Clinical pathology AI

Question 1

What are the disadvantages of using in-house analyzers in laboratory testing?

Answer 1

The disadvantages of using in-house analyzers in laboratory testing include poor Quality Control/Quality Assurance, longer time to detect analytical errors, and the absence of regulations regarding POCT QA/QC.

Question 2

What are the advantages of using external or reference laboratories in laboratory testing?

Answer 2

The advantages of using external or reference laboratories include tight QA/QC controls, a wider range of available tests, qualified interpretation and discussion of cases, and established reference ranges for the laboratory.

Question 3

What are some biological factors that can influence laboratory test results?

Answer 3

Some biological factors that can influence laboratory test results include species, breed, age, gender/reproductive state, fasting/non-fasting status, stress/excitement, exercise, and drugs.

Question 4

What are some non-biological factors that can affect laboratory test results?

Answer 4

Some non-biological factors that can affect laboratory test results include clots in the sample, haemolysis, lipaemia, and icterus of the sample.

Question 5

What is haemolysis and what can cause it in laboratory samples?

Answer 5

Haemolysis is the red discoloration of serum/plasma caused by the leakage of hemoglobin from damaged red blood cells. It can be caused by intravascular haemolysis or in vitro factors such as the use of fine gauge needles, excessive suction, or failure to separate serum/plasma.

Question 6

What is lipaemia and what can cause it in laboratory samples?

Answer 6

Lipaemia is the milky opacification of serum caused by increased lipids, mainly triglycerides, in the sample. It can be caused by post prandial factors or pathological conditions such as hypothyroidism, diabetes mellitus, hyperadrenocorticism, or pancreatitis.

Question 7

What are the renal parameters used to assess kidney function?

Answer 7

Urea, creatinine, and urinalysis (USG and UPC).

Question 8

Which parameter is used to evaluate kidney function specifically in cats?

Answer 8

SDMA (Symmetric Dimethylarginine).

Question 9

Name the liver enzymes commonly measured in a liver function test.

Answer 9

ALT (Alanine Aminotransferase), AST (Aspartate Aminotransferase), ALP (Alkaline Phosphatase), and GGT (Gamma-Glutamyltransferase).

Question 10

Which compound is measured to assess liver function related to bile flow?

Answer 10

Bilirubin, specifically Total Bilirubin.

Question 11

What enzymes are measured to evaluate pancreatic function?

Answer 11

Amylase and Lipase.

Question 12

What pancreatic test is used to assess exocrine function in dogs?

Answer 12

TLI (Trypsin-Like Immunoreactivity).

Question 13

What pancreatic test is used to assess exocrine function in cats?

Answer 13

PLI (Pancreatic Lipase Immunoreactivity).

Question 14

What parameters are measured to assess glucose metabolism?

Answer 14

Glucose and Fructosamine.

Question 15

What parameters are measured to assess lipid metabolism?

Answer 15

Cholesterol and Triglycerides.

Question 16

What are the muscle enzymes measured in the case of muscle damage?

Answer 16

CK (Creatine Kinase), AST (Aspartate Aminotransferase), and ALT (Alanine Aminotransferase) (only with marked damage).

Question 17

Why should a patient be starved for 12 hours before collecting samples to prevent lipaemia?

Answer 17

To prevent lipaemia, and when possible, the patient should be starved for 12 hours before collecting the samples.

Question 18

What causes the yellow/orange coloration of serum known as icterus?

Answer 18

The yellow/orange coloration of serum known as icterus is caused by the presence of increased bilirubin in the serum.

Question 19

When can icterus be clinically appreciated in the sclera and skin?

Answer 19

Jaundice detection is usually only apparent in the sclera with TBIL > 25umol/l and in the skin with TBIL > 45 umol/L.

Question 20

What factors should be considered when looking at a result?

Answer 20

When looking at a result, factors that should be considered include: Was the technique/analyser working correctly? Was the test done properly and with the right sample? Were there any potential sources of error? Is this result normal, or abnormal? And specifically, for this animal/patient?

Question 21

How can pattern recognition be useful in interpreting biochemistry results?

Answer 21

Pattern recognition can give a systematic and thorough approach to interpretation of biochemistry results, especially in complicated cases.

Question 22

What are the potential drawbacks of pattern recognition?

Answer 22

The potential drawbacks of pattern recognition include: lack of experience with the particular disease/pattern, only considering limited list of differentials, limited information, performing pattern recognition subconsciously without critical analysis.

Question 23

What is organ profiling and how can it assist in interpreting biochemistry results?

Answer 23

Organ profiling is the use of pattern recognition to assist in recognizing patterns in biochemistry results, rather than focusing on individual tests/markers.

Question 24

How should biochemistry tests be grouped?

Answer 24

One way to group biochemistry tests is as follows: Electrolytes - Na, K and Cl; Minerals - Calcium, Phosphate and Magnesium; Proteins - Total proteins, Albumin, Globulins and A/G ratio.

Question 25

What are the learning objectives of this course module?

Answer 25

The learning objectives are to identify factors that may affect the results of laboratory tests, explain the advantages and disadvantages of in-house and external laboratory testing, understand the rationale behind selection of appropriate tests, identify biological and non-biological factors that can affect test results, and explain the benefits and drawbacks of pattern recognition.

Question 26

What is the purpose of laboratory tests in veterinary medicine?

Answer 26

Laboratory tests are used to diagnose disease, monitor disease progression or response to therapy, and screen apparently healthy animals.

Question 27

What factors can affect laboratory test results?

Answer 27

Factors that can affect laboratory test results include pre-analytical factors, analytical factors, and post-analytical factors.

Question 28

What are pre-analytical factors and how do they affect test results?

Answer 28

Pre-analytical factors are associated with the patient, sample collection, handling, and quality. They can affect the quality of the sample and therefore the results. It is important to prevent or take into account these factors when interpreting the results.

Question 29

What are the advantages of in-house haematology and biochemistry analysers?

Answer 29

The advantages of in-house analysers include fast turn-around time for patients, smaller volume of samples required, availability for out-of-hours testing, and availability everywhere.

Question 30

What are the disadvantages of in-house haematology and biochemistry analysers?

Answer 30

The principal disadvantages are the requirement for a steady throughput of samples to justify initial outlay and wastage of materials/reagents, and the need for a cost/benefit analysis of the number of samples being run.

Question 31

What is pattern recognition in laboratory testing?

Answer 31

Pattern recognition refers to recognizing patterns of results associated with certain pathologies. It can aid in the interpretation of laboratory test results.

Question 32

What are the characteristics of the cytoplasm of band neutrophils compared to segmented neutrophils?

Answer 32

The cytoplasm of band neutrophils may be more diffusely basophilic when compared to that of segmented neutrophils.

Question 33

How can nuclear chromatin help differentiate between segmented and band neutrophils?

Answer 33

A segmented neutrophil will have dense nuclear chromatin, while a band neutrophil will have a lighter nucleus with less dense chromatin.

Question 34

What is a regenerative left shift and what does it indicate?

Answer 34

A regenerative left shift is an absolute increase in neutrophil numbers with immature cells in the circulation. It indicates an adequate response.

Question 35

What is a degenerative left shift and what does it indicate?

Answer 35

A degenerative left shift occurs when the bone marrow is unable to maintain an adequate response. It is characterized by the release of increasingly immature bands and metamyelocytes. The total neutrophil count is reduced or normal, with low numbers of mature neutrophils.

Question 36

What is a leukemoid reaction and what are its characteristics?

Answer 36

A leukemoid reaction is marked leucocytosis, usually neutrophilia and monocytosis, that mimics neoplasia (leukemia). It is associated with a wide spectrum of infectious, immune-mediated, inflammatory, and paraneoplastic processes. It is usually accompanied by a left shift and toxic changes. In eosinophils, it can be seen in hypereosinophilic syndromes.

Question 37

What are the toxic changes observed in neutrophils during overwhelming demand?

Answer 37

Toxic changes in neutrophils during overwhelming demand include cytoplasmic basophilia, Dohle bodies, cytoplasmic vacuolation, persistent primary granules (toxic granulation), ring form nuclei, and giant forms.

Question 38

What are the possible causes of neutrophilia?

Answer 38

Neutrophilia can be caused by increased production due to increased demand (infections, immune-mediated diseases, neoplasia, haemolysis, etc.), increased production independent of demand (neoplastic transformation), redistribution (stress/excitement), or may be accompanied by or without lymphocytosis.

Question 39

What are the potential causes of neutropenia and how can it be approached?

Answer 39

Neutropenia can result from failure of bone marrow production or excessive neutrophil consumption. It can be associated with overwhelming demand, reduced or ineffective granulopoiesis, bone marrow disease, cytotoxic drug therapy, idiosyncratic drug reactions, immune-mediated destruction, cyclic neutropenia, and cobalamin deficiency. The approach to a neutropenic patient depends on the degree of neutropenia and persistence.

Question 40

What are some factors that may adversely affect the quality of CBC data?

Answer 40

Some factors that may adversely affect the quality of CBC data are clots, platelet clumps, macroplatelets, agglutination of RBC, Heinz bodies and nRBC, and lipemia.

Question 41

According to ASVCP, when should a blood smear be examined?

Answer 41

According to ASVCP, a blood smear should be examined when reviewing all critically ill patients and when CBCs with unusual or suspicious results are presented.

Question 42

What is the recommended stepwise approach for examining a blood smear?

Answer 42

The recommended stepwise approach for examining a blood smear includes starting small, going deeper, going bigger, and finishing to the side.

Question 43

How is the platelet count estimated from a blood smear?

Answer 43

The platelet count can be estimated from a blood smear by examining the smear for evidence of platelet clumping and counting the numbers of platelets in 10 consecutive fields under oil immersion.

Question 44

What are some RBC morphologies to look out for?

Answer 44

Some RBC morphologies to look out for include rouleaux, agglutination, macrocytosis, microcytosis, polychromasia, hypochromasia, anisocytosis, crenated RBCs, acanthocytes, schistocytes, keratocytes, blister cells, and target cells.

Question 45

What is the significance of rouleaux formation in cats and horses?

Answer 45

Rouleaux formation is normal in cats and horses, but in other species, it is associated with hyperviscosity, most often hyperproteinaemia.

Question 46

What can cause microcytosis and poikilocytosis in RBCs?

Answer 46

Microcytosis and poikilocytosis in RBCs can be caused by iron deficiency (often alongside hypochromasia) and myeloproliferative disease (e.g., FeLV related in cats).

Question 47

What is the most likely significance of crenated RBCs with spiky projections?

Answer 47

Crenated RBCs with spiky projections, also known as echinocytes, can indicate renal disease, neoplasms, lipid disorders, hyperthyroidism, or shear damage injury.

Question 48

What are some morphological abnormalities that can be seen in red blood cells?

Answer 48

Morphological abnormalities that can be seen in red blood cells include codocyte, Eccentrocyte, Heinz bodies, spherocyte, ovalocyte, dacrocyte, and Howell Jolly bodies.

Question 49

How are Heinz bodies formed in red blood cells?

Answer 49

Heinz bodies are formed in red blood cells due to oxidative damage to the sulfhydryl (-SH) chain of the hemoglobin, leading to its precipitation.

Question 50

What is the significance of Howell Jolly bodies in red blood cells?

Answer 50

Howell Jolly bodies are round, dark, relatively large bodies that are nuclear remnants. They are of no clinical significance when present in low numbers.

Question 51

How can reticulocyte counts determine if an anemia is regenerative or non-regenerative?

Answer 51

Reticulocyte counts are the best way to determine whether an anemia is regenerative or non-regenerative. Increased numbers of reticulocytes indicate a regenerative response.

Question 52

How can reticulocyte counts be performed manually?

Answer 52

Reticulocyte counts can be performed manually by using supra vital stains such as new methylene blue or brilliant cresyl green. The procedure involves making a blood smear, evaluating it under an oil lens, and counting a minimum of 300 cells to determine the percentage of reticulocytes.

Question 53

What are the different types of reticulocytes in dogs and cats?

Answer 53

In dogs, all reticulocytes are aggregate reticulocytes. In cats, there are two types of reticulocytes: aggregate reticulocytes and punctate reticulocytes.

Question 54

What do punctate reticulocytes indicate in cats?

Answer 54

Punctate reticulocytes in cats indicate a regenerative response that occurred 2-4 weeks earlier, as they have undergone a degree of maturation and can remain in the bloodstream for up to 4 weeks after the anemia has resolved.

Question 55

What are the causes of non-regenerative anaemia?

Answer 55

The causes of non-regenerative anaemia include anaemia of chronic disease, iron deficiency anaemia (chronic blood loss), chronic renal failure, chronic liver disease, hypoadrenocortisolism/hypothyroidism, drug-induced anaemia, infectious causes (e.g. FeLV), toxins (e.g. lead toxicity), primary bone marrow diseases (such as IMHA/maturation arrest, aplastic anaemia, myelophthisis, myelofibrosis, myelodysplasia, and myelonecrosis).

Question 56

What are the haematological features observed in anaemia of chronic disease?

Answer 56

Haematological features observed in anaemia of chronic disease include normocytic/normochromic or microcytic/hypochromic anemia with or without an inflammatory leukogram.

Question 57

What are the possible causes of iron deficiency anaemia?

Answer 57

Iron deficiency anaemia can be caused by chronic blood loss, such as gastrointestinal bleeding , inadequate dietary iron intake, or malabsorption disorders.

Question 58

What are the possible causes of non-regenerative anaemia in cats?

Answer 58

In cats, non-regenerative anaemia can be caused by infectious diseases like FeLV, exposure to drugs or toxins, or primary bone marrow diseases.

Question 59

What is the first step in investigating polycythaemia?

Answer 59

The first step in investigating polycythaemia is to determine if it is persistent or transient.

Question 60

How can polycythaemia be classified?

Answer 60

Polycythaemia can be classified as relative (due to loss of plasma or splenic contraction) or absolute (increased red blood cell mass due to increased marrow production).

Question 61

What are the major types of leucocytosis?

Answer 61

The major types of leucocytosis are inflammatory, glucocorticoid-associated, catecholamine-associated, and neoplastic leucocytosis.

Question 62

What leucogram findings indicate a poor prognosis?

Answer 62

Leucogram findings indicating a poor prognosis include degenerative left shift, leucopenia, leukemoid reaction, toxic neutrophils, severe or persistent lymphopenia, and left shift.

Question 63

What are some possible causes of neutropenia?

Answer 63

Neutropenia may be due to severe infection or predispose to severe infections.

Question 64

Why should antibiotic therapy be considered in neutropenic patients?

Answer 64

Antibiotic therapy should be considered in neutropenic patients because neutropenia may be due to a severe infection or predispose to severe infections.

Question 65

What abnormalities should be examined for in a neutropenic patient?

Answer 65

The smear should be closely examined for the presence of concurrent abnormalities such as left shift and toxic change.

Question 66

What are some possible causes of lymphocytosis?

Answer 66

Possible causes of lymphocytosis include young animal ‘lymphocytosis’ (age-appropriate), epinephrine release in cats, mobilization of cells (possibly due to hypoadrenocorticism), increased numbers due to increased demand (persistent antigenic stimulation, chronic inflammation, post-vaccination), and increased numbers independent of demand (lymphoproliferative disease).

Question 67

What diagnostic tests may be needed for investigation of persistent or marked lymphocytosis?

Answer 67

Investigation of persistent or marked lymphocytosis may need to include flow cytometry or PARR testing.

Question 68

What are some possible causes of thrombocytopenia?

Answer 68

Possible causes of thrombocytopenia include artefactual (inability of haematology analysers to provide accurate counts), decreased production (bone marrow disease, drugs, neoplasia, infectious agents), and other factors.

Question 69

What should be done to confirm thrombocytopenia when detected by haematology analysers?

Answer 69

Thrombocytopenia detected by haematology analysers should be confirmed by examining a blood smear for platelet clumps and macroplatelets that may falsely decrease the machine platelet count.

Question 70

Which dog breeds may have lower numbers of platelets?

Answer 70

Greyhounds may have slightly lower numbers of platelets compared to other dog breeds.

Question 71

What are the two main groups of anaemia?

Answer 71

The two main groups of anaemia are non-regenerative anaemia and regenerative anaemia.

Question 72

How can you determine if an anaemia is regenerative or not?

Answer 72

The best way to determine if an anaemia is regenerative or not is to determine the reticulocyte counts.

Question 73

What are some features of regenerative anaemia?

Answer 73

Some features of regenerative anaemia include increased MCV, reduced MCHC, erythrocyte anisocytosis, polychromasia, Howell-Jolly bodies, target cells, nRBC, and basophilic stippling.

Question 74

What are some common parameters evaluated in red cell analysis?

Answer 74

Some common parameters evaluated in red cell analysis are red cell count, haematocrit (HCT), haemoglobin (Hb), mean cell volume (MCV), mean corpuscular haemoglobin (MCH), and mean corpuscular haemoglobin concentration (MCHC).

Question 75

What does MCV represent in red cell analysis?

Answer 75

MCV represents the average size of red cells. Normal size is normocytic, enlarged is macrocytic, and small is microcytic.

Question 76

What does MCH represent in red cell analysis?

Answer 76

MCH represents the amount of hemoglobin per average red cell.

Question 77

What does MCHC represent in red cell analysis?

Answer 77

MCHC represents the mean corpuscular hemoglobin concentration. Decreased MCHC indicates hypochromasia, while elevated MCHC is generally artefactual.

Question 78

What is the white blood cell count usually a count of in haematology machines?

Answer 78

The white blood cell count is usually a total nucleated cell count, which will also count nRBC when present.

Question 79

What does ‘RETIC-HGB’ stand for?

Answer 79

RETIC-HGB stands for haemoglobin contained in reticulocytes.

Question 80

What does a greater reticulocytosis indicate?

Answer 80

A greater reticulocytosis indicates a greater degree of anaemia.

Question 81

In the context of anaemia, what is considered a severe anaemia in dogs?

Answer 81

A severe anaemia in dogs is defined as a hematocrit (HCT) of 13 - 19%.

Question 82

What are some common causes of haemolysis?

Answer 82

Some common causes of haemolysis include IMHA, infectious diseases, oxidative damage, microangiopathic haemolytic anaemia, inherited red blood cell defects, and envenomation.

Question 83

How can you determine the cause of haemolysis?

Answer 83

To determine the cause of haemolysis, examine the plasma to see if it is intravascular or extravascular haemolysis, look for changes in red blood cells on the blood smear, ask about exposure to toxins or infectious agents, screen for systemic disease with a biochemistry panel and imaging, and do a Coombs test to confirm if immune mediated.

Question 84

What are some clinical signs that raise suspicion of immune mediated haemolytic anaemia (IMHA)?

Answer 84

Clinical signs that raise suspicion of IMHA include anaemia, jaundice, evidence of regeneration on the haematology/blood smear, presence of spherocytes and/or agglutination, and a positive Coombs test.

Question 85

What is the primary cause of non-regenerative anaemia?

Answer 85

Non-regenerative anaemia is primarily caused by diseases that prevent red blood cell production, often associated with bone marrow pathology.

Question 86

What causes immune-mediated destruction that may be primary or secondary?

Answer 86

Increased clearance/consumption

Question 87

What are the different levels of severity for immune-mediated destruction?

Answer 87

Mild to moderate, severe

Question 88

What are some causes of immune-mediated destruction in the hypocoagulable phase of DIC?

Answer 88

Several causes including DIC

Question 89

What can cause sequestration/redistribution in immune-mediated destruction?

Answer 89

Splenomegaly (of any cause)

Question 90

What is the main cause of thrombocytosis?

Answer 90

Increased production

Question 91

What is the most common cause of reactive thrombocytosis?

Answer 91

Production of cytokines as a response to previous loss, in inflammation, gastrointestinal disease or neoplasia

Question 92

What is a less common cause of thrombocytosis?

Answer 92

Iron deficiency anemia

Question 93

Which factors can rarely cause essential thrombocytopenia?

Answer 93

Neoplasia

Question 94

What is the purpose of performing urinalysis in the evaluation of renal function?

Answer 94

Urinalysis is a screening test that helps assess renal function and should be performed every time a screening biochemistry panel is done.

Question 95

Why is measuring urine specific gravity (USG) essential in assessing renal function?

Answer 95

Measuring Urine specific gravity (USG) is essential to assess renal function as it provides evidence of a decrease in renal function before azotaemia develops.

Question 96

How can urea and creatinine levels be used to assess azotaemia?

Answer 96

Elevation of urea and creatinine levels can indicate azotaemia, which can be further classified as pre-renal, renal, or post-renal based on various factors such as hydration status and urine specific gravity of the patient.

Question 97

What are the potential causes of pre-renal azotaemia?

Answer 97

Pre-renal azotaemia can be caused by dehydration, concurrent increase in hematocrit and proteins, severe conditions like Addison’s disease, high protein/recent meal intake, and gastrointestinal haemorrhage.

Question 98

How can renal azotaemia be differentiated from other forms of azotaemia?

Answer 98

To confirm that azotaemia is of renal origin, urine with isosthenuric or inadequately concentrated property should accompany the elevated urea and creatinine levels. Additionally, phosphorous elevations are slower, while calcium levels may increase, decrease, or remain the same.

Question 99

What are the common causes of post-renal azotaemia?

Answer 99

Post-renal azotaemia can be caused by bladder rupture, urethral or ureteral damage/blockage. In this case, urea, creatinine, and potassium levels elevate, and abdominal fluid creatinine levels can be compared to serum levels.

Question 100

What is the significance of SDMA (symmetrical dimethylarginine) in evaluating kidney function?

Answer 100

SDMA is predominantly excreted by the kidneys and can rise when approximately 25-40% of kidney function is lost, indicating early chronic kidney disease. It can identify renal dysfunction earlier than creatinine and may help in making decisions regarding surgery/nephrotoxic drugs or identifying animals at high risk of developing renal disease.

Question 101

According to the IRIS guidelines, what does a persistent increase in SDMA above 14 μg/dl suggest?

Answer 101

A persistent increase in SDMA above 14 μg/dl suggests reduced renal function and may be a reason to consider a dog or cat with creatinine values less than 1.4 for further evaluation.

Question 102

What are some causes of elevated conjugated bilirubin levels?

Answer 102

Causes of elevated conjugated bilirubin levels include obstructive cholestasis, hepatocellular swelling, extrahepatic biliary tract obstruction, cholelithiasis, gallbladder mucocele, neoplasia, and parasites.

Question 103

What are the typical liver function test results in hepatocellular disease?

Answer 103

In hepatocellular disease, ALT (Alanine Aminotransferase), AST (Aspartate Aminotransferase), ALP (Alkaline Phosphatase), GGT (Gamma-Glutamyl Transferase), TBil (Total Bilirubin), and CHOL (Cholesterol) levels may vary depending on the severity and acute/chronic forms of the disease.

Question 104

What are some causes of hypoproteinaemia?

Answer 104

Hypoproteinaemia is most often linked to hypoalbuminaemia and can be caused by protein-losing enteropathy, protein-losing nephropathy, haemorrhage, or exudative loss in young animals.

Question 105

What are some possible causes of hyperproteinaemia?

Answer 105

Possible causes of hyperproteinaemia include dehydration, increased globulins (usually immunoglobulins), or rarely increased albumin (e.g., with hepatocellular carcinoma).

Question 106

What is the significance of serum protein electrophoresis?

Answer 106

Serum protein electrophoresis (SPE) can be used to evaluate hyperglobulinaemia and determine if a polyclonal or monoclonal gammopathy is present, which can help identify the underlying cause.

Question 107

What are acute phase proteins (APPs) and how are they used in diagnosis?

Answer 107

Acute phase proteins are unspecific but sensitive markers of inflammation, often increasing before changes in white blood cell (WBC) count and leukogram. Examples in dogs include C-Reactive Protein (CRP) and haptoglobin, used in monitoring immune-mediated polyarthritis and certain oncology patients.

Question 108

What are some examples of acute phase proteins in cats?

Answer 108

In cats, examples of acute phase proteins include Serum Amyloid A (SAA) and α1-macroglobulin (AGP).

Question 109

What are the three primary components necessary for normal primary haemostasis?

Answer 109

Normal platelet numbers, adequate platelet function, and adequate vWF (von Willebrand Factor)

Question 110

What is secondary haemostasis primarily dependent on?

Answer 110

Normal amounts of coagulation factors, which are small serum proteins/peptides mostly produced by the liver and affected by the availability of vitamin K.

Question 111

What is the purpose of tertiary haemostasis?

Answer 111

Tertiary haemostasis is responsible for the normal breakdown of the clot and is dependent on the absence or presence of certain factors. It is usually assessed by measuring the products of this breakdown, such as Fibrinogen Degradation Products (FDPs) and D-Dimers.

Question 112

What does global haemostasis testing involve?

Answer 112

Global haemostasis testing can assess multiple pathways and components of coagulation simultaneously, including the contribution of cells such as platelets and erythrocytes. Thromboelastography (TEG) is one of the most common global haemostasis tests.

Question 113

What factors should be considered during the diagnostic evaluation of an animal with a suspected haemostatic disorder?

Answer 113

The diagnostic evaluation should take into account the patient’s signalment (age, sex, breed), history, and physical examination. Clues obtained from the patient can guide diagnostic testing and test interpretation.

Question 114

What are some indicators that may suggest an inherited haemostatic disorder?

Answer 114

Inherited disorders typically arise in younger animals and specific breeds. Some inherited disorders are sex-linked, and clinical signs are usually only evident in males.

Question 115

What are some common screening tests that should be considered when an animal presents with unexplained or excessive haemorrhage?

Answer 115

Some common screening tests include haemogram including platelet count verification, clotting times (PT, aPTT, and possibly ACT), clinical chemistry to assess underlying diseases affecting haemostasis, and D-dimers/FDPs or TEG when a tertiary haemostasis disorder is suspected.

Question 116

What further testing may be warranted if abnormalities are found in the initial screening assays?

Answer 116

If abnormalities are found, further testing may include specific assays for individual factors or inhibitors, such as Factor VIII activity for haemophilia A or AT activity for DIC, or concentration testing, such as vWf antigen testing for von Willebrand disease.

Question 117

What is the most common cause of vitamin K antagonism/deficiency?

Answer 117

The most common cause of vitamin K antagonism/deficiency is ingestion of coumarins or derivatives, such as anticoagulant rodenticides.

Question 118

What are the three types of haemophilia and their corresponding factor deficiencies?

Answer 118

The three types of haemophilia and their corresponding factor deficiencies are: Haemophilia A (factor VIII deficiency), Haemophilia B (factor IX deficiency), and Haemophilia C (factor XI deficiency).

Question 119

Which gender usually presents with clinical disease in haemophilia?

Answer 119

Clinical disease in haemophilia is usually seen in males, as it is an X-linked recessive disease.

Question 120

What are the usual changes observed in PT and aPTT values in cases of decreased hepatic function?

Answer 120

In cases of decreased hepatic function, both PT and aPTT values are usually prolonged, but PT is more sensitive due to the short half-life of factor VII.

Question 121

How is disseminated intravascular coagulation (DIC) diagnosed?

Answer 121

DIC is diagnosed based on a combination of clinical and clinicopathological findings, including prolongation of PT and aPTT, consumptive and marked thrombocytopenia, low fibrinogen, increased D-Dimers, and the presence of shear damage injury products (e.g. schistocytes) in the blood smear.

Question 122

What is the acronym BMBT used for in relation to coagulation disorders?

Answer 122

In relation to coagulation disorders, the acronym BMBT stands for Buccal Mucosal Bleeding Time.

Question 123

What is the effect of decreased liver function on clotting factors and coagulation tests?

Answer 123

Decreased liver function leads to decreased production of clotting factors, which can affect PT and aPTT values. Clotting factors are also routinely impacted by decreased liver function, although it is controversial if this always leads to haemorrhagic tendencies.

Question 124

What does the acronym DIC stand for in relation to coagulation disorders?

Answer 124

In relation to coagulation disorders, the acronym DIC stands for Disseminated Intravascular Coagulation.

Question 125

What is the recommended sample for haematology?

Answer 125

EDTA blood along with a fresh blood smear.

Question 126

What is the recommended sample for clotting factors, PT, aPTT, FDPs, D-dimers, and vWF?

Answer 126

Citrated plasma.

Question 127

Why is it important to use plastic syringes and tubes instead of glass for sample collection?

Answer 127

Glass tends to cause activation of haemostasis resulting in the formation of a clot.

Question 128

What is the preferred location for sample collection from animals?

Answer 128

Large veins (i.e. jugular), except in animals with an overt coagulopathy.

Question 129

What is the correct ratio of citrate anticoagulant to blood in the tube?

Answer 129

The tube should not be under or over-filled.

Question 130

What should be done if a clot is present in the collected sample?

Answer 130

The sample should be collected again.

Question 131

What is the recommended method for centrifugation and separation of plasma from blood cells?

Answer 131

Centrifuge at 2000-3000 rpm for 10 minutes or using the usual settings for blood separation.

Question 132

How should plasma be transferred to a clean tube after centrifugation?

Answer 132

Use a plastic pipette and transfer plasma to a clean, plain, plastic tube that does not contain anticoagulant.

Question 133

What are the parameters tested in liver disease?

Answer 133

Liver enzymes, function markers, substances produced by the liver, substances conjugated and excreted by the liver.

Question 134

What are the liver enzymes associated with hepatocellular damage?

Answer 134

ALT, AST, (GLDH)

Question 135

Which liver enzyme is relatively liver-specific and is a marker of hepatocellular damage?

Answer 135

ALT

Question 136

What are the possible causes of increased ALT levels?

Answer 136

Primary liver disease, drugs (e.g. phenobarbitone, steroids), secondary liver disease, bile stasis, severe muscle damage (e.g. after RTA)

Question 137

Which enzyme is a membrane-bound protein found on the bile canalicular surface of hepatocyte membranes?

Answer 137

ALP

Question 138

What are the possible causes of increased ALP levels?

Answer 138

Hepatic causes (extra-hepatic bile duct obstruction, intrahepatic cholestasis, hepatitis, hepatic nodular hyperplasia, vacuolar hepatopathy), non-hepatic causes (release from bone, drug-induced, secondary reactive hepatopathies, high levels in dogs with mammary tumors)

Question 139

What is bilirubin?

Answer 139

Bilirubin is a substance that increases in liver disease.

Question 140

What is the significance of even small increases in ALP levels in cats?

Answer 140

Even small increases in ALP levels in cats are always significant.

Question 141

According to the IRIS guidelines, what is considered as IRIS CKD Stage 1?

Answer 141

Creatinine values less than <1.6 mg/dl

Question 142

In IRIS CKD Stage 2 patients with low body condition scores, what SDMA value may indicate the degree of renal dysfunction has been underestimated?

Answer 142

SDMA ≥25 μg/dl

Question 143

Where can the full IRIS guidelines be consulted?

Answer 143

http://www.iris-kidney.com/guidelines/

Question 144

How should urine specific gravity be measured?

Answer 144

By refractometer

Question 145

What is the range of specific gravity values for concentrated urine in a healthy animal?

Answer 145

> 1.012

Question 146

What is the range of specific gravity values for isosthenuria?

Answer 146

1.007-1.012

Question 147

What are some causes of pre-renal azotaemia?

Answer 147

Animal on fluids, diuretics, glucocorticoids, central diabetes insipidus, nephrogenic diabetes insipidus, Addison’s or hyponatraemia, hypercalcemia, osmotic diuresis

Question 148

What does the Urinary Protein: Creatinine ratio measure?

Answer 148

Urinary protein content as a ratio, removing the influence of concentration

Question 149

What test is used to measure the amount of von Willebrand Factor in dogs?

Answer 149

ELISA

Question 150

Which breeds have been described as having von Willebrand Disease?

Answer 150

Basset Hound, standard and miniature Dachshund, Doberman Pinscher, German Shepherd, Golden Retriever, Keeshond

Question 151

What may trigger signs of primary haemostatic disorder in affected dogs?

Answer 151

Trauma or surgery

Question 152

What is the recommended sample for vWF testing in female dogs?

Answer 152

An anoestrus sample

Question 153

What are some factors that may influence the concentration of von Willebrand Factor in dogs?

Answer 153

Hormones, medications, and inflammatory conditions

Question 154

What should a patient with von Willebrand Factor’s clotting time be under to be considered to have a normal ACT?

Answer 154

<90 seconds

Question 155

Which clotting factors are evaluated by the prothrombin time (PT)?

Answer 155

Factors II, VII, IX, and X

Question 156

What are D-dimers useful for in diagnostic testing?

Answer 156

Diagnosis of thromboembolic disease and DIC