Lecture 2 - heatstroke (Walton)

Question 1

hallmark of heatstroke

Answer 1

severe CNS disturbance often associated with multiple organ dysfunction

Question 2

heatstroke is a severe illness charaterized by core temperature over __ in dogs as well as CNS dysfunction

Answer 2

105.8F

not common in cats

Question 3

exposure to high environmental temps is classified as __ vs strenuous exercise heat elevation is __

Answer 3

classical/non exertional heatstroke

exertional heatstroke

Question 4

predisposing factors to heat stroke

Answer 4

obesity 
thick coat 
exercise 
laryngeal paralysis 
CV dz 
CNS dz 
prior heatstroke 
hypothyroidism

Question 5

protective mechanisms from heat illness

Answer 5

thermoregulation
acclimatization
acute phase response
heat shock response protein production

Question 6

heatstroke occurs when __ outweighs heat disspipation

Answer 6

heat generation

Question 7

A rise in core temperature by __F sends stimulus to the hypothalamus causing peripheral vasodilation

Answer 7

1.8F

Question 8

2 Response mechanisms for heat dissipation

Answer 8

sensible (conduction, conveciton, radiation)

insensible (evaporation)

Question 9

70% of total body heat loss id due to __

Answer 9

radiation and convection (sensible response)

Question 10

CS of insensible response to dissipate heat

Answer 10

panting

Question 11

__ is part of the sensible response that allows unidirectional air flow through nose and out mouth increasing evaporative SA/heat loss

Answer 11

partial air system

Question 12

factors that increase body temperature which in turn alerts the hypothalamus

Answer 12

metabolism
environment
muscular activity

Question 13

how is heat lost via sensible response (radiation, conduction, convection)

Answer 13

hypothalamus increases sympathetic tone 
HR and CO increase 
splanchnic circulation decreases 
cutaneous vasodilation 
increased blood to muscle and skin = heat loss

Question 14

EXAM: evaporative cooling failure is caused by

Answer 14

environmental temps greater than body temp
or
humidity above 80%

Question 15

EXAM: Dehydration impairs thermoregulation by

Answer 15

decreasing evaporative heat loss as less water available for respiratory system

decreased heat dissipation through radiation and convection due to decreased blood flow to the periphery

Question 16

__ is an adaptive physiologic response to environment and climatic change

Answer 16

acclimatization

can take dogs 20d to partially acclimatize and 60d to fully acclimatize

Question 17

how do we acclimatize to compensate for increased temperatures

Answer 17

conserve salts; activate RAAS
conserve water to increase plasma volume; aldosterone and ADH
increase HR and CO

Question 18

a systemic co-ordinated response that involves endothelial cells, leukocytes, and epithelial cells to protect tissue from injury and promote repair

Answer 18

acute phase response/proteins (APP)

Question 19

Stimulants of APP

Answer 19

heatstroke 
bacterial/viral infection
trauma 
neoplasia 
burns 
strenuous exercise 
IM dz

Question 20

how do APP work?

Answer 20

modulate local and systemic acute inflamm response
stimulate hepatic produciton of anti-inflamm APP which inhibit production of reactive O2 spp and proteolytic enzymes
promotes wound healing and repair by stimulating endothelial cell adhesion, proliferation, and angiogenesis

Question 21

APP inhibit production of __ and release of ___

Answer 21

reactive O2 spp

proteolytic enzymes

Question 22

__ are regulatory molecular chaperones that protect cells from lethal stresses (protective proteins made when cells are stressed)

Answer 22

heatshock proteins

Question 23

heatshock proteins can be stimulated by

Answer 23

heat
ischemia
endotoxemia
oxidative and nitrosative stresses

Question 24

increased levels of heatshock proteins allows a transient state of __ to allow cell to survive lethal stage of heat stress

Answer 24

tolerance

Question 25

causes of reduced HSP

Answer 25

aging
lack of acclimatization
genetic polymorphisms

Question 26

HSP prevent protein __ and assist in __ protein to native configuration

Answer 26

breakdown

refolding denatured protein

Question 27

HSP in the gut prevent loss of __ barriers and prevent __ leakage

Answer 27

epithelial

endotoxins

Question 28

HSP interfer with oxidative stress and block the __ pathway

Answer 28

apoptosis

Question 29

HSP prevent arterial hypotension to __

Answer 29

decrease cerebral ischemia and neural damage

Question 30

HSP protect the CV by regulating

Answer 30

baroreceptor reflex response (abates hypotension and bradycardia)

Question 31

pathophys of CV collapse 1

Answer 31

drop in BP and CO = shock

core BT increase 
vasodilation of blood vessels 
decrease splanchnic blood flow 
reactive nitrogen and oxygen produced 
splanchnic arterioles dilate 

result decrease central venous pressure and CO = circulatory shock

Question 32

pathophys of CV collapse 2

Answer 32

circulatory failure

splanchinic vessels constrict
panting
dehydration
plasma volume depletion and hypoperfusion

results in hypovolemia, circulatory failure and decreased heat dissipation

Question 33

pathophys of CV collapse 3

Answer 33

arrythmias from hyperK+

indirect monocyte injury (hyperkalemia due to cell death) resulting in VPCs

Question 34

causes of indirect myocyte injury

Answer 34

hyperthermia 
circulatory shock
acidosis
electrolyte abnorms 
thormboembolism

Question 35

HS pathophys on the respiratory system

Answer 35

direct pulmonary epi injury
increased pulm vasculature resistance

causes: non-cardiogenic pulm edema, DIC, acute respiratory distress syndrome (ARDS)

may see alveolar pattern on rads

Question 36

HS pathophys on the kindeys

Answer 36

direct and indirect thermal injury
hypoxia (shunts blood away = decr GFR)
microthrombi (DIC)
Rhabdomyolysis (nephrotoxic myoglobin) exacerbates AKI

Question 37

the __ is intrinsically resistant to thermal injury

Answer 37

brain

Question 38

indirect HS injury to the CNS results in

Answer 38

cerebral edema
hemorrhage and necrosis
infarcts

Question 39

development of neurological derangement in HS is due to

Answer 39

ATP depletion

altered excitatory AA uptake by cells due to ATP depletion (uncontrolled excitation = seizures, death, coma)

Question 40

___ is the first system to take the hit in HS

Answer 40

GI

Question 41

what happens to the GI under HS

Answer 41

sepsis and endotoxemia

Hypovolemia - blood shunted - pooling and blood sludging in the splanchnic viscera lead to microthrombi = hypoxia and ischemia

GI integrity is lost (ulcers, sloughing) - bacteria translocate - sepsis and endotoxemia

Question 42

decreased blood flow to the liver causes reduced __ and leads to

Answer 42

detoxification

centrilobular necrosis and cholestatic liver dz

Question 43

direct damage to the capillary and venous endothelium by heat causes

Answer 43

DIC

1. damage = inflammation
   adherence of WBC and platelets
2. activates clotting cascade (Tissue factor) starting uncontrolled systemic coagulation
3. coagulation factors/platelets depleted
4. liver makes more coag factors
5. consumed again = DIC

Question 44

indirect cause of coagulation issues with HS

Answer 44

causes hemoconcentration

1. dehydration (panting and GI loss)
2. reduced viscosity of blood /sludge
3. decreased O2 tension = hypoxemia and microthrombi

Question 45

most common CS of HS

Answer 45

Panting
dry injected/hyperemic MM
tachycardia

Question 46

temperature in patient with HS

Answer 46

Depends on chronicity, if going on long enough patient may become hypothermic (these p usually die)

Question 47

CV CS of HS

Answer 47

Vaso collapse
weak pulses or pulse deficits
pale MM and incr CRT
arrythmias (v-tach, VPCs, afib)

Question 48

GI CS of HS

Answer 48

Vomiting
bloody diarrhea
mucosal sloughing
smells bad

Question 49

CNS CS of HS

Answer 49

coma 
obtunded (prostration) 
seizures 
ataxia 
blindness 
apnea 
tremors

Question 50

Coagulopathy CS of HS

Answer 50

Petechae/ecchymoses

hemorrhage

Question 51

3-5 days into HS may see

Answer 51

DIC
Renal failure
hepatic failure
GI damage

Question 52

RBC hematology findings on blood smear

Answer 52

NRBC’s

heat damages BM causing premature release of NRBCs, increased # = increased severity = worse prognosis (DIC, AKI, death more likely)

Question 53

why is there a thrombocytopenia on CBC in HS patient? how tx?

Answer 53

platelet consumption (vasculitis, GI bleed) 
hypertermia induced platelet aggregation 

this is transient; do NOT tx w/ steroids like w/ IMT p but give plasma, no jug v. sticks, support

prolonged PT/PTT is correlated with grave prog

Question 54

indicators on chm that there has been direct hepatocellular damage or hypoperfusion

Answer 54

increased ALP and ALT

*occurs w/in 24 hours of presentation

Question 55

renal value on chem in HS p

Answer 55

azotemia; pre-renal and/or renal causes

Question 56

HS causes muscle damage and decreased perfusion, you would expect to see what elevated values on serum chm

Answer 56

increased:
CK
ALT
Lactate

Question 57

__ will decrease on chem in HS bc it is being utilized or being produced less

Answer 57

glucose (hypoglycemia)

causes: increased ATP demand, sepsis (using too much) and liver dysfunction (not producing enough)

Question 58

mainstay tx of HS

Answer 58

Rapid cooling
O2
CV support (volume replacement)
manage secondary complications (shock, hypoglycemia, DIC, ARDS, renal failure)

Question 59

negative prognositc indicators for HS patients

Answer 59

degree of temperature elevation
duration of exposure

requires immediate cooling to increase survival

Question 60

recommendation for cooling HS patients

Answer 60

whole body wetting with tap water
muscle massage
blowing fan
RT or cooled IVF

Question 61

why shouldn’t you use alcohol to cool HS patient

Answer 61

fire hazard if defirbillation required!

Question 62

when to stop cooling?

Answer 62

d/c cooling at 103.5-104F to prevent rebound hypothermia

Question 63

how should o2 be supplied to HS p?

Answer 63

O2 cages are contraindicated due to overheating

should place nasal cannula and/or intubate and give PPV (if not responsing to O2 therapy, hypoventilating, arrest)

Question 64

for controlling initial hypotension with HS? if not responding to this tx?

Answer 64

IVF Crystalloids

synthetic colloids, positive inotropes/vasopressors (dopamine, epi)

want BP and pulse quality to increase, CRT and MM injection to decrease

Question 65

myocardial damage and conduction disturbances from HS appear w/in __ hours

Answer 65

36

should have constant telemetry/ECG

Question 66

most common arrhythmias seen with HS? when do you treat?

Answer 66

Vtach and VPCs

arrhythmia + hemodynamic compromise = treat with lidocaine

most idioventricular arrhythmia are not clinical/treated

Question 67

why should you intubate HS patients

Answer 67

to protect the airway and administer oxygen

CNS compromise = decreased swallow/gag protection = risk aspiration

Question 68

to prevent or reduce cerebral edema

Answer 68

O2
active cooling to decrease O2 req of brain
mannitol 
elevate head 
avoid jug compression
MAP over 80mmHg 
prevent hypercapnia (over 30mmHg)

Question 69

over half of HS patients will have __ which needs to be treated

Answer 69

hypoglycemia, tx w/ dextrose bolus or CRI

Question 70

renal system should be monitored closely; urine output should be __ and UA should be done to assess for urinary __ . If output is low then what can you do?

Answer 70

over 2mls/kg/hr
casts
keep BP above 80mmHg
furosemide, mannitol, dopamine PRN

Question 71

__ may be given to effect to provide clotting factors

Answer 71

fresh frozen plasma (10ml/kg)

Question 72

coagulation system should be monitored for

Answer 72

PT/PTT increase
FDP (fibrin degradation products) = DIC

the use of heparin to tx these patients is controversial

Question 73

GI ulceration and support

Answer 73

H2 antagonist (famotidine)
PPI (omeprazole)
con: increase bacteria in stomach bc decrease pH
antiemetic (maropitant or metoclopramide) min risk of asp pneumonia
parenteral nutrition to promote healing!
+/- if bacteremia ab

Question 74

monitoring required for HS patient

Answer 74

continuous! subjective and objective 
telemetry 
perfusion/shock/hydration
vital signs 
PCV/TS 
coag PT/PTT/AT
glucose 
lactate 
blood gas 
BP 
Urine output

Question 75

HS CV CS

Answer 75

drop in BP and CO = CV shock
Circulatory failure
Arrythmias (hyperK+)