause for indefinite deferral.

Question 3

Q

Which of the following prospective donors would be accepted for donation?

32-year-old woman who received a transfusion in a complicated delivery 5 months previously

19-year-old sailor who has been stateside for 9 months and stopped taking his anti-malarial medication 9 months previously

22-year-old college student who has a temperature of 99.2F (37.3C) and states that he feels well, but is nervous about donating

45-year-old woman who has just recovered from a bladder infection and is still taking antibiotics

Answer

A

The receipt of blood products is a 6 month deferral, the deferral for travel to areas endemic for malaria is 12 months regardless of antimalarial prophylaxis, and a person taking antibiotics may have bacteremia. The requirement for temperature is not over 37.5C or 99.5F.

Question 4

Q

Which one of the following constitutes permanent rejection status of a donor?

A tattoo 5 months previously

Recent close contact with a patient with viral hepatitis

2 units of blood transfused 4 months previously

Confirmed positive test for HBsAg 10 years previously

Answer

A

A positive test for HbsAg at anytime is an indefinite deferral.

Question 5

Q

According to AABB standards, which of the following donors may be accepted as a blood donor?

Traveled to an area endemic for malaria 9 months previously

Spontaneous abortion at 2 months of pregancy, 3 months previously

Resides with a known hepatitis patient

Received a blood transfusion 22 weeks previously

Answer

A

A woman who had a spontaneous abortion at 2 months of pregancy, 3 months previously would be acceptable. A donor is acceptable if she has not been pregnant in the previous 6 weeks.

Question 6

Q

Below are the results of the history obtained from a prospective female blood donor:

Age: 16

Temperature: 99.0F (37.2C)

Hct: 36%

History: Tetanus toxoid 1 week previously

How many of the above results excludes this donor from giving a routine blood transfusion?

a. None
b. 1
c. 2
d. 3

Answer

A

The Hct must be >38%. A donor may be 16 unless state law differs. Temperature must not exceed 99.5F/37.5C, blood pressure must be be <180mm Hg systolic <100 mm Hg diastolic, pulse 50-100 unless an athlete (which can be lower). Toxoids and vaccines from synthetic or killed sources have no deferral.

Question 7

Q

For apheresis donors who donate platelets more frequently than every 4 weeks, a platelet count must be performed prior to the procedure and be at least:

150 x 10³/μL (150 x 10⁹/L)

200 x 10³/μL (200 x 10⁹/L)

250 x 10³/μL (250 x 10⁹/L)

300 x 10³/μL (300 x 10⁹/L)

Answer

A

The minimum platelet count required for frequent repeat donors is 150x10³/μL (150 x 10⁹/L). A platelet count is not required prior to the first donation of if the interval between donations is at least 4 weeks.

Question 8

Q

Prior to blood donation, the intended venipuncture site must be cleaned with a scrub solution containing:

Hypochlorite

Isopropyl alcohol

10% acetone

PVP iodine complex

Answer

A

The scrub must use iodine, eg, PVP iodine complex. Donors who are sensitive to iodine can have the area cleaned with a preparation of 2% chlorhexidine and 70% isopropyl alcohol.

Question 9

Q

All donor blood testing must include:

Complete Rh phenotyping

anti-CMV testing

Direct antiglobulin test

Serological test for syphilis

Answer

A

Testing for syphilis was the first mandated donor screening test for infectious disease and is still part of donor screening.

Question 10

Q

During the preparation of Platelet Concentrates from Whole Blood, the blood should be:

Cooled towards 6C

Cooled towards 20-24C

Warmed to 37C

Heated to 57C

Answer

A

Platelets are prepared and stored at 20-24C for optimum function.

Question 11

Q

The most common cause of posttransfusion hepatitis can be detected in donors by testing for:

anti-HCV

HBsAg

anti-HAV IgM

anti-HBe

Answer

A

The most common posttransfusion hepatitis is hepatitis B. The estimated risk of transmission is 1:220,000 units transfused. The risk of hepatitis C transmission is 1:1,800,000 units. Hepatitis B surface antigen (HBsAg) is a required donor test for detection of acute or chronic HBV infection.

Question 12

Q

The Western blot is a confirmatory test for the presence of:

CMV antibody

Anti-HIV-1

HBsAg

Serum protein abnormalities

Answer

A

Western blot uses purified HIV proteins to confirm reactivity in samples whose screening test for anti-HIV is positive.

Question 13

Q

The test that is currently used to detect donors who are infected with the AIDS virus is:

anti-HBc

anti-HIV 1,2

HBsAg

ALT

Answer

A

The causative agent for AIDs is the human immunodeficiency virus types 1 and 2.

Question 14

Q

A commonly used screening method for anti-HIV-1 detection is:

Latex agglutination

Radioimmunoassay (RIA)

Thin-layer-chromatography (TLC)

enzyme -labeled immunosorbent assay (ELISA)

Answer

A

The enzyme-labeled immunosorbent assay (ELISA) method is a very sensitive method employed to screen donors for markers of transfusion-transmitted viruses.

Question 15

Q

Rejuvenation of a unit of Red Blood Cells is a method used to:

Remove antibody attached to RBC’s
Inactive viruses and bacteria
Restore 2,3 DPG and ATP to normal levels
Filter blood clots and other debris

Answer

A

Rejuvenation of RBCs uses additives to restore or enhance 2,3-DPG and ATP levels.

Question 16

Q

unit of packed cells is split into 2 aliquots under closed sterile conditions at 8am. The expiration time for each aliquot is now:

4pm on the same day
8pm on the same day
8am the next morning
The original date of the unsplit unit.

Answer

A

Sterile docking devices allow entry into donor units without affecting the expiration date of the product.

Question 17

Q

A unit of Red Blood Cells expiring in 35 days is split into 5 small aliquots using a sterile pediatric quad set and a sterile connecting device. Each aliquot must be labeled as expiring in:

6 hours
12 hours
5 days
35 days

Answer

A

Sterile docking devices allow entry into donor units without affecting the expiration date of the product.

Question 18

Q

When platelets are stored on a rotator set on a open bench top, the ambient air temperature must be recorded:

Once a day
Twice a day
Every 4 hours
Every hour

Answer

A

If storage devices do not have automated temperature recording, temperature must be manually monitored every 4 hours.

Question 19

Q

Which of the following in the correct storage temperature for the component listed?

Cryoprecipitated AHF, 4C
Fresh Frozen Plasma (FFP), -20C
Red Blood Cells, Frozen, -40C
Platelets, 37C

Answer

A

Fresh Frozen Plasma is stored at -18C or below for 12 months.

Question 20

Q

A unit of Red Blood Cells is issued at 9:00am. At 9:10am the unit is returned to the Blood Bank. The container has not been entered, but the unit has not been refrigerated during this time span. The best course of action for the technologist is to:

Culture the unit for bacterial contamination
Discard the unit if not used within 24 hours
Store the unit at room temperature
Record the return and place the unit back into inventory

Answer

A

Blood may be returned to the blood bank after issue provided that 1) the container has not been entered, 2) at least 1 sealed segment is attached to the container, 3) visual inspection of the unit is satisfactory and documented, and 4) the unit has been maintained at the appropriate storage or transport temperature. Studies have shown that refrigerated components retain an acceptable temperature of <10C for up to 30 minutes after removal from the refrigerator.

Question 21

Q

The optimum storage temperature for Red Blood Cells, Frozen is:

-80C
-20C
-12C
4C

Answer

A

Red Blood Cells, Frozen with 40% glycerol are stored at -65C or lower.

Question 22

Q

The optimum storage temperature for Red Blood Cells is:

-80C
-20C
-12C
4C

Answer

A

Red Blood Cells are stored at 1-6C

Question 23

Q

If the seal is entered on a unit of Red Blood Cells stored at 1C to 6C, what is the maximum allowable storage period, in hours?

6
24
48
72

Answer

A

If the seal is broken during processing, components are considered to be prepared in an open system, rather than a closed system. The expiration time for Red Blood Cells in an open system is 24 hours.

Question 24

Q

The optimum storage temperature for cryoprecipitated AHF is:

-20C
-12C
4C
22C

Answer

A

Cryoprecipitated AHF is stored at -18C or lower

Question 25

Q

Cryoprecipitated AHF must be transfused within what period of time following thawing and pooling?

4 hours
8 hours
12 hours
24 hours

Answer

A

Cryoprecipitate must be transfused with 4 hours of pooling.

Question 26

Q

Platelets prepared in a polyolefin type container, stored at 22-24C in 50 mL of plasma, and gently agitated can be used for up to:

24 hours
48 hours
3 days
5 days

Answer

A

Whole blood-derived platelets are stored at 20-24C with continuous gentle agitation. Platelets prepared by the PRP method may be stored for up to 5 days.

Question 27

Q

The optimum storage temperature for platelets is:

-20C
-12C
4C
22C

Answer

A

The required temperature for storage of platelets is 20-24C

Question 28

Q

According to AABB standards, Fresh Frozen Plasma must be infused within what period of time following thawing?

24 hours
36 hours
48 hours
72 hours

Answer

A

Per AABB standards, thawed FFP should be stored at 1-6C for no more than 24 hours

Question 29

Q

Cryoprecipitated AHF, if maintained in the frozen state at -18C or below, has a shelf life of:

42 days
6 months
12 months
36 months

Answer

A

Cryoprecipitate has a shelf life of 12 months in the frozen state

Question 30

Q

Once thawed, Fresh Frozen Plasma must be transfused within:

4 hours
8 hours
12 hours
24 hours

Answer

A

Once thawed, FFP is stored at 1-6C for up to 24 hours.

Question 31

Q

An important determination of platelet viability following storage is:

Plasma potassium concentration
Plasma pH
Prothrombin time
Activated partial thromboplastin time

Answer

A

The pH of platelets should be maintained at 6.2 or above throughout the storage period

Question 32

Q

In the liquid state, plasma must be stored at:

1-6C
22C
37C
56C

Answer

A

The required temperature for storage of thawed plasma is 1-6C.

Question 33

Q

During storage, the concentration of 2,3-DPG deceases in a unit of:

Platelets
Fresh Frozen Plasma
Red Blood Cells
Cryoprecipitated AHF

Answer

A

2,3 DPG declines during storage of Red Blood Cells, causing a “shift to the left” in the oxygen dissociation curve and an impaired ability to deliver oxygen to the tissues.

Question 34

Q

Cryoprecipitated AHF:

Is indicated for fibrinogen deficiencies
Should be stored at 4C prior to administration
Will not transmit hepatitis B virus
Is indicated for the treatment of hemophilia B

Answer

A

Cryoprecipitate is used primarily for fibrinogen replacement. It is stored at room temperature (20-24C) after thawing and must be infused within 6 hours. If pooled with other cryo units, it must be infused within 4 hours.

Question 35

Q

Which apheresis platelets product should be irradiated?

Autologous unit collected prior to surgery
Random stock unit going to a patient with DIC
A directed donation given by a mother for her son
A directed donation given by an unrelated family friend

Answer

A

Blood products from blood relatives containing viable lymphocytes must be irradiated to inhibit the proliferation of T cells and subsequent GVHD.

Question 36

Q

Irradiation of a unit of Red Blood Cells is done to prevent the replication of donor:

Granulocytes
Lymphocytes
Red cells
Platelets

Answer

A

Irradiation inhibits proliferation of T lymphocytes

Question 37

Q

Plastic bag overwraps are recommended when thawing units of FFP in 37C water baths because they prevent:

The FFP bag from cracking when it contacts the warm water
Water from slowly dialyzing across the bag membrane
The entry ports from becoming contaminated with water
The label from peeling off as the water circulates in the bath

Answer

A

FFP thawed in a water bath should be protected so that entry ports are not contaminated with water. One may use a plastic overwrap or keep ports above water level.

Question 38

Q

Which of the following blood components must be prepared within 8 hours after phlebotomy?

Red Blood Cells
Fresh Frozen Plasma
Red Blood Cells, frozen
Cryoprecipitated AHF

Answer

A

Fresh Frozen Plasma (FFP) must be separated and frozen within 8 hours of Whole Blood collection.

Question 39

Q

Cryoprecipitated AHF contains how many units of Factor VIII?

40
80
130
250

Answer

A

Cryoprecipitate contains at least 80 units of AHF

Question 40

Q

Which of the following blood components contains the most Factor VIII concentration relative to volume?

Single donor plasma
Cryoprecipitated AHF
Fresh Frozen Plasma
Platelets

Answer

A

Cryoprecipitated AHF contains at least 80 IU of Factor VIII concentrated in about 10 mL of plasma.

Question 41

Q

The most effective component to treat a patient with fibrinogen deficiency is:

Fresh Frozen Plasma
Platelets
Fresh Whole Blood
Cryoprecipitated AHF

Answer

A

Cryoprecipitate is indicated as a source of fibrinogen for hypofibrinogenemia. It contains a minimum of 150 mg of fibrinogen concentrated in a small volume of plasma.

Question 42

Q

A blood component prepared by thawing Fresh Frozen Plasma at refrigerator temperature and removing the fluid portion is:

Plasma Protein Fraction
Cryoprecipitate AHF
Factor IX Complex
FP24

Answer

A

Cryoprecipitate is the fraction of plasma proteins that precipitate when FFP is slowly thawed at 1-6C

Question 43

Q

Upon inspection, a unit of platelets is noted to have visible clots, but appears normal. The technologist should:

Issue without concern
Filter to remove the clots
Centrifuge to express off the clots
Quarantine for gram stain and culture

Answer

A

Clots in the unit may indicate contamination

Question 44

Q

According to AABB standards, at least 90% of all apheresis platelets units tested shall contain a minimum of how many platelets?

5.5 x 10¹⁰
6.5 x 10¹⁰
3.0 x 10¹¹
5.0 x 10¹¹

Answer

A

Per AABB standards, at least 90% of platelet pheresis units sampled must contain at least 3.0 x 10¹¹ platelets

Question 45

Q

According to AABB standards, Platelets prepared from Whole Blood shall have at least:

5.5 x10¹⁰platelets per unit in at least 90% of the units tested
6.5 x 10¹¹ platelets per unit in 90% of the units tested
7.5 x 10¹⁰ platelets per unit in 100% of the units tested
8.5 x 10¹⁰platelets per unit in 95% of units tested

Answer

A

Per AABB standards, at least 90% of the platelet units prepared from Whole Blood that are sampled must contain at least 5.5 x 10¹⁰ platelets.

Question 46

Q

Which of the following is proper procedure for preparation of Platelets from Whole Blood?

Light spin followed by a hard spin
Light spin followed by 2 hard spins
2 light spins
Hard spin followed by a light spin

Answer

A

Whole blood-derived Platelets are prepared by a light spin to separate the Red Blood Cells from the platelet-rich plasma (PRP), followed by a heavy spin of the PRP to concentrate the platelets

Question 47

Q

According to AABB standards, what is the minimum pH required for platelets at the end of the storage period?

6.0
6.2
6.8
7.0

Answer

A

Per AABB standards, at least 90% of platelet units sampled must have a pH of at least 6.2 at the end of the allowable storage.

Question 48

Q

According to AABB standards, Platelets must be:

Gently agitated if stored at room temperature
Separated within 12 hours of Whole Blood collection
Suspended in sufficient plasma to maintain a pH of 5.0 or lower
Prepared only from Whole Blood units that have been stored at 4C for 6 hours

Answer

A

Per AABB standards, store Platelets at 20-24C with continuous agitation. Platelets must be separated from Whole Blood units and maintained at a temperature of at least 20C. The pH must be at least 6.2 at the end of the storage time.

Question 49

Q

A unit of whole blood-derived (random donor) Platelets should contain at least:

1.0 x 10¹⁰ platelets
5.0 x 10¹⁰ platelets
5.5 x 10¹¹ platelets
90% of the platelets from the original unit of Whole Blood

Answer

A

Whole blood-derived (random donor) Platelets should contain at least 5.5 x 1010 platelets, be stored with continuous agitation at 20-24C, and have a pH of 6.2 or higher when tested at the end of the storage period.

Question 50

Q

Platelets prepared by apheresis should contain at least:

1.0 x 10¹⁰ platelets
3.0 x 10¹⁰ platelets
3.0 x 10¹¹ platelets
5.0 x 10¹¹ platelets

Answer

A

Apheresis (single donor) Platelets should contain at least 3.0 x 1011 platelets, be stored with continuous agitation at 20-24C, and have a pH of 6.2 or higher when tested at the end of the storage period

Question 51

Q

Leukocyte-reduced red blood cells are ordered for a newly diagnosed bone marrow candidate. What is the best way to prepare this product?

Crossmatch only CMV-seronegative units
Irradiate the unit with 1,500 rads
Wash the unit with saline prior to infusion
Transfuse through a Log3 leukocyte-removing filter

Answer

A

Newly diagnosed bone marrow candidates are at great risk for severe sequelae of CMV infections. Infections can best be reduced by using leukocyte-reduction filters. CMV-seronegative units are rarely used since leukocyte reducing via filtration is so effective. Washing does not remove as many leukocytes as filtering.

Question 52

Q

Of the following blood components, which one should be used to prevent HLA alloimmunization of the recipient?

Red Blood Cells
Granulocytes
Irradiated Red Blood Cells
Leukocyte-Reduced Red Blood Cells

Answer

A

Leukoreduction of blood products reduces donor leukocytes to less than 5 x 10⁶ and decreases the risk of HLA alloimmunization.

Question 53

Q

A father donating Platelets for his son is connected to a continuous flow machine, which uses the principle of centrifugation to separate Platelets from Whole Blood. As the Platelets are harvested, all other remaining elements are returned to the donor. This method of Platelet collection is known as:

Apheresis
Autologous
Homologous
Fractionated

Answer

A

The apheresis process is to remove whole blood, the desired component removed, and the remaining portion of blood returned to the donor/patient.

Question 54

Q

To qualify as a donor for autologous transfusion a patient’s hemoglobin should be at least:

8 g/dL (80 g/L)
11 g/dL (110 g/L)
13 g/dL (130 g/L)
15 g/dL (150 g/L)

Answer

A

Autologous donors have less stringent criteria than allogeneic donors. Donations must be collected at least 72 hours prior to surgery.

Question 55

Q

What is/are the minimum pretransfusion requirements for autologous donations collected and transfused in the same facility?

ABO and Rh typing only
ABO/Rh type, antibody screen
ABO/Rh type, antibody screen, crossmatch
No pretransfusion testing is required for autologous donations

Answer

A

Only ABO and Rh is required with the patient’s sample. Each autologous unit must be confirmed for ABO and Rh from an integrally attached segment.

Question 56

Q

In a quality assurance program, Cryoprecipitated AHF must contain a minimum of how many international units of Factor VIII?

60
70
80
90

Answer

A

FDA requirements that 4 representative units be tested each month for Factor VIII levels of 80 IU or higher. If the average value is less than 80 IU of Factor VIII, corrective action must be taken.

Question 57

Q

An assay of plasma from a bag of cryoprecipitated AHF yields a concentration of 9 international units (IU) of factor VIII per mL of Cryoprecipitated AHF. If the volume is mL, what is the Factor VIII content of the bag in IU?

9
18
27
81

Answer

A

To determine the total IU of Factor VIII per bag of cryoprecipitate, multiple the assayed value/mL by the number of mL in the container. (81)

Question 58

Q

Antigens

Panel Cells

1

2

3

4

5

Test results

I

+

0

+

II

0

+

0

+

0

III

0

+

0

IV

0

+

0

+

V

+

0

+

Auto

0

Given the most probable genotypes of the parents, which of the following statements best describes the most probable Rh genotypes of the 4 children?

2 are R1r, 2 are R1R1
3 are R1r, 1 is rr
1 is R0r, 1 is R1r, 2 are R1R1
1 is R0r, 1 is R1R1, 2 are R1r

Answer

A

The mother has a 50% chance of passing on R1 and 50% chance of passing on r. The father will always pass on R1. Statistically 50% of the children will be R1r and 50% of them will be R1R1.

Question 59

Q

The linked HLA genes on each chromosome constitutes a(n):

Allele
Trait
Phenotype
Haplotype

Answer

A

The entire set of HLA antigens located on one chromosome is a haplotype

Question 60

Q

An individual’s red blood cells give the following with Rh antisera:

Anti-D

Anti-C

Anti-E

Anti-c

Anti-e

Rh control

4+

3+

0

3+

0

The individual’s most probable genotype is:

DCe/DcE
DcE/dce
Dce/dce
DCe/dce

Answer

A

The patient lacks E. Since C and c are alleles, C is inherited from one parent and c from the other. Since the person is homozygous for e, one of the genes needs to code for ce (Rhce) and the other Ce (RhCe). The RHD gene is more likely inherited with Ce than ce, so the person’s most probable genotype is found in 31% of the white and 15% of the black populations.

Question 61

Q

A blood donor has the genotype: hh, AB. What is his red blood cell phenotype?

A
B
O
AB

Answer

A

The A and B structures can not be developed since there is no H gene in the blood donor

Question 62

Q

An individual has been a sensitized to the k antigen and has produced anti-k. What is her most probable Kell system genotype?

KK
Kk
Kk
K0K0

Answer

A

This individual cannot have the k antigen on their cells. K0K0 is rare and no Kell system antigens are detected on the red blood cells. Those individuals usually produce antibodies that are reactive with all normal cells. KK is the most probable genotype.

Question 63

Q

Given the following typing results, what is this donor’s racial ethnicity? Le(a-b-); Fy(a-b-);Jsa(a+b+)

African American
Asian American
Native American
Caucasin

Answer

A

Fy(a-b-) individuals are very rare with all populations other than the individual of african descent. 68% of African Americans are Fy(a-b-)

Question 64

Q

A mother has the red cell phenotype D+,C+,E-,c-,e+ with and anti-c (titer of 32 at AHG) in her serum. The father has the phenotype D+C+E-c+e+. The baby is Rh-negative and not affected with hemolytic disease of the newborn. What is the baby’s most probable Rh genotype?

r’r’
r’r
R1R2
R1r

Answer

A

The baby is Rh-negative and lacks c, since there is no evidence of HDFN. Inheritance of no D and no c is denoted as r’. The baby must have inherited this gene from both parents, and is homozygous.

Answer 65

A

The most common genotype in Rh-negative individuals is rr. Anti-e would not be formed because the recipient’s red cells contain the e antigen. The first antibody most likely to develop would be anti-c

Answer 66

A

Most blood group systems are Autosomal codominant

Answer 67

A

The Xg blood group system is unique in that the gene encodes on the X chromosome. A negative mother would not have the Xg(a) to pass on. A positive father would however, transmit the Xg(a) to all his daughters.

Answer 68

A

All common Rh antigens are present on the red blood cells. R1 (DCe) and R2 (DcE) are frequent genotypes.

Answer 69

A

R0R0 is the only correct choice here. R0 = D+C-E-c+e+.

Answer 70

A

The Lewis antigens are developed by gene interaction. Both the Lewis and Secretor gene are required for red cells to type as Le(a-b+). If a person has a Lewis gene, but not a Secretor gene, then the cells type as Le(a+b-). The Le(a-b-) phenotype is derived when the Lewis gene is absent and the Secreter gene may or may not be present. The Le(a+b-) phenotype occurs in 22% or the population, and Le(a-b-)occurs in 6%, so the most likely phenotype of a nonsecretor (se/se) is Le(a+b-).

Answer 71

A

Anti-f will react with cells that carry c and e on the same Rh polypeptide. No other listed genotypes produce and Rh polypeptide that carries both c and e.

Answer 72

A

Nonreactivity with anti-f indicates that cells so not have an Rh polypeptide that possesses both c and e, which is necessary to type as f+. R1R2 is the most likely genotype.

Answer 73

A

The N antigen is lacking in 30% of the Caucasian population.

Answer 74

A

The baby appears to lack c since no HDFN was evident. The mom is most likely R1R1, so had to pass R1 onto the baby. The father must have passed on an Rh gene that also did not produce c. Given the choices, the father has to be R1r.

Answer 75

A

The Fy(a-b-) phenotype occurs in 68% of the population of african descent, but is extremely rare in the other ethnic backgrounds. Lu(a-b-), Jk(a-b-) and K-k- are very rare in all ethnic backgrounds.

Answer 76

A

The frequency of compatible donors the patient can be calculated by multiplying the percentage of the population that is e-C- x Fy(a-) x Jk(b-). The blood supplier’s immunohematology reference lab may have units in stock or can request blood from other IRL’s through the American Rare Donor program.

Answer 77

A

The most likely haplotype is DCe/dce

Answer 78

A

From the first 2 children it can be determined the mom has the haplotypes A2B12 and A23B18. The dad has the haplotypes A1B3 nad A3B35. The expected B antigen in child #3 is B35.

Answer 79

A

If an exact match of HLA-A and HLA-B antigens is necessary, siblings would be the most likely match, since siblings may have received the same haplotypes from the parents.

Answer 80

A

Determination of compatibility can be determined by multiplying the percentage of compatibility of each antigen. 46% of the population is group O, 15% are D-, and 91% are K-. 0.46*0.15*0.91=0.06

Answer 81

A

Use the Hardy-Weinberg equation: p^2+2pq+q^2=1.0 In this example, p^2 is the homozygous population, Jk(a+b-). The square root of p^2=p, which is the gene frequency of Jka in this population. Out of 400 people, 112 or 30% are homozygous. The square root of 0.30=0.55.

Answer 82

A

The Hardy-Weinberg equation states p+q=1.0 When the equation is expanded, it is p²+2pq+q²=1.

Answer 83

A

When a marker is in a child that the mother and alleged father do not have, the alleged father can not be the biological father of the child. This is direct exclusion

Answer 84

A

The child’s genotype does not include E. The alleged father is homozygous for E. If he was the father the child would also have E. The father can be excluded from paternity

Answer 85

A

Direct exclusion of paternity is established when a genetic marker is present in the child but is absent from the mother and the alleged father.

Answer 86

A

Ax cells are more strongly reactive with anti-A,B than with anti-A and the plasma frequently has anti-A1 present.

Answer 87

A

The ABO blood group system was discovered by Karl Landstiener

Answer 88

A

Mixed field reactivity with anti-A and anti-A,B is a typical finding for A3 subgroups

Answer 89

A

Fucose is the immunodominant sugar for H

Answer 90

A

Bombay phenotypes (Oh) lack H antigen on their red cells, and produce naturally occurring anti-H in their serum.

Answer 91

A

Most examples of anti-Lua agglutinate saline suspended cells. Most examples of anti-Lub are IgG and reacts at 37C. Anti-Lu3 usually reacts at the AHG phase as does anti-Luab.

Answer 92

A

Anti-Ch and anti-Rg react at IAT with trace amounts of C4 (a component of complement) present on normal RBCs. The Ch and Rg substance is found soluble in plasma. Neutralization studies with pooled plasma can help confirm the antibody reactivity in a patient’s sample. If test procedures are used to coat cells with C4, a patient with anti-Ch or anti-Rg may agglutinate the cells directly.

Answer 93

A

Anti-Sda is an antibody to a high-prevalence antigen, which varies in strength from person to person. Most examples of anti-Sda characteristically present as small, mixed-field refractile agglutinates that may have a shiny appearance when observed microscopically after the antiglobulin test.

Answer 94

A

HLA antibodies are formed in response to pregnancy, transfusions or transplantation and are therefore not naturally occurring. They are associated with febrile nonhemolytic transfusion reactions and TRALI. They are directed against antigens found on granulocytes and other cells such as platelets.

Answer 95

A

MHC consists of both class I and class II HLA antigens. Discrimination of self from nonself is the primary function of the HLA system and involves many immune responses.

Answer 96

A

HPA-1a is a platelet specific antigen, which is the most common cause of neonatal alloimmune thrombocytopenia. Treatment consists of IVIG.

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