Hemolymphatics | Immunology | Coagulation

Question 1

What is the definition of a true autoimmune disease?

Answer 1

Loss of immune tolerance to your own tissues

Question 2

What are some immunoprotective properties of skin?

Answer 2

Sebum
Low pH
Secretion of enzymes
Periodic desquamation
Normal flora
Dendritic cells
Gamma-delta T cells

Question 3

What are the inflammatory mediators of the innate immune system?

Answer 3

Chemokines and cytokines

Question 4

Which pathway of the complement system involves the innate immune system?

Answer 4

Alternate pathway

Question 5

Fever is mediated by what pyrogenic cytokines?

Answer 5

IL-1
IL-6
TNF-alpha

Question 6

What is central tolerance and when is it acquired?

Answer 6

• Inability to pathologically respond to self
• Acquired during B and T cell ontogeny

Question 7

What is peripheral tolerance?

Answer 7

Inability of mature T and B cells to pathologically respond to self

Question 8

What is an alloantigen?

Answer 8

Tissue from genetically dissimilar individuals of the SAME species

Question 9

What is a xenoantigen?

Answer 9

Tissue from genetically dissimilar individuals of a DIFFERENT species

Question 10

What is an autoantigen?

Answer 10

A component of the host’s body that becomes antigenic

Question 11

What is a superantigen?

Answer 11

Bacterial or retrovial products that bind directly to MHC II outside the antigen binding groove

Question 12

Superantigens bind the T cell receptor outside the conventional binding site with specificity for what chain?

Answer 12

Beta chain

Question 13

What is an epitope?

Answer 13

The part of an antigen that is capable of inducing an immune response

Question 14

What is a hapten?

Answer 14

Small chemical groups that are generally not antigenic but can induce an immune response by binding to a larger protein molecule (carrier protein)

Question 15

What immunoglobulin is the major serum immunoglobulin?

Answer 15

IgG

Question 16

Where is IgG found?

Answer 16

Blood and ECF

Question 17

What are IgG’s two main functions?

Answer 17

Opsonization
Virus neutralization

Question 18

What is the first immunoglobulin produced during humoral responses?

Answer 18

IgM

Question 19

How many immunoglobulin units does IgM have? This translates to how many antigen binding sites?

Answer 19

Five - it’s a pentamer; the five Ig units are joined by a J chain

Translates to ten antigen binding sites

Question 20

IgM is INTRAVASCULAR or EXTRAVASCULAR only?

Answer 20

Intravascular - its size precludes it from leaving the bloodstream

Question 21

Elevated levels of IgM suggest what?

Answer 21

Recent infection or exposure

Question 22

What is the function of IgM?

Answer 22

Activates complement system (specifically classical pathway)

Question 23

Where is IgA produced?

Answer 23

Mucosal sites (respiratory and intestinal tracts)

Question 24

How many Ig chains does IgA have?

Answer 24

Two - it’s dimeric with a J chain

Question 25

Where in the body is IgD found?

Answer 25

Blood and lymph fluid

Question 26

On the surface of what cells is IgD predominantly found?

Answer 26

Immature B lymphocytes - functions as an antigen-specific binding site on these cells

Question 27

IgE is largely bound to surface receptors on what cells?

Answer 27

Mast cells and basophils

Question 28

IgE is found at HIGH/LOW levels in serum

Answer 28

Low

Question 29

What are IgE’s main functions?

Answer 29

Allergies
Protection against parasites

Question 30

Is antigen-antibody binding noncovalent or covalent?

Answer 30

Noncovalent. Still a strong bond b/c of hydrophobic bonding, hydrogen bonds, Van Der Waals forces, and ionic interactions

Question 31

What is the most abundant Ig in the body?

Answer 31

IgG - makes of 75% of all antibodies

Question 32

Which Ig is least abundant in the body?

Answer 32

IgD

Question 33

What is the largest Ig?

Answer 33

IgM - pentamer

Question 34

Which Ig are secretory (found on mucous membranes)?

Answer 34

IgA and IgM

Question 35

Which Ig can cross the placenta?

Answer 35

IgG

Question 36

J chains of Ig are needed for what?

Answer 36

Secretion

Question 37

Which Ig have J chains?

Answer 37

IgA and IgM

Question 38

What Igs are neutralizing Igs?

Answer 38

IgG 1-4 and IgA

Question 39

What are the three mechanisms of antibody action?

Answer 39

Neutralization (particularly effective with viruses)
Opsonization
Activation of complement system

Question 40

The Ab-Ag complex binds to what complement protein to start the complement cascade?

Answer 40

C1

Question 41

The classical complement pathway is triggered by what first step?

Answer 41

Antibody binding antigen which then binds C1 protein

Question 42

Is the alternative complement pathway part of the innate or adaptive immune system?

Answer 42

Innate - acts in the absence of Ig

Question 43

What is the common end product of the classical and alternative complement pathways?

Answer 43

C3b

Question 44

What does C3b initiate?

Answer 44

Terminal pathway

Question 45

What does the terminal pathway result in?

Answer 45

Formation of the membrane attack complex

Question 46

C3b can form an immune complex with what CD?

Answer 46

CD21

Question 47

T cells express

Answer 47

TCR and CD3

Question 48

B cells express

Answer 48

Surface membrane Ig and CD79

Question 49

Are NK cells found in the thymus?

Answer 49

No

Question 50

NK cells survey for cells with

Answer 50

Altered MHC I (aka stressed or damaged cells)

Question 51

Where do NK cells develop?

Answer 51

Bone marrow

Question 52

NK cells express what two key cell surface molecules?

Answer 52

CD16 and CD56

Question 53

Ab-ag complexes will bind which CD on NK cells to trigger cytotoxicity?

Answer 53

CD16

Question 54

NK cells kill via what two pathways?

Answer 54

Perforins/granulysin/NK-lysin
CD95L (also known as Fas ligand)

Question 55

Perforins/graulysin/NK-lysin are expressed constitutively in granules of NK cells but are upregulated by which two immunocytokines?

Answer 55

IL-2 and IL-12

Question 56

What two cytokines enhance cytotoxicity of NK cells?

Answer 56

IL-2 and IL-4

Question 57

What cytokine enhances survival of NK cells?

Answer 57

IL-3

Question 58

What cytokine promotes rapid differentiation of pre-NK cells and activates macrophages?

Answer 58

INF-gamma

Question 59

What are the primary cytokines of NK cells?

Answer 59

INF-gamma (type 2 interferon involved in cell-mediated immunity and Th1 T helper responses)

TNF-alpha

Question 60

What are the three types of antigen presenting cells?

Answer 60

Macrophages
Dendritic cells
B lymphocytes

Question 61

The term histiocytes refers to what two types of cells?

Answer 61

Dendritic cells and macrophages

Question 62

Macrophages express which MHC class?

Answer 62

BOTH - MHC I and II

Question 63

Ingestion of antigens by macrophages causes what effects?

Answer 63

Increased lysosomal and bactericidal activity

Upregulates inducible nitric oxide synthase gene which enhances release of NO

Question 64

Macrophages secrete what cytokine to activate naive T-cells (Th1)

Answer 64

IL-12

Question 65

What two compounds secreted by macrophages downregulate immune response?

Answer 65

IL-10 and TNF-beta

Question 66

From what bone marrow precursor are dendritic cells derived?

Answer 66

CD34 BM precursor

Question 67

Where are Langerhans cells located?

Answer 67

Epidermis

Question 68

How long do neutrophils circulate before entering tissues, and then how long do they survive?

Answer 68

~10 hours
Survive for a few days

Question 69

What are three categories of cell adhesion molecules?

Answer 69

Selectins
Integrins
Ig Superfamily Adhesion Molecules

Question 70

What is the function of selectins?

Answer 70

Function as lectins which bind CHO moieties expressed by endothelial cells or other WBCs —> helps WBC rolling along vascular endothelium

Question 71

What selectin is found on neutrophils?

Answer 71

L-selectin

Question 72

What selectins are found on the endothelium?

Answer 72

E-selectin and P-selectin

Question 73

What is the function of integrins?

Answer 73

Bind through protein-protein interactions to stop WBC rolling

Mediate aggregation and transendothelial migration

Question 74

What are some examples of integrins?

Answer 74

Very Late Antigen (VLA)
Leukocyte function-associated antigen (LFA)
MAC-1

Question 75

What is the function of Ig Superfamily Adhesion Molecules?

Answer 75

Stop WBC rolling

Mediate aggregation and transendothelial migration

Question 76

What are some examples of Ig Superfamily Adhesion Molecules?

Answer 76

Intercellular Adhesion Molecules (ICAM)
Vascular Cell Adhesion Molecules (VCAMs)
LFA-2
LFA-3

Question 77

What are the stages of WBC emigration during inflammation?

Answer 77

Activation
Margination of neutrophils
Rolling/sticking
Stopping/adhesion
Aggregation
Transmigration

Question 78

What molecules are involved in stopping/adhesion during WBC emigration?

Answer 78

VLA-4
ICAM
VCAM

Question 79

What molecules are involved in aggregation during WBC emigration?

Answer 79

MAC-1
LFA-1
P-selectin

Question 80

What molecules are involved in transmigration during WBC emigration?

Answer 80

ICAM
VCAM

Question 81

What happens during the margination step of WBC emigration?

Answer 81

Leukocytes move to periphery of vessels due to vasoconstriction and slowing of blood flow

Question 82

What cell adhesion molecules mediate the rolling phase of WBC emigration?

Answer 82

Selectins

Question 83

What compounds expressed on neutrophils are involved in firm adhesion/aggregation during WBC emigration?

Answer 83

CD11-CD18
VLA-4

Question 84

What happens during the transmigration/diapedesis step of WBC emigration?

Answer 84

Neutrophils extend a pseudopod between endothelial cells, digest a small portion of the basement membrane, and emigrate from the vasculature into tissues

Question 85

Neutrophils follow what to the site of infection? What factors are involved?

Answer 85

Chemotactic gradient

Chemotactic factors: C5a, C3b, fibrin, kinin

Question 86

What part of the endothelium helps initiate the migration of leukocytes into tissues?

Answer 86

P and E selectin

Question 87

What are two Opsonization that bind the Fc receptor?

Answer 87

IgG and C3b

Question 88

Via what two processes do neutrophils destroy ingested bacteria?

Answer 88

Respiratory burst
Release of lyric enzymes and anti microbial peptides

Question 89

Respiratory burst is O2 ____ and release of lyric enzymes/anti microbial peptides is ____.

Answer 89

Respiratory burst = oxygen dependent

Release of lyric enzymes/antimicrobial peptides = oxygen independent

Question 90

How does respiratory burst work?

Answer 90

NADPH oxidase enzyme complex results in formation of potent bactericidal oxidants (H2O2, hypochloride ions)

Question 91

What are differences between perforins and defensins?

Answer 91

Perforins:
-Released by granules of cytotoxic T cells and NK cells
-Form a hole in the target cell membrane that allows granzyme to enter and degrade the cell’s DNA, which results in apoptosis

Defensins:
-Act as direct chemoattractants for immature dendritic cells
-Some are opsonic
-They target any organism with a cholesterol-free negatively charged membrane (bacteria, fungi, many viruses)
-Can compromise 50% of protein in azurophil (primary) phagocytic granules
-Found within neutrophil granules and epithelial cells to assist in killing phagocytized bacteria

Question 92

Where are defensins found?

Answer 92

Primary granules of neutrophils and epithelial cells

Question 93

What are characteristics of defensins?

Answer 93

-Highly cytotoxic
-Arginine-rich cationic proteins
-Form voltage-gated ion channels in bacterial cell membranes resulting in increased permeability

Question 94

What are two examples of defensins?

Answer 94

Defensin-alpha (DEFA)
Defensin-beta (DEFB)

Question 95

Pathogen associated molecular patterns and damage associated molecular patterns are recognized by what receptors?

Answer 95

Pattern recognition receptors

Question 96

What portion of the cell wall is recognized by PRRS in Gram-positive bacteria?

Answer 96

Peptidoglycans

Question 97

What portion of the cell wall is recognized by PRRs in Gram-negative bacteria?

Answer 97

Lipopolysaccharide (LPS)

Question 98

What portion of the cell wall is recognized by PRRs in acid fast bacteria?

Answer 98

Glycolipids

Question 99

What portion of the cell wall is recognized by PRRs in yeast?

Answer 99

Mannan- or B-glucan rich cell wall

Question 100

What portion of the cell wall is recognized by PRRs in viruses?

Answer 100

Nucleic acids

Question 101

What is the most significant family of pattern recognition receptors?

Answer 101

Toll like receptors (TLRs)

Question 102

On what cells are TLRs found?

Answer 102

Sentinel cells of the innate immune system:
Macrophages
Neutrophils
Mast cells
Dendritic cells

T and B cells of the adaptive immune system

Non-immune cells (epithelial cells that line respiratory and GIT)

Question 103

What happens when toll like receptors are activated?

Answer 103

Turn on genes for production of pro inflammatory factors = INFLAMMATION

Question 104

Name the TLR that recognizes LPS? Flagellin? DsRNA? Where are they located in the cell (extra vs intracellular)

Answer 104

LPS - 4, Flagellin - 5, dsRNA - 3; TLR-4 and TLR 5 are cell surface, TLR-5 is intra-cellular (recognizes viruses)

Question 105

High mobility group box protein-1 binds which two TLRs?

Answer 105

TLR-2 and TLR-4

Question 106

What are the functions of TNF-A?

Answer 106

Adherence, migration, attraction and activation of leukocytes; causes heat/pain/swelling/redness

Question 107

Which interleukin increases hepcidin in the body? How does this impact blood levels in the body?

Answer 107

IL-6 (and IL-1); hepcidin inhibits Fe transport by binding to the iron export channel ferroportin which is located in the basolateral plasma membrane of gut enterocytes and the plasma membrane of reticuloendothelial cells; this will result in anemia of chronic inflammation

Question 108

Give the differences between initiation of the complement system in the classical, alternate, and lectin pathway?

Answer 108

Classical - antigen/antibody activates C1
Alternate - bacterial LPS/yeast has C3 undergo spontaneous hydrolysis and combine with Factor B
Leptin - mannose-binding leptin complex binds to mannose-containing carbohydrate on infectious agent

Question 109

The three complement pathways (classical, alternative, leptin) all end in activation of which complement molecule?

Answer 109

C3 convertase, which cleaves C3 > C3a and C3b

Question 110

Which two complements result in opsonization?

Answer 110

C3b and C4b

Question 111

Brittany Spaniels are associated with deficiency in which complement?

Answer 111

C3

Question 112

IFN-gamma is the primary activator of which white blood cell?

Answer 112

Macrophage

Question 113

CD45+CD3+CD8+ receptors are specific for which type of lymphocyte?

Answer 113

Cytotoxic T cell (CD45 -all leukocytes; CD3 - T cell; CD 8 - cytotoxic)

Question 114

IgA functions primarily where, and in what way?

Answer 114

Respiratory tract (also GI); neutralization of pathogens and/or products; particularly good against viruses

Question 115

Which interleukin is a hematopoietic growth factor and stimulates growth of neutrophils, eosinophils, and macrophages?

Answer 115

IL-3

Question 116

IL-10 promotes growth of what type of T cell?

Answer 116

Treg

Question 117

Difference between TNFa, TNFb, and TGFbeta?

Answer 117

alpha - pro-inflammatory; beta - anti-inflammatory; TGF-beta - immunosuppressant

Question 118

Th2 CD4 lymphocytes are known for what physiologic function?

Answer 118

Defense against helminths/parasites, allergic response; recruit IgE, mast cells, eosinophils

Question 119

Chronic asthma is an examine of what type of hypersensitivity reaction?

Answer 119

Type 4 (delayed)

Question 120

What is the mechanism of action of cyclosporine?

Answer 120

Calcineurin inhibitor = cannot phosphorylate NFAT > resulting in less IL-2 (and less IL-3, IL-4, TNFa)

Question 121

Why is azathioprine contraindicated in cats? What dog breed shouldn’t you use azathioprine in?

Answer 121

Cats lack thiopurine methyl-transferase (TMPT), which is the detoxification pathway. Giant schnauzer (same reason)

Question 122

Azathioprine and mycophenolate inhibit production of what aromatic compound? How do they work differently?

Answer 122

Purines; azathioprine is converted to 6-MP, purine analog that is taken up and thus inhibits S phase of DNA cycle | mycophenolate inhibits inosine monophosphate dehydrogenase, which is an enzyme needed for purine synthesis

Question 123

Which immunosuppressant specifically targets pyrimidine synthesis?

Answer 123

Leflunomide

Question 124

Most immune-mediated diseases are from dysregulation of which immune cell?

Answer 124

Th2 (Ettinger 8th ed, p 2046)

Question 125

Which antibody class is most commonly involved in canine IMHA?

Answer 125

IgG

Question 126

A young GSD presents for hemoabdomen following its spay. Coagulation testing is normal. If all surgical steps were followed correctly, what clotting disorder could still be a differential for this dog? What would be the best treatment for this dog?

Answer 126

Scott’s syndrome - platelet procoagulant disorder (platelets cannot externalize phosphatidylserine, which is needed for fibrin formation); give platelets

Question 127

Marked peripheral neutrophilia and hypersegmented neutrophils are consistent with what disease? What breed is known to develop this?

Answer 127

Leukocyte adhesion deficiency. European Irish Setter.

Question 128

Breeds associated with X-linked severe combined immunodeficiency? What IL receptor is deficient?

Answer 128

Cardigan Welsh Corgis and Basset Hounds; IL-2

Question 129

You see a Jack Russell Terrier puppy for fever following vaccination. There is severe lymphopenia and decreased serum globulin concentrations. This is consistent with what process?

Answer 129

Autosomal recessive severe combined immunodeficiency.

Question 130

What breed is associated with cyclic neutropenia?

Answer 130

Gray Collie (insertional mutation in the AP3B1 gene)

Question 131

Miniature Dachshunds with lymphocyte function deficits can get pneumonia from what organism? What lymphocyte do they tend to lack?

Answer 131

Pneumocystis carinii. Absent B cells.
Cavies have also been reported.

Question 132

Causes of secondary dysmyelopoiesis in dogs

Answer 132

IMT and IMHA, myelofibrosis, pure red cell aplasia, and lymphoma; drugs, including chemotherapeutic
agents, chloramphenicol, estrogens and phenobarbital; endogenous overproduction of estrogens; heavy metal
toxicoses; iron deficiency; adenocarcinoma; and leishmaniasis

Question 133

Causes of secondary dysmyelopoiesis in cats

Answer 133

immune-mediated hemolytic anemia and thrombocytopenia, pure
red cell aplasia, lymphoma, glomerulonephritis, feline infectious peritonitis, and feline immunodeficiency
virus (FIV) infection

Question 134

Neutropenia is seen in what percentage of cats presenting with FeLV-related illness?

Answer 134

50%

Question 135

Most common type of bacteria causing septic arthritis (aka Gram positive/negative; anaerobic/aerobic)

Answer 135

Gram positive aerobe

Question 136

Transient polyarthritis in kittens is associated with:

Answer 136

calicivirus

Question 137

Most common manifestation of systemic lupus erythematosus in dogs is

Answer 137

Polyarthropathy

Question 138

Most common manifestation of systemic lupus erythematosus in cats is

Answer 138

Dermatologic lesions (erythema, ulceration, crusts, and depigmentation of the face, ears, and paws) [CNS signs are more common in cats - 24%, than in dogs - 5% but is not the most common overall]

Question 139

Criteria for diagnosis of SLE?

Answer 139

Two autoimmunity disorders + positive ANA; or three autoimmunity disorders

Question 140

The ACVIM consensus statement on IMHA describes three infections that can cause Coomb’s positive anemia. What are those three?

Answer 140

Heartworm, Leishamiania, Bartonella

Question 141

The ACVIM consensus statement on IMHA describes three infections that can cause Coomb’s positive anemia in dogs. What are those three?

Answer 141

Heartworm, Leishamiania, Bartonella

Question 142

IMHA is more prevalent in which breeds?

Answer 142

Cocker and Springer Spaniels, Old English Sheepdogs, Bichon Frises, Bearded and Rough-coated Collies, Poodles, and Flat-coated Retrievers

Question 143

ACVIM recommendations for tapering prednisone/immunomodulatory drugs?

Answer 143

Taper pred by 25% q3w if single agent, taper pred by 25-33% q3w OR q2w if using second agent [for first taper: they say can drop pred by 25-50%]

Question 144

A dog on glucocorticoids should have UA checked how frequently accordingly to ACVIM consensus on IMHA tx?

Answer 144

Every 8-12w

Question 145

Bloodwork monitoring on azathioprine? (according to IMHA consensus)

Answer 145

CBCs and relevant serum biochemical variables (especially alanine aminotransferase [ALT] activity) be monitored every 2 weeks during the first 2 months of treatment, and then every 1-2 months until treatment is discontinued.

Question 146

Of the two blood groups Kai 1 and Kai 2, most dogs fall into which group?

Answer 146

Kai 1, 94% of dogs, JVIM 2016

Question 147

Dogs with severe pulmonary hypertension had higher values of what variable on a hemogram compared to normal dogs?

Answer 147

RDW (related to tricuspid regurgitation pressure gradient), JVIM 2016

Question 148

Which two gram negative bacteria are most likely to be involved as contaminants in blood bags?

Answer 148

Serratia and Pseudomonas, JVIM 2016

Question 149

Blood transfusions associated with what in cats receiving dialysis?

Answer 149

increased number of treatments (NOT death - this is only the case in dogs), JVIM 2016

Question 150

Significance of phosphatidylserine in RBC?

Answer 150

Normally on the inside, but moves to the outside in aged RBC and can be indicator for cell removal by phagocytic cells

Question 151

Three dog breeds associated with Dal-?

Answer 151

Dalmatians, Dobermans, Shih Tzus, JVIM 2017

Question 152

Of the following, decreases in which two were associated with well-controlled IMHA? Serum Thymidine Kinase 1, Canine-C-Reactive Protein, Haptoglobin, and Vitamin D Concentrations

Answer 152

TK-1 and c-CRP, JVIM 2017

Question 153

What is the biological half-life of cell-free DNA?

Answer 153

5.64 hours. JVIM 2018

Question 154

Congenital methemoglobinemia in Pomeranians can be caused by a variant in what gene?

Answer 154

nonsynonymous variant in the CYB5R3 gene. JVIM 2018

Question 155

A major crossmatch should ideally be performed in a transfusion naive cat. T/F?

Answer 155

False - no change in hemolytic reaction between those cross-matched or not cross-matched in transfusion naive cats. JVIM 2018

Question 156

Cyclosporine increases which eicosanoid involved in coagulation in normal dogs?

Answer 156

Thromboxane A2, JVIM 2018

Question 157

What were the characteristics of hemostasis in a study that induced experimental E. canis infection in dogs?

Answer 157

Hypercoagulable (increased MA) and hypofibrinolytic (lower Ly30 and Ly60), JVIM 2018

Question 158

Dogs with AKI have a phenotype similar to what type of hemostatic disease?

Answer 158

VWF type 2, JVIM 2019

Question 159

Indications for membrane-based TPE?

Answer 159

Immune-mediated disease, hyperviscosity syndrome, toxicity from highly protein bound substances

Question 160

What percentage of dogs had complications from TPE? What percentage died from complications?

Answer 160

34%, 2/34 died from complications, JVIM 2019

Question 161

Prolongation of which values resulted in correlation with therapeutic levels of factor 10a reached from rivaroxaban?

Answer 161

1.5-1.9x delay in PT and R values of TEG 3 hours after rivaroxaban administration, JVIM 2019

Question 162

What might be a good biomarker to differentiate survivors vs nonsurvivors in SIRS patients?

Answer 162

Angiopoetin-2, JVIM 2019

Question 163

A strong correlation between fibrinogen clauss and what value on rotational thromboelastometry?

Answer 163

Maximum clot firmness, JVIM 2019

Question 164

What ultrasonographic findings of the spleen were associated with malignant/suppurative inflammation on FNA?

Answer 164

nodules 1-2 cm, peritoneal fluid, >1 target lesions

Question 165

What percentage of non-ITP thrombocytopenic animals were positive for anti-platelet antibody?

Answer 165

20% JVIM 2020

Question 166

Dogs on prednisone (2 mg/kg/d) and clopidogrel were how many times more likely to have an excessive effect on platelet function?

Answer 166

11 times JVIM 2020

Question 167

Dilution at what ratio of saline to blood results in a specificity of 97% (and diagnostic accuracy of 95%) for saline agglutination suggestive of IMHA?

Answer 167

49 (saline) : 1 JVIM 2020

Question 168

How many dogs became neutropenic when administered vincristine in a study involving dogs with ITP?

Answer 168

19/127, JVIM 2021

Question 169

Which feline erythrocyte antigens are most prevalent? Which was associated with higher risk of naturally occurring auto-antibody?

Answer 169

1 (84%) and 5 (95%); 1 was associated; JVIM 2021

Question 170

Which breeds more frequently presented for nonregenerative immune mediated anemia?

Answer 170

Whippets, Miniature Dachshunds, Lurchers (JVIM 2021)

Question 171

MST for nonregenerative immune mediated anemia?

Answer 171

277d (JVIM 2021)

Question 172

What percentage of dogs with immune-mediated disease treated with membrane TPE survived to discharge?

Answer 172

82% (JVIM 2021)

Question 173

What percent of blood donor bags from Canada tested positive for blood-borne pathogen?

Answer 173

1.1%, JVIM 2021

Question 174

RBC IgG and phosphatidylserine is more likely to be expressed in IMHA dogs rather than non-IMHA. T/F?

Answer 174

True JVIM 2021

Question 175

3 breeds that represented 50% of primary splenic torsion

Answer 175

GSD, Bulldogs, Danes (JAVMA 2016)

Question 176

What breed had the highest risk of aortic thrombosis? What was the most common disease? How many had no underlying disease?

Answer 176

Shetland. Most common disease (in all dogs, not just Shelties) - PLN. 1/3 had no underlying disease (JAVMA 2017)

Question 177

What RBC abnormality was noted more frequently in dogs with lymphoma than IBD?

Answer 177

Eccentrocyte (JAVMA 2019)

Question 178

What other physical exam finding is noted in cats with osmotic fragility syndrome? (What breeds are generally affected?)

Answer 178

Splenomegaly (Abyssian, Somali, although this study found that DSH cats and other breeds can also present) - JFMS 2016

Question 179

What were most common signs of primary erythrocytosis?

Answer 179

Seizures and mentation changes (10/18 cats for each) - JFMS 2018

Question 180

What are expected changes can be seen with on a CBC post-splenectomy for at least up to 2w weeks following procedure?

Answer 180

Thrombocytosis. Also hypercoagulability (JAVMA 2019)

Question 181

What is the most common cytological diagnosis for a cat with a honey-comb like spleen? What was the prevalence of lymphoma?

Answer 181

Lymphoid hyperplasia (64%); 24% of cats with honeycomb pattern had lymphoma - JFMS 2020 (two different papers)

Question 182

Percentage of cats that developed transfusion-related reaction after receiving FFP?

Answer 182

14.8% (JFMS 2020)

Question 183

Allo-antigen on type A cats? B cats?

Answer 183

N-glycolyl-neuraminic acid - Type A
N- acetyl-neuraminic acid - Type B
AB has both

Question 184

Breeds of cats more known to have type B?

Answer 184

British Shorthair, Birman, Devon Rex

Question 185

Why is it recommended to cross-match all cats?

Answer 185

Due to presence of Mik antigen

Question 186

Feline type I hypersensitivity reactions tend to have clinical signs related to which body system?

Answer 186

Respiratory (upper resp edema, bronchoconstriction) - particularly of relevance in transfusions [but other signs are more likely to happen b/c transfusion reactions are not necessarily hypersensitivities]

Question 187

Virchow’s triad consists of what?

Answer 187

alterations in blood flow, endothelial damage, and the existence of hypercoagulable states

Question 188

What is advantage of tissue plasminogen activator compared to other thrombolytic agents (such as urokinase?)

Answer 188

More specifically targets FIBRIN-bound plasminogen as compared to free-circulated plasminogen

Question 189

Initial use of warfarin can actually result in a hypercoagulable state - why?

Answer 189

Faster drop in protein C levels initially

Question 190

What populations of dogs/cats are at high risk of thrombosis (according to CURATIVE)

Answer 190

High risk of thrombosis includes: dogs with IMHA or PLN or PLE or heartworm, cats with cardiomyopathy and associated risk factors, dogs or cats with more than 1 disease/risk factor for thrombosis [severe pancreatitis, steroid, HAC, cancer, liver dz, ]

Question 191

The importance of selectins in the endothelial glycocalyx? What are the two main ones? How are they different?

Answer 191

Allow for adhesion of WBC to endothelial cells (and platelets). P selectin and E selectin. E selectin ONLY on endothelial cells and is inducible. P selectin is on endothelial cells and platelets and is stored (aka readily available).

Question 192

Delayed hemolytic transfusion reaction occurs only in what scenario reported in dogs/cats?

Answer 192

None in dogs; xenotransfusion of canine blood to cats - 64% incidence

Question 193

Negative prognostic factors for IMHA in cats?

Answer 193

Age and TBili (JVIM 2016)

Question 194

Critically ill dogs seem to have significantly decreased respiratory burst capacity despite an increase in monocytes expressing which TLR receptor?

Answer 194

TLR 4 (JVIM 2018)

Question 195

Prednisone and cyclosporine affected IL-2 and what other cytokine?

Answer 195

IFN gamma. Azathioprine, mycophenolate, leflunomide did not have effects on IL-2 or IFN gamma. JVIM 2020

Question 196

What percentage of dogs on mycophenolate develop GI effects? What was overall incidence of adverse effects? Was this dose dependent?

Answer 196

24%, 26%, not dose dependent. JVIM 2021

Question 197

In a study of 13 dogs, what % had erosive IMPA? Where were these lesions? More common in what signalment?

Answer 197

16%; ALL carpal joints; more common in middle-aged small breed JAVMA 2016

Question 198

Increased/decreased cell-free DNA, increased/decreased mean platelet component, and progressively increasing/decreasing IL-17 was associated with death in IMHA.

Answer 198

Increased, decreased, progressively decreasing JVIM 2017, JAVMA 2018, JVIM 2020

Question 199

What is a characteristic finding in most (92%) of dogs with PIMA on bone marrow cytology (be specific)?

Answer 199

Rubricytophagocytosis (JAVMA 2019)

Question 200

The median time for PIMA dogs to go into remission (if they did) was how long?

Answer 200

29 days (About 1 month) JAVMA 2019

Question 201

Major difference between PIMA and non-regenerative IMHA on bone marrow cytologies in cats?

Answer 201

PIMA - erythroid hypoplasia or aplasia
nonregen IMHA - erythroid hyperplasia or maturation arrest (JFMS 2016)

Question 202

Cyclosporine is not recommended for cats with what diseases?

Answer 202

Probably any kind of infectious lol, But also FIV, FeLV, diabetic, past history of malignant neoplasia (JFMS 2017)

Question 203

Retrovirus infected cats had the same response to panleukopenia virus vaccine as did normal individuals. T/F?

Answer 203

True - JFMS 2019

Question 204

Signs and finding typical for pulmonary Langerhans cell histiocytosis in cats?

Answer 204

Mixed restrictive dyspnea, diffuse nodular pattern to lungs, histiocytic infiltration JFMS 2020

Question 205

E-cadherin biomarker staining on a histiocytic cells confirms that cell as what?

Answer 205

Langerhans cell

Question 206

Which two coagulation factors are released by DDAVP?

Answer 206

vWF and Factor 8c

Question 207

Function of IL-8? Who secretes them?

Answer 207

Pro-inflammatory. Attracts neutrophils and other granulocytes, induces angiogenesis, stimulates phagocytosis. Secreted by macrophages and epithelial cells.

Question 208

what is major acute phase protein in cats?

Answer 208

Serum amyloid A (JFMS 2017 looking at heartworms that noted increase in inflammation)

Question 209

Polycythemia vera (primary erythrocytosis) - treatment options?

Answer 209

Rpx phlebotomy
Chemo agents (e.g. hydroxyurea)
Hirudotherapy (medicinal use of
leeches)
Onion powder (induce hemolysis) - case report in a cat

Question 210

Polycythemia vera (primary erythrocytosis) - CSx and pathogenesis?

Answer 210

Cats: CSx common - congested MM, neuro signs. +/- GI signs.
Patho - as in humans, gain-of-function mutation in exon 12 of the JAK2 gene
leading to erythrocytosis only. But true underlying cause unknown.

Question 211

Define leukoreduction.

Answer 211

Methods of preserving blood to optimize its characteristics and limit degradation during storage are required. In particular, the metabolites of leukocytes such as cytokines, histamine, elastase, and acid phosphatase
seem fundamental to the development of storage lesions and post-transfusion reactions.
In humans, the leukoreduction of the human blood units reduces number of WBCs (about 1-5 x 10^6 per blood unit). The prestorage filtration, soon after the blood donation,
reduces the lesions of RBCs during the storage period by removing the leukocytes before their fragmentation and avoiding the accumulation of cytokines of leukocyte origin in stored blood and blood components.

Question 212

1) Why are RBCs susceptible to oxidative injury? Esp cats?
2) What mechanisms do RBCs have to prevent oxidative injury?
3) Clin path findings with RBC oxidative injury?

Answer 212

1) Risk factors for oxidative injury: ubiquity, proximity to oxygen, lack of
nuclear material, high iron content.
Cats - feline Hb contains 8 instead of 2 oxidizable sulfhydryl groups. Also feline spleen is inefficient at removing HB. So low numbers (<10%) single, small Heinz bodies may be seen on RBCs in healthy cats.

2) Most impt mechanism = glutathione pathway. Glutathione is a tripeptide produced from cysteine,
glycine & glutamate, and is primarily formed and stored by the liver,
but RBCs have intracellular glutathione as a major antioxidant
defense. Glutathione exerts its antioxidant effect through neutralizing ROS. Glutathione, in the presence of ROS is oxidized and the interaction of free radicals and enzymes like glutathione peroxidase form oxidized glutathione (GSSG). Oxidized glutathione can be recycled through the function of enzymes (eg, glutathione reductase) and cofactors (eg, vitamin C, vitamin E, and selenium), to be reduced to its original form (reduced glutathione, GSH).

3) Heinz bodies, eccentrocytes

Question 213

Heinz bodies
a) Formation process?
b) DDx in cats?
c) DDx in dogs?
d) Which stain to differentiate?

Answer 213

a) HBs are produced when the sulfhydryl groups in the globin part of the Hb molecule undergoes oxidation, causing the molecule to become unstable –> damaged Hb molecules coalesce. Usually removed from RBCs by the spleen.

b) DKA > DM, hepatic lipidosis, drugs (acetaminophen), hyperT (with/without anemia), lymphoma, renal failure, propylene glycol (semi-moist food - can see up to 50% HBl; usually not anemic but reduced RBC lifespan), salmon based diets.

c) Onions/garlic, Zn, paracetamol (< cats)

d) New methylene blue (HB stain dark blue, RBC pale aqua)

Question 214

Cat RBCs. Abnormality?

Answer 214

Heinz bodies

Question 215

Lifespan of RBCs in dogs vs cats?

Answer 215

D: 110-120 days
C: 65-76 days

Question 216

Name 2 congenital platelet disorders in dogs.

Answer 216

1) Platelet storage pool disease (impaired adenosine diphosphate (ADP) storage in the dense granules of platelets)

2) Glanzmann’s thrombasthenia (impaired expression of platelet integrin αIIbβ3)

Question 217

What is the pathogenesis of Glanzmann’s thrombasthenia?

Answer 217

Autosomal recessive congenital platelet disorder caused by qualitative or quantitative defects of platelet GPIIb–IIIa complex (aka fibrinogen receptor), due to mutations within the gene encoding GPIIb.
Leads to impaired platelet aggregation, platelets cannot bind fibrinogen and mediate clot retraction.

Question 218

Clinical manifestations of Glanzmann’s thrombasthenia & findings on platelet function testing?

Answer 218

Bleeding diathesis; intermittent hematoma formation and/or petechiae hemorrhage, onset of signs from young.
Whole blood platelet aggregometry - significant impairment in platelet aggregation in response to ADP and AA.

Question 219

Dog & cat breeds affected by Glanzmann’s thrombasthenia?

Answer 219

All cases reported involve mutations in gene encoding GPIIb.

Dogs:
- Otterhounds - single nucleotide change in exon 12 –> substitution of a histidine for aspartic acid within the 3rd calcium-binding domain of GPIIb.
- Great Pyrenees (Type 1 GT - severe quantitative decrease in GPIIb–IIIa). 14-base-pair repeat in exon 13 –> frameshift –> premature stop codon
- Mixed breed dogs (case report Haysom JVIM 2016) - SNP in exon 13 –> premature stop codon at codon for arginine.

Cat: case report (non-pedigree) Li JVIM 2020.
ITGA2B gene –> frameshift –> impaired expression of platelet integrin αIIbβ3.

Question 220

Incidence of transfusion reactions in dogs?
Most common type of transfusion reaction?

Answer 220

3-28%.
Febrile non-hemolytic reaction.

Question 221

Describe major vs minor cross-matching.

Answer 221

Major CM – detects recipient antibodies against donor RBC antigens.
Minor CM test – detects antibodies in the donor serum against recipient RBC antigens.
Presence of agglutination or haemolysis indicates incompatibility.

Question 222

Role of protein C?

Consequences of protein C deficiency?

Answer 222

Circulating, vitamin K-dependent protease produced by the liver. Activated form has a role in regulating coagulation - acts as an anticoagulant by inactivating factors Va & VIIIa –> regulates subsequent thrombin generation.

Venous thrombosis (case report in dog)

Question 223

Which other novel erythrocyte antigens have been identified in cats outside of the AB system? What is the prevalence of these antigens (if known)?

What is the clinical significance of knowing antigen status in cats receiving blood transfusions?

Answer 223

Binvel JVIM 2020

Mik
FEA 1 - 84%
FEA 5 - 96%
And 3 other FEAs (2-4)

FEA 1-negative status was associated with a higher risk of having naturally occurring alloantibodies (NOAb) - present in 16.7% cats (vs 5.1% of FEA 1-positive cats).

FEA 1 may correspond to the Mik antigen. Some FEA 1 or Mik-negative cats may present anti-Mik or anti-FEA 1 NOAb - may mediate a clinically relevant transfusion reaction despite blood donor and recipient being AB-matched.

Question 224

Platelet P2Y12 receptor:
- Roles?
- Which drugs target this?

Answer 224

Crucial role in ADP-mediated generation of thromboxane A2 (another impt platelet activator). Inititates signaling events that potentiate agonist-induced dense granule release and procoagulant activity.

Drugs - clopidogrel, prasugrel, cangrelor, ticagrelor

Question 225

Platelet 𝛼IIb𝛽3 receptor
- Roles?
- Which drugs target this?

Answer 225

Integrin receptor. Binds soluble fibrinogen, vWF, fibronectin, and vitronectin&raquo_space; essential for platelet aggregation.

Drugs - abciximab, tirofiban, eptifibatide

Question 226

Aspirin
- MOA?
- Duration of effects?

Answer 226

Irreversibly inhibits COX-1 activity in platelets&raquo_space; prevents production of thromboxane (TXA) A2 & PG

~7-10 days (lifespan of platelets)

Question 227

Where is vWF produced & stored?
Differences in amts between dogs & cats?
Physiologic/pathologic factors influencing vWF fluctuations/

Answer 227

VWF - produced by endothelial cells & megakaryocytes, stored in platelet alpha granules & endothelial cells (Weibel-Palade bodies)
(NB FVIII produced by hepatocytes)

Dogs have much less vWF in platelets (3%) cf cats (20%)

Fluctuations - day-to-day fluctuations in healthy dogs. Exaggerated with pregnancy, heat (bitches), systemic illness (esp liver disease, inflammatory disorders). Measure ideally during physiologically ‘quiet’ times.

Question 228

Types of vWD, pathogenesis & predisposed breeds?

Answer 228

Type I vWD: normal vWD but low concentration. Many breeds - Airedale, Akita, Bernese Mountain Dog, Dachshund, Dobermans, GSDs, GRs, Greyhound, Irish Wolfhound, Manchester Terrier, Schnauzer, Pembroke Welsh Corgi, Poodle, Shetland Sheepdog etc.
Clinical severity variable depending on vWF: Ag & breed. Airedales rarely bleed, Dobers tend to bleed.

Type II vWD: low vWF concentration + abnormal structure. Severe clinical presentation. German Shorthaired Pointer, German Wirehaired Pointer.

Type III vWD: vWF markedly reduced to absent. Severe clinical presentation.
Familial: Chesapeake Bay Retriever, Dutch Kooiker, Scottish Terrier, Shetland Sheepdog.
Sporadic: Blue Heeler, Border Collie, Bull Terrier, Cocker Spaniel, Labrador Retriever, mixed breeds, Pomeranian etc.

Question 229

Describe what information can be obtained from the labelled parameters on the TEG tracing in the diagram. What associations do these parameters have to standard coagulation assays?

Answer 229

R (reaction time) = time to initial fibrin formation
- Primarily affected by coagulation factor activity (direct correlation with PT +/- aPTT)

K (clotting time) = time needed to reach a predetermined clot strength
- K dependent on coagulation factor activity + [fibrinogen] + platelets.

Angle (α) = rate of clot formation

Maximum clot strength (MA) = maximum amplitude of tracing (in mm).
- MA can be converted to G = clot strength in units of force (dynes/cm2).
- MA determined primarily by platelet number/function + [fibrinogen].

Question 230

What is the function of P-selectin wrt platelets?

Answer 230

P-selectin = cell adhesion molecule/protein produced by activated platelets & endothelial cells. Mediates rolling of platelets & WBCs on activated endothelial cells. After platelet activation, P-selectin is translocated from intracellular granules to the external membrane. Fibrinogen then aggregates platelets by bridging glycoprotein (GP) IIb/IIIa between adjacent platelets.

Question 231

What is the function of P-selectin wrt platelets?

Answer 231

P-selectin = cell adhesion molecule/protein produced by activated platelets & endothelial cells. Mediates rolling of platelets & WBCs on activated endothelial cells. After platelet activation, P-selectin is translocated from intracellular granules to the external membrane. Fibrinogen then aggregates platelets by bridging glycoprotein (GP) IIb/IIIa between adjacent platelets.

Question 232

What is ADAMTS13?
Deficiency results in what condition?

Answer 232

Zinc-containing metalloprotease enzyme that cleaves vWf anchored on the endothelial surface, in circulation & at sites of vascular injury.

Deficiency (either autoantibody-mediated destruction or gene mutation) leads to thrombotic thrombocytopenic purpura (TTP).

Question 233

Which coagulation factors are stable vs labile in transfusion products?

Answer 233

Stable: II, VII, IX, X
Labile: V, VIII

Question 234

Which dot plot(s) is/are normal vs abnormal? Explain why.

Answer 234

(A) is a normal dot plot with distinct separation of cell clusters of all five cell types. Identification of each cell (dot) is indicated by the color code at the bottom (neutrophils, lymphocytes, monocytes, eosinophils, and basophils, respectively). URBC is un-lysed RBC.

**Distinct lines drawn through the middle of a cell cluster is an indication the instrument classified cells incorrectly. A cell cluster should have one cell type and one color. Dividing a cell cluster into two or more colors indicates that cluster of one cell type was classified as more than one type. **

(B) is an abnormal ProCyte dot plot. There is a long oval cluster of cells extending up from the normal neutrophil area, to the right of the true, small cluster of blue lymphocytes and continuing up into the area to the lower right of the true red monocytes. This long oval cluster of neutrophils was classified as neutrophils (violet: lowest part) lymphocytes (blue: middle part) and monocytes (red: upper part).
The blood smear had toxic immature neutrophils which appeared to have increased fluorescence.

** (C) is an abnormal ProCyte dot plot **in which the oval cluster of cells to the far right was actually all eosinophils but about half (lower part with light blue dots) were incorrectly classified as basophils by ProCyte. The sharp line bisecting the distinct cell cluster predicts the instrument error. There was satisfactory separation of neutrophil, lymphocyte, and monocytes clusters.

Question 235

Role of vitamin K in hemostasis?

Answer 235

Co-factor for enzyme γ-glutamyl carboxylase, which modifies FII, VII, IX & X&raquo_space; allows binding to Ca2+, then to phospholipid membranes on platelets.
Also needed for activation of anti-clotting factors proteins C, S & Z.
- Protein C inhibits FVIIIa & Va, inhibiting thrombin generationl; protein S = cofactor
- Protein Z inhibits FXa

Question 236

Inherited disorders in Vitamin K-dependent enzymes has been reported in what cat breed? Pathogenesis? Clinical manifestations?

Answer 236

Devon Rex.

Pathogenesis: abnormal gamma-glutamyl carboxylase (carboxylase-epoxidase) enzyme, required for activation of vitamin K-dependent factors with vitamin K hydroquinone as a cofactor. Enzyme has abnormally decreased affinity for both vit K hydroquinone & inactive CFs&raquo_space; decreased affinity can be overcome with vitamin K supplementation.

CSx: hematomas, conjunctival hemorrhage, hemarthrosis, massive bleeding into body cavities.
Prolonged PT & aPTT; normal fibrinogen & platelet counts. Reduced activities of CFs (II, IX, X <20% activity, VII <50% activity)

Question 237

What BM & hemogram changes can be observed with estrogen toxicity?

Answer 237

Early - myeloid hyperplasia (increased M:E ratio) + peripheral neutrophilia
Also increased BM plasma cells (3%+), aplastic anemia

Question 238

What cut-off % of non-lymphoid blast populations in BM or blood is used to diagnose acute myeloid leukemia?

Answer 238

> 20% blasts
(Chronic ML - marked peripoheral left shift)

Question 239

What populations of cats are most commonly diagnosed with MDS?

Answer 239

FeLV and/or FIV+

Question 240

What are the normal values in cat/dog BM for the following:
- Plasma cells
- Lymphocytes
- Mononuclear phagocytes
- Granulocytes
- M: E ratio?

Answer 240

• Plasma cells </= 2%
• Lymphocytes <10% (up to 14% in healthy dogs, 20% in cats)
• Mononuclear phagocytes </= 2%
• Granulocytes (myeloblasts, promyelocytes) </= 5%
• M: E ratio - dogs 0.75-2.5, cats 1-3

Question 241

What hemostatic abnormalities are common in cats with liver disease (cholangitis, HL or neoplasia)?

What is the % of bleeding complications in cats undergoing liver bx? Which cats are most at risk?

Answer 241

• Vit K def (prolonged PT, decr FII, VII, X activities, increased PIVKA)
• FXIII deficiency (impt in final stabilization of fibrin clot)
• Decr anti-coagulants (AT, PC)
• Fibrinogen variable (incr with inflammatory dz, decr with lipidosis)

Minor bleeding 22% (Hct drop <10%), 13% needed major tx.
Cats with obstructive jaundice most at risk for transfusion dependency (though uncommonly have prolonged PT/APTT)

Question 242

What are systemic complications of hyperviscosity syndrome?

Answer 242

Common - hemostatic disorders (coating of platelets with Ig etc.) –> petechiae, epistaxis & mucosal hemorrhage
Ocular changes - visual abnormalities
Neuro signs (e.g. seizures), renal failure, CHF

Question 243

What immunohistochemical stain is useful to diagnose lymphangiosarcoma in dogs?

Answer 243

Prospero-related homeobox gene 1 (PROX-1). Marker specific to lymphatic endothelial cells.

Question 244

Increased levels of what amino acid may lead to thrombosis? What does this reflect?

Answer 244

Homocysteine. HyperHCY reflects B12 or folate deficiency
(observed in 100% healthy Greyhounds, 75% Greyhounds with thrombosis in 1 paper)

Question 245

Which clotting factors does heparin inactivate? What does it activate?

Answer 245

At low + high doses - inhibits Xa
At high doses - inhibits FIIa, IXa, XIa, XIIa, XIIIa (fibrin-stabilising), FVa, FVIIIa
Activates tPA (fibrinolytic) & release of tissue factor inhibitors

Question 246

DDx for reticulocytosis without anaemia?

Answer 246

• Drive for erythropoiesis - pulmonary disease most common, CVS disease, renal hypoxia (renal/extra-renal causes)
• Inappropriate EPO release (renal or hepatic tumors)
• Ni convincing evidence of iron deficiency associated with blood loss
• Compensated haemolytic anaemia

Question 247

What causes increase in erythropoietin?

Answer 247

Renal cortical hypoxia

Question 248

Reticulocytosis should occur after what amount of time?

Answer 248

2-5 (or 7 depending on what chapter of Ettinger you read…) days

Question 249

Patients on cytotoxic drugs should generally have a CBC rechecked within _ to _ days.

Answer 249

7-21 days

Question 250

Causes of Heinz body anemia?

Answer 250

Onion, zinc, acetaminophen, methylene blue toxicosis

Question 251

Collapse following exercise with evidence of hemolysis in English Springer Spaniel is consistent with what disease? What other breed can have this?

Answer 251

PFK deficiency. American cocker spaniels

Question 252

Breeds affected by pyruvate kinase deficiency? Signs are a result of what pathophysiologic process?

Answer 252

Beagle, Basenji, West Highland White Terrier, Cairn Terrier, American Eskimo Dog, Dachshund, Pug(Pug is included as breed per UCD); signs due to myelofibrosis and hemolytic anemia

Question 253

What happens to ferritin and transferrin in inflammation? What is transferrin indicated as an iron panel?

Answer 253

Ferritin goes up (positive acute phase), transferrin goes down; transferrin listed as TIBC

Question 254

Which anti-epileptic agent can cause dysmyelopoeisis?

Answer 254

Phenobarbital

Question 255

Difference between epoetin and darbopoetin?

Answer 255

Darbopoetin is more heavily glycosylated, which poses less risk of developing anti-EPO antibodies

Question 256

Other side effects of EPO agents besides development of antibodies

Answer 256

Hyperviscosity (hypertension, seizures); Fe deficiency; for epoetin > fever, injection site irritation, mucocutaneous ulceration

Question 257

Causes for secondary inappropriate polycythemia?

Answer 257

EPO producing tumor, pyelonephritis, local renal hypoxia, hyperthyroidism, hyperadrenocorticism, acromegaly

Question 258

EPO production in primary polycythemia is

Answer 258

Low to normal

Question 259

Low antithrombin III can be secondary to:

Answer 259

Reduced hepatic production, consumption, renal or enteric loss

Question 260

What are the laboratory markers of DIC? (There are seven)

Answer 260

Thrombocytopenia, prolonged clotting times, elevated FDP, elevated D-Dimer, decreased fibrinogen, decreased anti-thrombin, red blood cell fragmentation

Question 261

Stored plasma is appropriate to administer to a patient with anticoagulant rodenticide intoxication. T/F?

Answer 261

True - stored plasma does not have factors 5/8 but does have the others

Question 262

What does cryo-poor plasma not contain?

Answer 262

Cryo-poor plasma doesn’t contain factor 5, factor 8, vWF, fibrinogen, fibronectin (aka what cryoprecipitate contains)

Question 263

Factor 13 deficiency will result in what change to PT/PTT/ACT?

Answer 263

None

Question 264

Canine breeds associated with Factor 7 deficiency

Answer 264

colony-bred mongrels, Beagles, Miniature Schnauzers, Alaskan Malamutes, Boxers, and Bulldogs (eClinPath)

Question 265

Feline breeds associated with Hemophilia B (which factor is this?)

Answer 265

British Shorthair cats and Siamese-cross cats (Factor 9).

Question 266

Breeds associated with Factor 11 deficiency(hemophilia C)

Answer 266

Springer Spaniel, Great Pyrenees, Weimaraner, and Kerry Blue terrier breeds.

Question 267

Differentiate the three types of vWD

Answer 267

Type 1 - low plasma concentration, full array of vWF multimers, mild to moderate bleeding
Type 2 - variable concentration, absence high molecular weight multimers, moderate to severe bleeding
Type 3 - no vWF, severe bleeding tendency

Question 268

Breeds associated with vWD (for which there is DNA testing)

Answer 268

Type 1 - Bernese Mountain Dog, Corgi (Cardigan and Pembroke Welsh), Coton de Tulear, Doberman
Pinscher, Dutch Partridge dog, German Pinscher, Goldendoodle, Irish Setter, Kerry Blue Terrier, Manchester Terrier, Papillon, Poodle, Stabyhoun, West Highland Terrier

Type 2 - German Shorthaired Pointer, German Wirehaired Pointer

Type 3 -
Dutch Kooiker,* Scottish Terrier,** Shetland Sheepdog*** [different DNA mutations in all of these]

Question 269

What is Glanzman thrombasthenia and how is it different from CalDAG-GEFI
thrombopathia? Breeds?

Answer 269

Both involve fibrinogen receptor, GPIIb-IIIa (this allow platelet activation/connection to vWF and fibrinogen); In Glanzmans’s this is absent or deficient - Otterhounds, Great Pyrenees; in CalDAG this a signal transduction disorder that prevents conformation change that allows binding - BASSETS, Spitz Landseer

Question 270

Ideal PK properties of drugs suitable for clearance by hemodialysis? Examples?

Answer 270

Low molecular weight
Low Vd (<1L/kg)
Low plasma protein binding
E.g. Baclofen

Question 271

Types of TPE?

Answer 271

1) Membrane based TPE - apheresis based on molecular size

2) Centrifugal TPE - apheresis based on molecular density. Adv - possible for other apheresis techniques e.g. RBC, WBC, platelets. Disadv - require specific machines, only available in few specialized institutions.

Question 272

Hemoperfusion (HP) - definition, indications? complications?

Answer 272

Def: direct molecular adsorption by activated charcoal, and can remove any drug or toxin with affinity to charcoal, independent of molecular weight and plasma protein binding, until saturation of the filter is reached.

Common complications: thrombocytopenia, leukopenia, hypocalcemia, hypoglycemia, hypothermia. Mostly eliminated by HP & haemodialysis (HP/HD) - combo therapy where blood is first filtered with HP and then processed through an HD filter before returning to the patient.

Question 273

TPE indications?

Answer 273

IMD
Hyperviscosity syndrome
Highly protein-bound toxins

Question 274

Anti-coagulation during TPE - methods & indications?

Answer 274

Systemic heparinization (SH) - contraindicated in hemostatic disorders (IMTP, DIC, pulmonary hemorrhage, CNS bleeding).
Regional citrate anticoagulation (RCA) - citrate-Ca complexes accumulate when administration rate > hepatic metabolism –> ionized hypoCa, metabolic alkalosis. Contraindicated for mTPE (humans). Low admin rate with hemostatic disorders (when cannot use SH).