HLI 1

Question 1

What occurs with too much coagulation and too little

Answer 1

Too much: Thrombosis

Too little: Fibrinolysis

Question 2

What are the two main features of hemostasis

Answer 2

1) pactivated platelets

2) coagulation pathway leading to production of fibrin

Question 3

What are the 4 main stages of hemostasis

Answer 3

Tissue/vessel injury 
1. Vasoconstriction - reduce blood flow - not stop due to important substances within the blood needed for clotting
- Inherent response to injury 
- Neural - sympathetically induced 
- Platelet-reinforced - release activators 
2. Platelet activation 
- Adhesion and Aggregation 
3. Coagulation 
- Blood clot 
○ Thrombin generation 
○ Fibrin polymerization 
4. Fibrinolysis 
- Blood clot dissolution 
5. Vascular patency restored

Question 4

Platelet characteristics and what created from

Answer 4

• Shed from megakaryocytes
• Lack nucleus
• Store secretory products in granules
• High concentration of actin and myosin - contraction

Question 5

What are the steps in activation, adhesion and aggregation of platelets

Answer 5

1. Endothelial injury occurs resulting in the exposure of collagen which activates platelets and attracts vW factor from the blood (released by endothelial cells as well as megakaryocytes)
   - Platelets can also be activated by von Willebrand (vW) factor and tissue factor
2. Activated platelets express vW factor receptors and secrete Vw factor themselves which binds to the platelets
3. The exposed sub-endothelial collagen binds vW factor which is attached to the platelet leading to a high avidity bond (high strength)
   - Other stimuli such as adenosine diphosphate (ADP), 5-HT and thromboxane A2 can initiate aggregation via specific receptors
4. Platelets also release number of factors (activators which activate more platelets) as well as vasoconstrictors such as serotonin and epinephrine and other factors to enhance coagulation
   Activation of platelets + coagulation pathway makes the permanent plug
   - Actin and myosin contracts which compacts and strengthens the plug

Question 6

What limits platelet aggregation

Answer 6

• Endothelium released prostacyclin and nitric acid that inhibit platelet aggregation
  This is activated by chemicals produced by the platelets themselves

Question 7

What are the 3 main steps in the coagulation pathway

Answer 7

1) Cascades - intrinsic, extrinsic and common
2) cleavage of fibrinogen
3) cross linking through transglutaminase enzyme

Question 8

Give a general overview of how the coagulation cascade works

Answer 8

• Involve clotting factors that concentrate on activated platelets by binding to calcium ions via Gla domains that are attached to the surface of platelets due to the expression of negatively charged phospholipids

Question 9

List the 5 thrombin roles in the coagulation pathway

Answer 9

1) Stimulates conversion of fibrinogen to fibrin
2) Stabilises the fibrin meshwork
3) Enhances the activation of the reaction converting prothrombin to thrombin
4) Enhances platelet aggregation
5) Anti-coagulant as well - activates protein C which inactivates clotting factors VIIIa and Va (8 and 5)
- Self-limiting

Question 10

Vitamin K was it is needed for and what out-competes it

Answer 10

• Essential for formation of clotting factors II, VII, IX, X (television channels)
• These molecules all require gamma carboxylation after synthesis
• Reduced vitamin K is a cofactor in carboxylation of glutamate
  Warfarin has similar structure to Vit K and competitively inhibits it - anti-clotting

Question 11

How does the cross-linking of fibrin occur in the final stage of hemostasis

Answer 11

• Initial soft plug characterised by H bonding

- Covalent cross linking mediated by transglutaminase (factor XIIIa 13) of fibrin adds strength

Question 12

What limits clot formation at the site of injury

Answer 12

1. Diluted by blood flow
2. Removed by liver
3. Anticoagulant mechanisms
   - Tissue factor pathway inhibitor
   - Thrombomodulin - modulates thrombin
   - Anti-thrombin III - inhibits thrombin actions

Question 13

Characteristics of anti-thrombin III and Thrombomodulin

Answer 13

Anti-thrombin III
- Inactivates thrombin by forming a complex with it (irreversible)
- Can also block other factors such as Xia and Xa
- This is enhanced by heparin
Thrombomodulin
- Forms complex with thrombin
- Acts as a co-factor with Ca++ for thrombins activation of protein C
- Protein C and Protein S inactive factors Va and VIIIa through proteolytic cleavage

Question 14

How does fibrinolysis occur

Answer 14

1) plasminogen is activated by tissue plasminogen activator and only when biund to fibrin (self-limiting)
2) plaminogen is cleaved into plasmin
3) plasmin degrades fibrin into peptides dissolving the blood clot

Question 15

Characteristics of arterial and venous thrombus

Answer 15

Arterial thrombus (white)
• Platelets plus white blood cells in a fibrin mesh
• Usually associated with vessel wall damage (atherosclerosis)
• Breaks off leading to blood vessel obstruction (eg myocardial infarction)
Venous thrombus (red)
• Fibrin, platelets and red blood cells
• Usually associated with blood stasis (eg DVT with air travel)
• Breaks off leading to embolus lodging in lungs or brain

Question 16

Why is it important to control haemostasis and thrombosis

Answer 16

1. Hypercoagulability
2. Blood stasis
   - Atrial fibrillation - saddle thrombosis in cats
   - Deep vein thrombosis - pulmonary embolism
3. Vessel damage
   - Atherosclerosis
   ○ In coronary vessels–> myocardial infarction
   ○ In carotid arteries –> stroke

Question 17

List and describe the 3 main drugs that affect fibrin formation

Answer 17

1. Procoagulant drugs eg vitamin K
2. injectable anticoagulants eg heparin, low-molecular-weight heparins
   - Used acutely for short term action
   Heparin
   - Enhances activity of antithrombin III which inactivates thrombin and Xa
   - Not orally available
3. Oral anticoagulants eg warfarin
   - Used for prolonged therapy

Question 18

What are the two types of rodenticide poisoning

Answer 18

• First generation rodenticides 
- multiple feed poisons- lower efficacy but safer 
- shorter half life
• Second generation rodenticide
- feed poisons- higher efficacy
- longer half life

Question 19

List the 3 drugs that affect platelet adhesion and activation

Answer 19

1) ADP receptor antagonists
2) Thromboxane synthesis inhibitors eg aspirin)
3) Glycoprotein IIb/IIIa receptor antagonists

Question 20

What are the actions of aspirin

Answer 20

1) thromboxane synthesis inhibitor (decrease platelet adhesion and activation)
2) irreversible cyclo-oxygenase inhibitor
3) decreased vasoconstriction

Question 21

what occurs with low dose aspirin therapy

Answer 21

90% aspirin cleared first-pass metabolism in liver therefore
- Endothelial production of prostaglandin I2 (PGI2) is preserved
○ beneficial vasodilation is preserved so maintain perfusion in essential tissues
- Platelets are exposed to aspirin as they circulate in the portal vein - causes irreversible inhibition of COX (hence thromboxane synthesis) in exposed platelets –>Decreased platelet aggregation

Question 22

List the 2 fibrinolytic drugs, their actions and how used

Answer 22

1) streptokinase - activates plasminogen and used intravenously
2) alteplase (only in humans) - More active on fibrin bound plasminogen so “CLOT SELECTIVE”, human recombinant tissue plasminogen activators

Question 23

How do bruises and haematomas resolve and what pigments contribute to gross discoloration

Answer 23

extravasated blood cells and coagulated fibrin are removed by lysis and especially by phagocytosis onset hours after haemorrhage

1) acute phase - red-blue due to poorly oxygenated haemoglobin
2) subacute phase - blue-green due to formation within macrophages of biliverdin and bilirubin
3) chronic phase - gold-brown due to formation of haemosiderin and some lipofuscin pigment

Question 24

What factors determine the clinical significance of haemorrhage

Answer 24

1) location - fatal, brain, heart - intra and extra-cerebral, rapid haemopericardium - cardiac tamponade
2) rate and volume of blood loss - 20% of total blood volume or slow loss of larger volumes may have little impact on healthy animals
○ loss of 20-40% of blood volume -> haemorrhagic (hypovolaemic) shock
Loss more than 50% - DEATH

Question 25

what is the most common cause of haemorrhage in domestic mammals and what are other 4 potential causes

Answer 25

physical trauma

1. gastric dilation volvulus
2. ectoparasites (fleas
3. endoparasites - hookworms
4. active inflammation

Question 26

list 3 clinical signs would make you suspicious that an animal has a defect in primary haemostasis

Answer 26

1. bleeding immediately after venipuncture
2. small volume bleeds from multiple sites
3. petechiae and ecchymoses

Question 27

list 3 clinical signs make you suspicious that an animal has a defect in secondary haemostasis

Answer 27

1. delayed bleeding after venipuncture
2. large volume bleeds from multiple or localised sites
3. haematomas common

Question 28

List the four major mechanisms responsible for defects in primary haemostasis

Answer 28

1) platelet deficiency (thrombocytopenia)
2) platelet dysfunction (thrombocytopathy, thrombopathy or thrombopathia)
3) von Willebrand’s disease (deficiency of von Willebrand factor)
4) damage to small blood vessels

Question 29

What are the 5 major mechanism for thrombocytopenia and which mechanism is most likely to lead to clinically significant thrombocytopenia in cats and dogs and their underyling conditions

Answer 29

1) Decreased platelet production - most common in cats due to retroviral infection (especially feline leukaemia virus (FeLV)) and/or myeloproliferative or lymphoproliferative disease
2) platelet destruction - most common in dogs due to immune-mediated destruction
3) consumption (utilization) of platelets
4) platelet sequestration
5) massive acute haemorrhage

Question 30

What role does Von Willebrand factor play in primary haemistasis

Answer 30

• in damaged blood vessels with high shear rates (e.g. arteries and arterioles), vWf is essential for platelet adhesion to collagen (i.e. without vWf, the platelets will be dislodged by blood flow)
  ○ vWf also contributes to platelet aggregation

Question 31

What species most commonly affected with von willebrand’s disease, breeds and how inherited

Answer 31

Dogs
- doberman pinscher, german shepherds, goldern retrievers, poodles
3 forms of inherited vWD all ave autosomal recessive patterns

Question 32

what clinical signs would you expect to see in a dog with von Willebrand’s disease

Answer 32

May be subclinical or cause mediate bleeding
bleeding doesn’t usually occur until the plasma concentration falls below 20% of normal
can lead to severe haemorrhage
More severe defect type 1-3, type 2 and 3 may get haematomas

Question 33

List 5 blood vessel disorders that can manifest as petechiae and ecchymoses
in the skin and/or mucous membranes

Answer 33

1. bacteraemia
2. infectious vasculitis
3. immune-mediated vascuilitis
4. fragility of blood vessels
5. vitamin C deficiency in guineapigs

Question 34

List the 4 major mechanisms responsible for defective secondary haemostasis and which mechanism is most common

Answer 34

1) inherited coagulation factor deficiencies
2) Vitamin K antagoism or definciency - most common
3) hepatic parenchymal disease
4) excessive fibrinolysis or fibrinogenolysis

Question 35

In which domestic animal are inherited coagulation factor deficiencies most often recognised and why are purebreds animal most often affected

Answer 35

Dogs

generally X-linked recessive trait - inherited and most purebreeds are highly inbreed

Question 36

Why can some animals have a hereditary deficiency of a particular coagulation factor and
either never bleed excessively or suffer only from minor haemorrhage

Answer 36

severity of bleeding is usually inversely proportional to the activity of the clotting factor affected
eg: - factor XI deficiency (haemophilia C) usually causes only mild bleeding because factor X can be activated by the extrinsic system

Question 37

whihc of the inherited coagulopathies predispose to severe haemorrhage

Answer 37

most severe haemorrhage is associated with inherited deficiencies of factor I, II or X of the common pathway (all of these are rare), factor VIII or IX of the intrinsic pathway, or combined factor deficiencies

Question 38

Why do haemophilia A and B mainly affect male animals?

Answer 38

haemophilia A (inherited factor VIII deficiency) and haemophilia B (factor IX deficiency) are both X-linked recessive disorders

Question 39

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

Answer 39

Devon rex kittens with inherited mutation of the gene encoding γ-glutamyl carboxylase and hence deficiency of the vitamin K-dependent factors (factors II, VII, IX and X) often bleed severely in the neonatal period

Question 40

How can large animal species become poisoned by coumarin-type anticoagulants?

Answer 40

via ingestion

Question 41

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

Answer 41

rare

1) prolonged anorexia or malnutrition
2) oral antibacterial - kill bacteria found in the stomach that synthesise
3) Chronic lipid maldigestion/malabsorption syndrome - exocrine pancreatic insufficiency

Question 42

what role does the liver play in haemostasis

Answer 42

most of the coagulation factors are synthesised by

Factor II can be synthesised by multiple cell types

Question 43

How much of the hepatic functional mass needs to be compromised before an animal is likely
to be predisposed to haemorrhage due to inadequate synthesis of coagulation factors

Answer 43

functional mass of hepatocytes has been reduced to ≤ 30% - lose 70%
most animals with hepatic disease of this severity 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!)

Question 44

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

Answer 44

rarely cause of bleed except when DIC (disseminated intravascular coagulation occurs)

Question 45

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

Answer 45

rarely cause of bleed except when DIC (disseminated intravascular coagulation occurs)
- excessive fibrinogenolysis -> inability to generate fibrin when needed -> haemorrhage

Question 46

List 3 ways to treat haemorrhagic shock

Answer 46

1) cyrstalloids - hypertonic solution - cheap, reliable
2) synthetic colloids
3) blood transfusion

Question 47

List 8 characteristics that a canine blood donor needs

Answer 47

1) Good temperament
2) Easily accessible jugular veins
3) No other health problems
4) Vaccinated, heart worm prophylaxis
5) - ≥ 25kg to allow collection of full unit (450ml)
6) Negative for blood borne diseases in your area
7) Should never have received a transfusion - may have acquired antibodies to certain blood types
8) Blood typed

Question 48

List 4 characteristics that a feline blood donor needs and what is needed in the clinic

Answer 48

1) ≥ 5kg body weight (for 50 mL to be collected)
2) No other health problems
3) FeLV/FIV/Mycoplasma negative
4) Ideally indoor cat
- Donors of both blood groups required

Question 49

What is the difference between cats and dogs in terms of blood types

Answer 49

• dogs do NOT have naturally-occurring alloantibodies unless have already received a transfusion
• cats DO have naturally-occurring alloantibodies - similar to humans

Question 50

Canine Blood types what is the system, how many types, which one is tested and what is different with greyhounds

Answer 50

Dog erythrocyte antigen (DEA) system
- 8 blood types
- DEA 1.1, 1.2, 3…8
Test for DEA 1.1 as it is the one that causes the biggest reaction against - positive or negative for this blood type
Greyhounds don’t have DEA 1.1 so generally more compatible

Question 51

What is the general rule of thumb in giving blood transfusions for dogs

Answer 51

• Negative blood to negative or positive recipient
• Positive blood to positive recipients (if give to negative get Ab production - now sensitized and if give positive again haemolytic reaction occurs

Question 52

What are the feline blood types, which is common in Aus and what are Siamese and Devon Rex mainly

Answer 52

A > B&raquo_space; AB (very rare)

• Siamese always A
• Devon Rex commonly B
• Type B rare in the US, common in Australia

Question 53

Describe the Different Blood types in cats, do they have antibodies against different groups and what transfusion can they receive

Answer 53

Type A - 20% weak anti-B antibodies - usually not life-threatening, cells survive 5-6 days
Type B - can have very strong anti-A antibodies - transfusion of A into B leads to severe haemolytic reaction resulting in death (30%)
Type AB - no alloantibodies to A or B so should be transfused AB but can give A, cannot give B due to strong anti-A antibodies

Question 54

What is cross-matching in terms of blood transfusion and the 2 types

Answer 54

• Mixing donor and recipient blood and looking for agglutination or haemolysis - Evaluates absolute compatibility between donor and recipient at that point in time
• Major cross-match
  ○ Recipient plasma with donor red blood cells
  ○ Protects against lysis of the transfused red cells
• Minor cross-match
  ○ Recipient red blood cells with donor plasma
  ○ Protects against lysis of the recipient red cells

Question 55

How often can animals donate blood, and what type of blood collection systems and collection methods are used

Answer 55

Should be able to donate up to once per month however generally every 3 months
- Blood collection system
○ Open vs closed
○ Closed - no entry to the environment in the tubing that connects the needle to the bag
○ Open - butterfly catheter put together yourself - not sterile so not good for storage
- Blood collection method
○ Suction vs gravity

Question 56

What is the thing to help us remember the coagulation pathway

Answer 56

When you walk IN to a store $12=11.98
IN = intrinsic, 12, 11, 9, 8
EX 3+7 = 10
Common 10 = 5 x 2 x 1

Question 57

What is the main anticoagulant that is used and what blood is needed for it to work

Answer 57

Citrate

- for fresh whole blood only

Question 58

at what temperature do you administer the transfusion and in what time period do you give the blood

Answer 58

Warm to room temperature

• Water bath (37 °C)
• Do not heat > 39°C
  1. Start slowly (2-5ml/hr) for 20min to allow early recognition of transfusion reactions
  2. Check patient demeanour and TPR every 5 minutes
• As fast as you need in per acute, life-threatening situations
  3. Give remainder over 4 hours
  4. Check patient every 30min

Question 59

List the 3 types of whole blood and what they are used for

Answer 59

1) Fresh whole blood (FWB)
- RBCs, plasma proteins, all coagulation factors + some functional platelets
2) Stored whole blood
- RBCs, plasma proteins, stable coagulation factors but will lose the platelets
3) Autotransfused blood
- RBCs, plasma protein and clots!!
- result from with sepsis and neoplasia
Indicated in:
- Haemorrhagic shock
- Coagulopathy coupled with anaemia

Question 60

Packed Red Blood cells when used

Answer 60

• Anaemia where intravascular volume is normal
• Haemolysis (e.g., IMHA)
• Decreased production
• Slow, chronic loss
  • Low grade GI bleeds
  • Fleas
  ▪ FFP

Question 61

What conditions would you give a blood transfusion

Answer 61

1) look at cardiac output, haematocrit
2) hypovolaemia
3) acute anaemia sooner than chronic
4) PCV about 20% - compromised 02 Delivery

Question 62

How much blood do you need to give when giving a transfusion

Answer 62

As much is needed to establish cardiovascular stability - replace what has been lost

Question 63

What is Fresh Frozen plasma good for

Answer 63

• All clotting factors, antithrombin and anti-inflammatory proteins
• Thaw slowly in warm water bath
• Disorders of secondary haemostasis
  ○ Rodenticide, SIRS/sepsis, DIC
• 20ml/kg is a good starting point

Question 64

Hypoprotinaemia do you give blood transfusion

Answer 64

no just treat underlying disease

Question 65

What are some clinical signs of acute haemolytic reactions related to blood transfusions

Answer 65

○ Haemoglobinaemia/-uria
○ Vasoconstriction
○ Acute kidney injury
○ Systemic inflammatory response syndrome (SIRS)
Fever, restlessness, collapse - can be life-threatening
treat with IV fluids

Question 66

List the 3 ways you assess primary haemostasis

Answer 66

1) platelet count - thrombocytopaenia
2) buccal mucosal bleeding time
3) test for Van WIlliberg disease - genetic test via saliva sample

Question 67

Platelet count what tube used, what is the range in which bleeding occurs and what step also needs to be done if abnormally low

Answer 67

anticoagulant - citrate
normal 200-500x10^9
bleeding when 50x10^9
If abnormally low need to verify by doing a blood smear - if platelet clumps may not be identified as individual platelets, also large platelets (Cats) may not be identified as platelets

Question 68

Buccal mucosal bleeding time what does it measure, possible issues and when do it

Answer 68

Measures platelet function
could cause an issue with creating more bleeding, also dogs may not tolerate it
- If significant issue with primary haemostasis the bleeding time will be prolonged
- Only do if platelet count comes back normal or too high but everything else is saying it is a primary haemostatic disease - possibly a rarer one

Question 69

List the 3 tests of secondary haemostasis and what pathways they assess

Answer 69

1) ACT - intrinsic and common
2) APTT (factor 3 or tissue factor) - intrinsic pathway and common - more accurate than ACT
3) PT - extrinsic only - more accurate than ACT
Do APTT and PT together

Question 70

What level of functionality of coagulation factors does ACT and APTT and PT detect
What is normal ACT time and when used

Answer 70

ACT - function decreased to 5-10%
normal 60-65s used mainly with snake bites
APTT and PT - function decreased to less than 30%

Question 71

What occurs at the following body temperuatures

1. 34 degrees
2. 27-29 degrees
3. 45 degrees

Answer 71

1. mammals lose ability to regulate temp
2. cardiac fibrillation and death occur
3. fatal brain lesion can occur

Question 72

Core vs peripheral body temp

Answer 72

core generally higher than peripheral therefore rectal temp changes lag behind core

Question 73

What occurs with chronic exposure to cold

Answer 73

• The basal metabolic rate is increased by thyroxine (released when it’s cold) and the effect of catecholamines on fat to release more energy
• Neonatal have brown fat
  ○ Specialised vascular mitochondrial rick fat located between the scapulae
  ○ More sensitive to catecholamine induced metabolism
  Cells are largely uncoupled and mainly produce heat and very little ATP

Question 74

What is the main type of heat transfer from the tissues

Answer 74

circulatory convection
allows preferential redistribution of heat to conserve core temperature (this can protect the brain and major viscera)
- Alternatively heat can be preferentially directed to the skin to promote cooling by:
1. Dilation of the arterioles of the skin vascular beds
2. Opening the arteriovenous anastomoses in the limbs, ears and muzzle in distal extremities

Question 75

What occurs when hot and cold in terms of circulation on limbs and what other counter current exchanges are there in the body

Answer 75

• When environmental temperature is high, superficial veins are used for venous return
• When it is cold, deep veins are used
  1. The carotid Rete (spider web of arteries) - the carotid artery forms a rete bathed in a venous sinus that drains the nasal cavity
• This cools the blood going to the brain and is especially important during exercise - camels
  2. Air filled guttural pouches - surround the internal carotid artery and are believed to have a similar function

Question 76

Convection when important and how reduced

Answer 76

Important with juveniles/small animals in a breeze or current can rapidly lose heat

1. Piloerection
2. Thickness of the hair coat
3. Reducing the exposed surface area by curling in a ball or huddling together

Question 77

Evaporation when is it the only effective heat loss

Answer 77

if ambient temperature approaches body temperature =- depends on air humidity as well
Panting or sweating
sweating - sympathetic control - horses, cattle
panting - movement of small tidal volumes over respiratory dead space through the nasal turbinates - avoid resp alkalosis - dogs, sheep
Rabbits smear saliva or water over fur

Question 78

Temperature regulation, where in the brain, what sensors predominate and what occurs with small and large changes in temp

Answer 78

central receptors in Hypothalamus premodinate over peripheral
cold sensors in viscera predominate
- Small changes are handed by vaso-motor mechanisms such as piloerection and skin blood flow
- Large changes require evaporative cooling or thermogenesis (shivering and non-shivering)

Question 79

List the 4 temperature derangement

Answer 79

1. Fever
2. Heat stroke
3. Exercise induced hyperthermia
4. Malignant hyperthermia (pathologic and pharmacologic)

Question 80

Fever how occurs, why present and types of pyrogens

Answer 80

How - part of actue phase response to injury or infection - initiated by exogeous pyrogen that activate endoegenous pyrogens - enter hypothalamus and produce metabolites that rest body’s set-point
why - enhance leukocyte activity, reduce morbidity and mortality form infection, viruses are heat sensitive
pyrogens
exogenous - infectious and nonmicrobal (bile acid)
endogenous - cytokines

Question 81

Heat stroke how occurs and possible causes

Answer 81

1) temp increase above 41-42 cellular function impaired - organ damage - alteration of heat shock proteins - denaturing and inflammatory cascade activation
2) Inflammatory mediators cascade throughout the whole body, whole body starts reacting - vasodilation and holes in blood vessels leading to the multi-organ dysfunction
3) Hallmark of heat stroke is severe CNS derangement

Question 82

Heat stroke how occurs

Answer 82

1) temp increase above 41-42 cellular function impaired - organ damage - alteration of heat shock proteins - denaturing and inflammatory cascade activation
2) Inflammatory mediators cascade throughout the whole body, whole body starts reacting - vasodilation and holes in blood vessels leading to the multi-organ dysfunction
3) Hallmark of heat stroke is severe CNS derangement

Question 83

List possible causes and cosequences of heat stroke and treatment

Answer 83

causes - inadequate heat dissipation
consequences - renal failure, metabolic acidosis, DIC, gastro-intestinal failure, hepatic failure, myocardial failure
Treatment - total body cooling immediately and supportive care

Question 84

What occurs with exercise induced hyperthermia

Answer 84

• Similar pathway as heat stroke
• Causes include inappropriate amounts of exercise and secondary to seizures including seizures from eclampsia (low calcium)

Question 85

Malignant hyperthermia what is it, what associated with and causes

Answer 85

• A rapid and often relentless progressive increase in body temp
• Is associated with metabolic heat production due to disturbed intracellular calcium metabolism
• The calcium is released from the sarcoplasmic reticulum
• rare
  Causes
• Triggered by drugs
• Pathologic lesions affecting the hypothalamus - include neoplasia

Question 86

What is primary and secondary hypothermia

Answer 86

• Primary hypothermia is caused by excessive exposure to low environmental temperature - occurs at lower temperature than secondary
• Secondary hypothermia is a result of disease, trauma, surgery or drug-induced heat production and thermoregulation - generally have more profound clinical signs at higher temperature

Question 87

List some cardiovascular and respiratory responses to hypothermia

Answer 87

cardio
- increased HR and BP from catecholamine release but lose affinity - vasodilation - decrease CO and peripheral hypoxia
also left shift in oxygen dissociation curve - more O2 bound
Respiratory
- decreased cellular metabolism, decrease CO production, decrease stimulus to breath - decrease respiratory rate - pulmonary oedema, bronchopneumonia

Question 88

Neurological and metabolic effects of hypothermia

Answer 88

neurological
- unconsciouness, cereabral metabolism decreased
- if core temp 19-20 can still have brain function
metabolic
- acidosis from respiratory depression and tissue hypoxia, also shivering
- primary immune function impaired
- coagulation altered

Question 89

initial treatment of heat stroke and what not to do

Answer 89

• No ice bath - leads to vasoconstriction which results in no heat exchange which is what is needed to cool down the patient
• Spray water onto the patient and use a fan to promote evaporative cooling
• Cold intravenous fluids are given to reduce core body temperature

Question 90

Describe the following abnormailites from a blood sample from a patient with heat stroke

1) increased lactate
2) icnreased glucose
3) low pCO2
4) low HCO3

Answer 90

1) using anaerobic pathways within metabolism, not getting enough oxygen within blood or due to seizues of the animal
2) stress response
3) respiratory alkalosis due to panting but also compensatory method
4) metabolic acidosis - common

Question 91

What can result from severe heat stroke, treatment and prognosis

Answer 91

1) SIRS - systemic inflammatory response syndrome
- Global inflammation - can happen from infection, major trauma and heat stroke
- Heat shock proteins don’t work above 42o
2) DIC - Disseminated intravascular coagulation
- Presence of petechial and ecchymotic haemorrhages
Treatment
Normalise every body system - intensive monitoring