14. RBCs & Bleeding Disorders Flashcards

1
Q

Extravascular vs. intravascular hemolysis

A

Extravascular = premature destruction of red cells occurring in phagocytes; associated features include splenomegaly, jaundice, anemia, decreased plasma haptoglobin

Intravascular = mechanical injury, complement fixation, intracellular parasites, or exogenous toxic factors; associated features include anemia, hemoglobinemia, hemoglobinuria, hemosiderinuria, jaundice, decreased serum haptoglobin

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2
Q

Intrinsic defects in RBC membrane skeleton (ankyrin, band 3, spectrin, brand 4.2) that make them more round, less deformable, and vulnerable to splenic sequestration and destruction, resulting in a normocytic anemia with predominantly extravascular hemolysis

A

Hereditary spherocytosis

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3
Q

Inheritance pattern and clinical features of hereditary spherocytosis

A

75% Autosomal dominant

May see osmotic lysis, increased MCHC, anemia, splenomegaly, and jaundice

Complications: aplastic crisis (usually triggered by parvovirus B19 infxn), hemolytic crises produced by intercurrent infection (usually EBV—infectious mono)

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4
Q

_______ normally reduces NADP to NADPH, which then provides reducing equivalents needed to convert oxidized glutathione to reduced glutathione, which protects against oxidant injury by acting as a cofactor to neutralize ROS

Thus, a deficiency in this enzyme leads to a normocytic anemia with predominantly intravascular hemolysis

A

G6PD

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5
Q

Inheritance pattern of G6PD deficiency

A

X-linked recessive

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6
Q

G6PD is associated with episodic hemolysis d/t exposures that generate oxidant stress. What are the most common triggers of these episodes?

A

Infections in which oxygen-derived free radicals are produced by leukocytes (most commonly viral hepatitis, pneumonia, and typhoid fever)

Other triggers: antimalarials (primaquin), sulfonamides, nitrofurantoins, fava beans

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7
Q

Autosomal recessive mutation in beta chain of Hb resulting in polymerization of deoxygenated Hb —> RBC destruction, hemolytic anemia, microvascular obstruction, and ischemic tissue damage

A

Sickle cell disease

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8
Q

What changes in MCHC and intracellular pH lead to increased sickling in SCD?

A

Intracellular dehydration —> increased MCHC —> increased sickling

Reduced pH —> reduced oxygen affinity for Hb —> increased sickling

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9
Q

What types of “crises” are associated with sickle cell disease?

A

Vaso-occlusive crises: dactylitis, acute chest syndrome

Autosplenectomy

Pain crisis

Aplastic crisis

Renal papillary necrosis

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10
Q

Inherited mutations that decrease synthesis of either alpha-globin or beta-globin chains that compose adult HbA, leading to anemia, tissue hypoxia, and red cell hemolysis

A

Thalassemias

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11
Q

Alpha thalassemia is usually d/t a gene deletion (up to 4 genes). What are the variable clinical presentations?

A

1 gene deleted — asymptomatic

2 genes deleted — mild anemia w/ slightly increased RBC count

3 genes deleted — severe anemia; beta-chains form tetramers (HbH) that damage RBCs

4 genes deleted — lethal in utero (hydrops fetalis); gamma chains form tetramers (Hb Barts) that damage RBCs

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12
Q

Beta-thalassemia is usually due to a gene mutation vs. a deletion. What is the difference between B-thalassemia minor and B-thalassemia major?

A

Minor (B/B+) — usually asymptomatic w/increased RBCs; microcytic hypochromic RBCs and target cells + basophilic stippling on PB smear. Increase in HbF and HbA2

Major (B^0/B^0) — severe anemia several months after birth; alpha tetramers aggregate and damage RBCs, massive erythroid hyperplasia. Little or no normal HbA present

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13
Q

Condition caused by acquired mutations in X-linked gene for enzyme essential for synthesis of GPI-linked proteins (DAF/CD55, CD59, or C8) which manifests as intravascular hemolysis by C5b-C9 MAC

A

Paroxysmal nocturnal hemoglobinuria (PNH)

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14
Q

Immunohemolytic anemia is caused by Abs that bind RBCs causing premature destruction and is dx by direct Coombs anti-globulin test. What are the 3 classifications of immunohemolytic anemia?

A
  1. Warm Ab type = MOST COMMON; IgG, extravascular hemolysis, Abs to Rh
  2. Cold Agglutinin type = IgM Abs cause vascular obstruction in extremities with pallor/cyanosis/raynauds
  3. Cold hemolysin type = IgG Abs bind P blood group Ag in cool extremities, intravascular hemolysis
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15
Q

Primary vs. secondary causes of warm Ab type immunohemolytic anemia

A

Primary — idiopathic

Secondary — autoimmune (SLE), drugs (PCN, cephalosporins, quinidine), tolerance breaking drugs like alpha methyldopa, lymphoid neoplasms

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16
Q

Acute vs. chronic causes of cold agglutinin type immunohemolytic anemia

A

Acute — mycoplasma infection, infectious mono, CMV, influenza, HIV

Chronic — idiopathic, lymphoid neoplasms

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17
Q

Most common cause of microangiopathic hemolytic anemia

A

DIC

Also caused by TTP, HUS, malignant HTN, SLE, and disseminated cancer

18
Q

Etiology of pernicious anemia

A

Autoimmune gastritis (autoreactive T cells) that impairs production of IF from parietal cells of fundus

[often hx of autoimmune thyroiditis or adrenalitis]

19
Q

Atrophic glossitis, CNS involvement w/demyelination of dorsal and lateral spinal tracts, moderate to severe megaloblastic anemia, leukopenia w/hypersegmented granulocytes, elevated homocysteine and methylmalonic acid

A

Pernicious anemia

20
Q

Microcytic hypochromic anemia + esophageal webs + atrophic glossitis

A

Plummer vinson syndrome

21
Q

anemia associated with koilonychia, alopecia, atrophic glossitis, pica, low ferritin, low hepcidin, elevated TIBC

A

Iron deficiency anemia

22
Q

Lab findings with anemia of chronic disease (ferritin and TIBC)

A

High ferritin, reduced TIBC

23
Q

Chronic illnesses associated with anemia of chronic disease

A

Osteomyelitis, bacterial endocarditis, lung abscess

Rheumatoid arthritis, regional enteritis

Carcinomas of lung and breast, HL

24
Q

Systemic immune d/o characterized by purpuric rash, colicky abdominal pain, polyarthralgia, and acute glomerulonephritis

A

Henoch-Schonlein Purpura

25
Q

Autosomal dominant condition caused by mutations in genes that modulate TGF-beta signaling; characterized by dilated tortuous blood vessels w/thin walls that bleed readily. Usually manifests as epistaxis

A

Hereditary hemorrhagic teleangiectasia (Weber-Osler-Rendu)

26
Q

Autoantibody-mediated destruction of platelets (usually against IIb-IIIa or Ib-IX); may be primary/idiopathic or secondary (SLE, HIV, CLL); most commonly affecting adult women w/ bleeding into skin and mucosal surfaces; may present with excessive menstrual flow, PT and PTT usually normal

A

Chronic immune thrombocytopenic purpura

27
Q

Pathogenesis of HIV-associated thrombocytopenia

A

CD4 and CXCR4 are found on megakaryocytes, allowing them to be infected —> apoptosis

HIV-induced B cell hyperplasia —> autoantibody formation to GPIIb-IIIa complexes

28
Q

Pentad of fever, thrombocytopenia, microangiopathic hemolytic anemia, transient neuro defects, and renal failure

A

TTP

29
Q

TTP = inherited or acquired deficiency in plasma enzyme ____

A

ADAMSTS13 — normally degradees vWF multimers

30
Q

Typical vs. atypical HUS

A

Typical — E.coli O157:H7 w/ shiga-like toxin that activates platelets

Atypical — defects in complement factor H, membrane cofactor protein (CD46) or factor I —> excess complement activation

31
Q

Autosomal recessive deficiency of platelet membrane glycoprotein Ib-IX, causing variable often severe bleeding

A

Bernard-Soulier syndrome

32
Q

AR deficiency/dysfunction of GPIIb-IIIa —> platelets fail to aggregate —> severe bleeding

A

Glanzmann thrombasthenia

33
Q

Inheritance of von willebrand disease

A

Autosomal dominant (usually)

34
Q

X-linked recessive mutation in factor VIII —> easy bruising, massive hemorrhage after trauma or surgery, spontaneous hemarthrosis, prolonged PTT, normal PT

A

Hemophilia A

[note petechiae are characteristically absent]

35
Q

X-linked recessive mutations in factor IX

A

Hemophilia B

36
Q

Disease processes associated with DIC

A

Obstetric complications
Sepsis
Major trauma
Cancer — acute promyelocytic leukemia; adenocarcinomas

37
Q

Most common transfusion reaction

A

Febrile nonhemolytic reaction — presents w/ fever, chills, mild dyspnea; self-resolves

38
Q

Allergic transfusion reactions are most likely to occur in what pt population?

A

Those with IgA deficiency

39
Q

Severe, frequently fatal transfusion complication in which factors in transfused product (usually FFP or platelets) trigger activation of neutrophils in the lung microvasculature

A

TRALI

40
Q

What is the Hb threshold above which you do not transfuse?

A

Hb <7

[aka DON’T transfuse unless Hb is less than 7]

41
Q

If a pt presents with difficulty breathing and urticarial reaction following a transfusion, what type of transfusion did they most likely receive?

A

FFP

42
Q

If a pt presents with jaundice and hematuria after a transfusion, what type of transfusion did they most likely receive?

A

PRBCs