Kathryn Borg
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DVM2 HLI (Semester 1) (Pathology (Jenny's lectures)) Quiz sobre Lecture 29 (Disorders of secondary haemostasis), criado por Kathryn Borg em 15-04-2016.

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Kathryn Borg
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Lecture 29 (Disorders of secondary haemostasis)

Questão 1 de 27

1

What are the major mechanisms responsible for defective secondary haemostasis?

Selecione uma ou mais das seguintes:

  • inherited coagulation factor deficiencies

  • vitamin K antagonism or deficiency

  • severe acute or chronic liver disease

  • excessive fibrinolysis or fibrinogenolysis

  • von Willebrand's disease

Explicação

Questão 2 de 27

1

Which mechanism is the most common cause of secondary haemostasis in domestic animals?

Selecione uma das seguintes:

  • inherited coagulation factor deficiencies

  • vitamin K antagonism

  • severe acute or chronic liver disease

  • excessive fibrinolysis or fibrinogenolysis

  • von Willebrand's disease

  • vitamin k deficiency

Explicação

Questão 3 de 27

1

Clinical signs suggestive of defective secondary haemostasis may include?

Selecione uma ou mais das seguintes:

  • Large volume bleeds

  • Haematoma formation

  • Bleeding into body cavities or joints

  • Petechiae, purpura or ecchymoses in skin or mucous membranes

Explicação

Questão 4 de 27

1

In what domestic species are inherited coagulation factor deficiencies most often identified?

Selecione uma das seguintes:

  • dogs

  • cats

  • horses

  • cattle

  • rabbits

Explicação

Questão 5 de 27

1

Deficiencies in relation to which of the below factors are yet to be confirmed in domestic animals?

Selecione uma ou mais das seguintes:

  • factor III (tissue factor)

  • factor V

  • factor XIII

  • high molecular weight kininogen (HMWK)

  • factor XII

  • prekallikrein

  • factor I

Explicação

Questão 6 de 27

1

Why does factor XI deficiency (haemophilia C) usually only cause mild bleeding?

Selecione uma das seguintes:

  • because factor X can be activated by the extrinsic system

  • because factor V can be activated by the extrinsic system

  • because factor X can be activated by the intrinsic system

  • because factor XI is not required for coagulation

Explicação

Questão 7 de 27

1

When might deficiencies in factor XI result in massive bleeding?

Selecione uma das seguintes:

  • Following trauma (including surgical trauma) when sustained coagulation is required (as factor XI is required for sustained X activation)

  • When the disease manifests in a male (as it is inherited as an X-linked recessive disorder)

  • Factor XI has major roles in pregnancy

  • When the disease occurs in a Saint Bernard dog

Explicação

Questão 8 de 27

1

The most severe haemorrhage is associated with inherited deficiencies of factor(s)?

Selecione uma ou mais das seguintes:

  • factor I

  • factor II

  • factor X

  • factor VIII

  • factor IX

  • combined factor deficiencies

  • factor XII

  • factor V

Explicação

Questão 9 de 27

1

Which inherited factor deficiency is the most common inherited coagulopathy in domestic animals and humans?

Selecione uma das seguintes:

  • factor VIII (haemophilia A)

  • factor IX (haemophilia B)

  • factor XI (haemophilia C)

  • factor VII

Explicação

Questão 10 de 27

1

Haemophilia A it is inherited as an X-linked recessive disorder and manifests almost exclusively in hemizygous females (usually in the first six months of post-natal life)

Selecione uma das opções:

  • VERDADEIRO
  • FALSO

Explicação

Questão 11 de 27

1

Which factors are vitamin K-dependent?
Choose the correct combination

Selecione uma das seguintes:

  • factors II, VII, IX and X

  • factors III, VIII, IX and X

  • factors II, VII, IX and XI

  • factors II, VII, IIX and X

  • factors I, II, IIX and XI

Explicação

Questão 12 de 27

1

A mutation in which gene (what does it encode for) causes a deficiency of the vitamin k-dependent factors?

Selecione uma das seguintes:

  • γ-glutamyl carboxylase gene

  • Acetyl-CoA carboxylase gene

  • α-glutamyl carboxylase gene

  • Pyruvate carboxylase gene

Explicação

Questão 13 de 27

1

Ingestion of which of the below can cause haemorrhage via antagonism of vitamin K epoxide reductase?

Selecione uma ou mais das seguintes:

  • anticoagulant rodenticides containing hydroxycoumarins or indandiones

  • mouldy sweet clover (Melilotus alba) or sweet vernal grass (Anthoxanthum odoratum) containing bishydroxycoumarin

  • sulphaquinoxaline (a coccidiostat)

  • overdose with therapeutic coumadins (eg. warfarin)

  • paracetamol

  • 2-acetoxybenzoic acid (aspirin)

  • cholecalciferol (Vitamin D3)

Explicação

Questão 14 de 27

1

Mild intoxication by ingestion of anticoagulant rodenticides is a common cause of haemorrhage in cats and dogs. How can this be treated?

Selecione uma das seguintes:

  • vitamin K1 administration

  • administration of warfarin

  • administration of prednisolone

  • vitamin D3 administration

  • Cartrophen (DMOAD) administration

Explicação

Questão 15 de 27

1

Dietary vitamin K deficiency although rare, is most commonly reported in what species of domestic animals?

Selecione uma das seguintes:

  • dogs

  • cats

  • horses

  • sheep

  • rabbits

Explicação

Questão 16 de 27

1

What can cause vitamin K deficiency?

Selecione uma ou mais das seguintes:

  • complete extrahepatic bile duct obstruction

  • exocrine pancreatic insufficiency

  • intestinal malabsorption

  • chronic lipid maldigestion/malabsorption syndromes

  • long term oral antibiotic use

  • prolonged anorexia or malnutrition

  • diabetes

  • diarrhoea

Explicação

Questão 17 de 27

1

Which coagulation factors are deficient in the inherited coagulopathy recognised in Devon rex cats?

Selecione uma das seguintes:

  • II, VII, IX and X

  • III, VII, IX and XI

  • II, VI, X, XII

  • I, V, VI, X

Explicação

Questão 18 de 27

1

Where in the body are most of the coagulation factors produced?

Selecione uma das seguintes:

  • liver

  • spleen

  • bone marrow

  • endothelial cells

  • macrophages

Explicação

Questão 19 de 27

1

What percentage reduction of functional liver mass causes significant decreases in coagulation factor activity?

Selecione uma das seguintes:

  • ≥70%

  • ≥40%

  • ≥60%

  • ≤45%

Explicação

Questão 20 de 27

1

Surprisingly, most animals with hepatic disease of enough severity to cause inadequate synthesis of coagulation factors do not bleed spontaneously, instead, they are at risk of uncontrollable haemorrhage if haemostatic capacity is challenged (e.g. if a liver biopsy is undertaken)

Selecione uma das opções:

  • VERDADEIRO
  • FALSO

Explicação

Questão 21 de 27

1

What is mandatory before subjecting an animal with known hepatic disease to a liver biopsy or other invasive surgery?

Selecione uma das seguintes:

  • Laboratory tests of haemostatic capacity

  • Radiography

  • Leukogram

  • Physical exam

Explicação

Questão 22 de 27

1

Why are animals with significant hepatic disease not only at risk of haemorrhage but also at risk of thrombosis?

Selecione uma ou mais das seguintes:

  • Hepatocytes synthesise anticoagulants, fibrinolytic agents and fibrinolytic inhibitors

  • The liver is responsible for clearance from the circulation of many of the activated products of coagulation and fibrinolysis

  • Most of the coagulation factors are synthesised by hepatocytes

  • The liver is responsible for the maturation of platelets

Explicação

Questão 23 de 27

1

Why would excessive fibrinolysis be an issue?

Selecione uma das seguintes:

  • Premature breakdown of secondary haemostatic fibrin plugs

  • Can result in the formation of a thrombus

  • Premature breakdown of primary haemostatic platelet plugs

Explicação

Questão 24 de 27

1

- enzymatic lysis of fibrin by plasmin

- enzymatic lysis of fibrinogen by plasmin

Arraste e solte para completar o texto.

    Fibrinolysis
    Fibrinogenolysis
    Fibrinocatalase

Explicação

Questão 25 de 27

1

In which conditions is excessive fibrinogenolysis thought to be a contributor to defective secondary haemostasis in domestic animals?

Selecione uma ou mais das seguintes:

  • snake envenomation - e.g. Eastern and Western diamondback rattlesnakes

  • administration of plasminogen activators - e.g. t-PA, streptokinase

  • excessive endothelial release of t-PA - e.g. shock, heat stroke, severe tissue trauma

  • Disseminated intravascular coagulation (DIC)

  • prolonged anorexia or malnutrition

  • anticoagulant rodenticides containing hydroxycoumarins or indandiones

Explicação

Questão 26 de 27

1

In which condition is excessive fibrinolysis a contributor to defective secondary haemostasis in domestic animals?

Selecione uma ou mais das seguintes:

  • Disseminated intravascular coagulation (DIC)

  • snake envenomation - e.g. Eastern and Western diamondback rattlesnakes

  • administration of plasminogen activators - e.g. t-PA, streptokinase

  • excessive endothelial release of t-PA - e.g. shock, heat stroke, severe tissue trauma

  • prolonged anorexia or malnutrition

Explicação

Questão 27 de 27

1

In what circumstances might a dog develop deficiency of vitamin K?

Selecione uma ou mais das seguintes:

  • prolonged anorexia or malnutrition

  • long term antibiotics (which can kill off gut bacteria, which synthesise vit K)

  • chronic lipid maldigestion/malabsorption syndromes (eg. bile duct obstruction)

  • ingestion of anticoagulant rodenticides

  • snake envenomation - e.g. Eastern and Western diamondback rattlesnakes

Explicação