Deck 17: Immunologic Disorders

A) Type I.
B) Type II.
C) Type III.
D) Type IV.
E) Type V.

A) result in destruction of red blood cells.
B) utilize complement to destroy red blood cells.
C) utilize antibody-dependent cellular cytotoxicity to destroy the red blood cells.
D) result in destruction of only leukocytes.

A) may not manifest itself fully until after birth.
B) is due to the action of IgM.
C) is due to the action of IgE.
D) is a Type I hypersensitivity reaction.
E) may not manifest itself fully until after birth AND is due to the action of IgE.

A) become phagocytic.
B) release IgE antibodies.
C) degranulate.
D) immediately release histamine.
E) degranulate AND immediately release histamine.

A) appears promising as a treatment for asthma.
B) decreases the levels of IgG.
C) uses an engineered form of an IgG molecule.
D) promotes crosslinking between IgE molecules on the mast cells.
E) appears promising as a treatment for asthma AND uses an engineered form of an IgG molecule.

A) neutrophils.
B) mast cells.
C) B cells.
D) macrophages.
E) mast cells AND B cells.

A) IgG.
B) IgA.
C) IgM.
D) IgE.
E) IgD.

A) are considered natural antibodies.
B) are present at birth.
C) are typically IgM.
D) easily cross the placenta.
E) are considered natural antibodies AND are typically IgM.

A) hypersensitivity.
B) autoimmunity.
C) cell-mediated immunity.
D) immunodeficiency.

A) mast cell.
B) B cell.
C) macrophage.
D) platelet.
E) neutrophils.

A) stimulates an increase in IgG.
B) reduces the number of mast cells.
C) increases the number of basophil cells.
D) is a treatment for hypersensitivity reactions.
E) stimulates an increase in IgG AND is a treatment for hypersensitivity reactions.

A) desensitization.
B) immunity.
C) sensitization.
D) exposure.
E) anaphylaxis.

A) natural.
B) acquired.
C) injurious.
D) active.

A) leukocytes.
B) phagocytes.
C) platelets.
D) erythrocytes.

A) fire ant stings.
B) aspirin.
C) bananas.
D) peanuts, bee stings or penicillin injections.

A) Watson and Crick.
B) Pasteur.
C) Fleming.
D) Richet and Portier.

A) wheal and flare.
B) inflammation.
C) shock.
D) rash.

A) IgG.
B) IgE.
C) IgM.
D) IgD.
E) IgA.

A) living in Utica.
B) wheal and flare.
C) asthma.
D) inflammation.

A) poison ivy
B) latex
C) tuberculin skin test
D) hay fever
E) poison ivy, latex AND tuberculin skin test

A) severe combined immunodeficiency
B) selective IgA deficiency
C) agammaglobulinemia
D) Di George's syndrome

A) sensitized T cytotoxic cells.
B) NK cells.
C) erythrocytic cells.
D) basophilic cells.
E) sensitized T cytotoxic cells AND NK cells.

A) is a relatively general immunosuppressive agent.
B) suppresses T cell proliferation.
C) activates macrophages.
D) stimulates antibody production.
E) is a relatively general immunosuppressive agent AND suppresses T cell proliferation.

A) are only needed during the first week after transplantation.
B) are only needed for the first year after transplantation.
C) are needed indefinitely after transplantation.
D) are needed for transplants between identical twins.
E) are needed indefinitely after transplantation AND are needed for transplants between identical twins.

A) amphotericin B and cyclosporin A
B) FK506 and cephalosporin
C) cyclosporin A and tacrolimus
D) cephalosporin and amphotericin B
E) FK506 and amphotericin B

A) type I
B) type II
C) type III
D) type IV
E) type V

A) farmer's lung
B) serum sickness
C) hay fever
D) glomerulonephritis

A) brain.
B) eyes.
C) testes.
D) kidney.
E) brain, eyes AND testes.

A) consist of antigen-antibody bound together.
B) are usually cleared rapidly from the body.
C) bind to Fc receptors on cells.
D) are involved in Type III hypersensitivity reactions.
E) All of the choices are correct.

A) minutes.
B) hours.
C) 12 hours.
D) 2-3 days.

A) it is too small.
B) it is in an immunologically privileged site.
C) the father is immunosuppressed.
D) it has no antigens.
E) it is in an immunologically privileged site AND the father is immunosuppressed.

A) type I
B) type II
C) type III
D) type IV
E) type V

A) sensitized T cells.
B) IgE.
C) complement.
D) basophil cells.

A) Type I reaction.
B) Type II reaction.
C) Type III reaction.
D) Type IV reaction.
E) Type V reaction.

A) are normally rejected within hours.
B) are normally rejected within 10-14 days.
C) are grafts between non-identical members of the same species.
D) would include the fetus.
E) are normally rejected within 10-14 days, are grafts between non-identical members of the same species AND would include the fetus.

A) hives.
B) serum sickness.
C) immune complexes.
D) contact hypersensitivity.

A) Rh.
B) ABO.
C) MHC.
D) MLB.

A) erythrocytes.
B) B cells.
C) T cells.
D) mast cells.

A) farmer's lung.
B) German measles.
C) serum sickness.
D) an Arthus reaction.

A) genetic defects.
B) malignancies.
C) advanced age.
D) malnutrition.

A) AIDS.
B) Chediak-Higashi disease.
C) Di George's syndrome.
D) agammaglobulinemia.

A) may be used to generate cells for transplantation.
B) may overcome graft rejection.
C) may treat cancer.
D) may down-regulate the immune response.
E) may overcome graft rejections AND may treat cancer.

A) sensitized T cells.
B) cytotoxic T cells.
C) antibodies.
D) IgD.

A) SCID.
B) AIDS.
C) Di George's syndrome.
D) agammaglobulinemia.

A) sensitized T cells.
B) cytotoxic T cells.
C) antibodies.
D) IgD.

A) SCID.
B) AIDS.
C) Di George's syndrome.
D) Chediak-Higashi disease.

A) lymphatic system
B) circulatory system
C) oxidase system
D) Golgi system

A) have an almost unlimited capacity to divide.
B) can differentiate into different tissues.
C) may be used to test the effects of drugs on human cells.
D) come from fetal material.
E) All of the above

A) immunodeficiency disease.
B) agammaglobulinemia.
C) autoimmune disease.
D) AIDS.

A) appears to cause AIDS.
B) is an RNA virus.
C) destroys T helper cells.
D) makes the patient vulnerable to infections, especially those caused by opportunists.
E) All of the choices are correct.

A) functional T cells are absent.
B) functional B cells are absent.
C) Di George's syndrome exists.
D) complement deficiencies exist.
E) functional T cells are absent AND Di George's syndrome exists.

A) This disease results when an Rh-negative mother's immune system is primed multiple times to produce anti-Rh IgG antibodies that can cross the placenta. If the mother is Rh-positive, she won't produce any anti-Rh antibodies at all.
B) Rh-positive mothers produce IgM antibody, not IgG. This antibody can't cross the placenta, so it can't cause hemolytic disease of the newborn.
C) Rh-positive mothers will receive a preventative shot from their physician prior to conception. This will provide the protection the fetus needs AFTER conception to avoid the disease.
D) Rh-negativity is also associated with hyperproduction of antibodies. As such, Rh-negative mothers are more likely than Rh-positive mothers to produce the antibodies needed to produce this disease.

A) Kidney blood vessel wall cells have receptors for antibodies on them, which makes them soak up antibodies (or in this case, immune complexes) from the bloodstream. This blocks the kidneys up and causes them to malfunction and become damaged.
B) Blood is pushed through the kidneys at a very high pressure-any blockage of the vessels (such as what might be caused by immune complex deposits) can lead to ruptures/inflammation and damage.
C) While blood vessel walls do NOT have receptors for antibodies, large immune complexes forced through small diameter vessels can become embedded within them. This can trigger complement system inflammation and cell destruction.
D) Trapped immune complexes that initiate inflammation can attract neutrophils. The neutrophils degranulate in the area of the immune complexes, leading to cell/tissue destruction.

A) All the immunoglobulin produced is most likely specific to one antigen. This limits the ability to respond to the diversity of antigens we encounter.
B) The multiplication of the malignant plasma cells may crowd out normal production of other immune cells required for protective responses.
C) The massive overproduction of immunoglobulin impairs the kidneys, preventing production of the correct hormones from the kidneys to balance immune system cell production from the bone marrow.
D) Through a negative feedback loop, the large amount of immunoglobulin tricks the immune system into thinking it's making a strong response that is needed. As such, it shuts down production of other responses that might truly BE needed to fight off a pathogen.
E) All the immunoglobulin produced is most likely specific to one antigen. This limits the ability to respond to the diversity of antigens we encounter AND the multiplication of the malignant plasma cells may crowd out normal production of other immune cells required for protective responses.

A) Nothing-the transplant is matched, so the patient doesn't need the drugs to prevent rejection. The new organ should be seen by the recipient's immune system as 'self.'
B) The organ will be rejected very quickly, as allografts (tissue from the same species, but a different individual) are seen by the recipient's immune system as 'foreign,' and are quickly attacked.
C) The organ will be rejected, but it will be a gradual process since it was matched well. There are a number of other proteins that cannot be matched between donors, so the graft will still be viewed as 'foreign' by the recipient's immune system, and will still be attacked. The attack will just be a slower and lengthier process.
D) Nothing-since the transplant was accepted for so long with the anti-rejection drugs, the person's immune system has had the time to become accustomed to it and now views the graft as 'self.' It will not be attacked.

A) False positives occur all the time. This might simply be an example of that.
B) The TB skin test is a measure of reactivation of memory T cells. The memory T cells would be formed either during an active infection or would be remnants of a prior infection that may be cleared. Since the memory of the response persists, the test still shows positive, even though the patient is cleared of actual infection.
C) Each person in the US receives the BCG tuberculosis vaccine. This is an attenuated mycobacterium vaccine. The response to this vaccine makes us positive for the TB skin test, even though we may not have actually had a TB infection at any point in our lives.
D) This is a trick question-a positive TB skin test ALWAYS indicates a current, active infection.

A) Stem cells can disable the immune responses that led to the diabetes state in the first place.
B) This process should be far cheaper than the surgical intervention needed for the allograft.
C) You can't do this-stem cell research is still theoretical, not approved by the FDA, and is currently illegal in the US. As such, there is no advantage.
D) If you were able to use a person's own cells, it would be considered an autograft rather than an allograft. As such, there should be no HLA/MHC matching required, and no long-term anti-rejection drugs needed.