CCP 332 Environmental Emergencies 🥶

Question 1

define thermoregulation

Answer 1

the ability of humans and other mammalian species to internally regulate their body temperature

Question 2

define Primary (accidental) hypothermia

Answer 2

Caused by exposure and not secondary to infection, metabolic derangement, endocrinopathy, or trauma

Question 3

mild hypothermia “Stage 1 Hypothermia”

HT-1

Answer 3

1. Conscious
2. Shivering
3. Vital Signs present
4. Temp Celcius 32-35°C

Question 4

moderate hypothermia “Stage 2 Hypothermia”

HT-2

Answer 4

1. Altered Mental Status/decreased LOC
2. +- Shivering
3. Bradycardia +- hypotension
4. Temp Celcius 29-31°C

Question 5

severe hypothermia “Stage 3 Hypothermia”

HT-3

Answer 5

1. Unconscious
2. not shivering
3. Hypotension/Bradycardia
4. Acid/base issues
5. High risk for VF
6. Temp Celcius <29°C

Question 6

Cardiac arrest “Stage 4 Hypothermia”

HT-4

Answer 6

1. Unconscious
2. not shivering
3. Vital Signs ABSENT
4. Temp Celcius <29°C

Question 7

Mild Hypothermia (HT-I)

💵💵💵MONEY SLIDE💵💵💵

Answer 7

1. Temperature between 32-35°C (89-95°F):
2. Associated with shivering, cold diuresis, amnesia, ataxia.
3. Remove from the cold environment and use passive rewarming.

Tachycardia, tachypnea, shivering, impaired cognition, memory, and coordination.

Question 8

Moderate Hypothermia (HT-II)

Answer 8

1. Temperature between 29-31°C
2. Associated with dysrhythmias, change in mental status.
3. Use active external rewarming.

Bradycardia, bradypnea, hypotension, no shivering, stupor, atrial arrhythmias, sluggish reflexes.

Question 9

Severe/profound Hypothermia (HT-III or IV)

Answer 9

1. Temperature less than 29°C
2. Associated with hemodynamic instability or cardiac arrest, coma mimicking brain death.
3. Treated with ECLS. Alternatively, use invasive rewarming.

Marked hypotension or ventricular dysrhythmia, unresponsive, loss of reflexes, possible rales (pulmonary edema).

Question 10

describe the process of “passive rewarming” for mild-moderate hypothermia

Answer 10

1. Remove cold/wet clothing.
2. Provide oral glucose when appropriate to support shivering.
3. Insulate, preferably with warm blankets
4. If IV fluids are indicated, use warmed fluids.

Question 11

describe the process of “active rewarming” for moderate-severe hypothermia

Answer 11

1. Perform the mild hypothermia interventions
2. IV fluids via a warming circuit (Buddy-Lite). fluids can also be microwaved at high power for 2 min
3. Apply external rewarming devices (eg, Bair Hugger), water circulation pads (eg, Arctic Sun), radiant heat lamps, or hot blankets (Ready-Heat)
4. heat packs packed into groin, neck, and axilla
5. In MV patients, use 100% humidification and a circuit heater
6. In spontaneously breathing patients, heated humidification may be provided via CPAP. This provides an additional heat gain of up to 10-30%/hr

Question 12

describe the process of “minimal invasive rewarming” for moderate-severe hypothermia

Answer 12

1. Perform the mild and moderate hypothermia interventions AND the following
2. Avoid physical perturbations that may precipitate ventricular arrhythmias
3. Consider intubation
4. Place an esophageal temperature probe in intubated patients.
5. Place a 3-way urinary catheter for continuous irrigation of 42°C (107°F) fluids.
6. Use intravascular rewarming catheters such as the Alsius/Zoll ICY catheters, which are commonly used for post-arrest TTM protocols

Question 13

At what point does a patient count as “warm and dead” per established guidelines

Answer 13

core temp 32°C

Question 14

Contraindications to transfer for ECLS in the severely hypothermic patient

Answer 14

1. Core Temperature of 32°C (90°F) or greater
2. Noncompressible chest
3. Potassium level >12 mEq/L
4. DNR status
5. Clear primary cause of arrest that is not hypothermia, such as:
   - Witnessed arrest prior to hypothermia
   - Avalanche burial for less than 35 min or with a snow–packed airway
   - Drowning (head underwater prior to cooling)

Question 15

describe the process of “full invasive rewarming” for severe hypothermia

Answer 15

all of the above interventions plus:

1. Ongoing ACLS resuscitation
2. thoracic lavage or peritoneal lavage as temporizing measure to bridge to ECLS
3. continuous arteriovenous rewarming (CAVR)
4. ECLS/ECMO

Question 16

Cardiovascular and ECG changes associated with hypothermia

💵 💵 💵 MONEY SLIDE 💵 💵 💵

Answer 16

1. In initial phases of cold stress and mild hypothermia, autonomic stimulation → peripheral vasodilation + mild tachycardia, resulting in ↑ CO + MAP
2. As temperature continues to lower, ↓ inotropy + ↓ chronotropy occur despite autonomic input.
3. Depolarization and the conduction system are slowed → Osborn J waves
4. Diastolic dysfunction occurs, → increased CVP + PCWP → pulmonary edema
5. Conduction system dysfunction occurs → lengthening of PR interval, QRS complex, and QTc interval → dysrhythmias
6. temperatures less than 32°C → atrial ectopy/A-Fib
7. temperatures less than 25°C → VTach
8. temperatures less than 22°C → VFib
9. temperatures less than 20°C → Asystole

Question 17

4 types of heat transmission

Answer 17

Radiation
Convection
Conduction
Evaporation

Question 18

how far does the rectal probe go up the neonate’s butt?

Answer 18

5cm

Question 19

describe heat loss via “radiation”

Answer 19

1. Radiation is similar to heat leaving a woodstove
2. This normal process of heat moving away from the body usually occurs in air temperatures lower than 20°C
3. The body loses 65% of its heat through radiation
4. Core body tissues transfer heat in subcutaneous blood vessels which emit infrared rays from the skin surface to lose heat by radiation

Question 20

describe heat loss via “Convection”

Answer 20

1. Convection is similar to sitting in front of a fan or having the wind blow on you
2. represents the transfer of heat from a body to MOVING molecules such as air or liquid
3. The body normally loses 10% to 15% of its heat through convection

Question 21

describe heat loss via “Conduction”

Answer 21

1. Conduction is the type of heat loss u get from sleeping on the cold ground
2. Conduction is the loss of molecular kinetic energy in the form of heat from the skin to the surroundings.
3. Different mediums transfer heat by conduction at different rates. For example, the conductive transfer of water is 100x that of air (so heat can be lost from the body very quickly when it is placed in cold water)

Question 22

describe heat loss via “Evaporation”

Answer 22

1. Evaporation is heat loss of water from your skin if it is wet (sweating).
2. Under normal circumstances Evaporation accounts for about 22% of heat loss.
3. During intense exercise, the body loses 85% of its heat through sweating.
4. The body depends on evaporation for heat dissipation when the environmental temperature is warmer than the skin or when convection and radiation are insufficient.

Question 23

clinical features of Heat Cramps

Answer 23

1. Muscle pain and spasm
2. No signs of severe illness
3. Predisposing factors: heavy sweating, dehydration, insufficient sodium intake

Question 24

treatment of Heat Cramps

Answer 24

Hydration
Replace sodium losses
Relax, stretch, massage affected muscles

Question 25

clinical features of Heat Syncope

Answer 25

1. Pre-syncope or syncope
2. No significantly elevated temp
3. During or immediately after significant exertion or heat
   exposure

Question 26

treatment of Heat Syncope

Answer 26

1. Remove from heat stress
2. Horizontal position
3. Mental status and symptoms should resolve quickly

Question 27

clinical features of Heat Exhaustion

Answer 27

1. Can’t maintain CO d/t significant exercise +/- heat stress
2. Temp 38.3 – 40.0°C
3. No significant CNS dysfunction

Question 28

treatment of Heat Exhaustion

Answer 28

1. Remove from exertion/heat
2. Supine position
3. Cooling measures

Question 29

clinical features of Heat stroke

Answer 29

1. Heat Stress
2. Mod-severe CNS dysfunction
3. Hyperthermia (usually >40.0°C)
4. Risk of multi-organ dysfunction

Question 30

treatment of Heat stroke

Answer 30

1. Immediate rapid cooling
2. Supportive care (IV hydration)
3. Monitor for end-organ dysfunction

Question 31

Henry’s Law

Answer 31

Amount of gas that will dissolve in a liquid at a given temperature is directly proportional to the partial pressure of that gas

Question 32

Submersion definition

Answer 32

airway below surface of liquid

Question 33

Immersion definition

Answer 33

airway above surface of liquid

Question 34

Immersion syndrome definition

Answer 34

syncope resulting from cardiac dysrhythmias on sudden contact with water that is at least 5°C lower than body temperature

Question 35

Drowning definition

Answer 35

A process resulting in primary respiratory impairment from submersion or immersion in a liquid medium

Question 36

clinical features of Acute Mountain Sickness

Answer 36

1. Recent ascent to >2500m (8000ft)
2. Headache plus any 1 of: GI upset; General weakness/fatigue; Dizziness/lightheadedness; Sleeping difficulty
3. Sx develop within hours
4. Peak 24-48h

Question 37

clinical features of High-Altitude Cerebral Edema (HACE)

Answer 37

1. Typically >3000m
2. Usually preceded by AMS
3. Encephalopathic symptoms
   – Ataxic gait
   – Lassitude
   – Progressive decline in cognitive function and LOC

Question 38

Acute Mountain Sickness treatment

Answer 38

• Stop ascent, rest
• Acetaminophen, ibuprofen for headache
• Oxygen therapy
• Acetazolamide
– Stimulates resp center
– Diuresis
– Decreases nocturnal periodic breathing
• Dexamethasone (moderate-severe sx)

Question 39

High-Altitude Cerebral Edema (HACE) treatment

Answer 39

• Immediate descent
• Oxygen therapy
• Dexamethasone
• Hyperbaric therapy

Question 40

clinical features of High-Altitude Pulmonary Edema (HAPE)

Answer 40

• Most common fatal manifestation of severe high-altitude illness
• Insidious 2-4d after ascent to ~>8000ft
• Dyspnea
• Fatigue
• Cough
• May progress to respiratory failure

Question 41

High-Altitude Pulmonary Edema (HAPE) Treatment

Answer 41

• Immediate Descent
• Oxygen therapy
• Intubation and MV prn
• Nifedipine (pulmonary vasodilator)
• DO NOT treat as volume overloaded/CHF

Question 42

Type 1 Decompression sickness (DCS I) clinical features

Answer 42

1. pain in girdles and extremities

2. Involves skin, muscles, joints, lymphatics

Question 43

Type 2 Decompression sickness (DCS II) clinical features

Answer 43

• Cerebral – altered LOC or non-specific focal deficits
• Spinal “bends”– Lumbar most common – pain, paresthesias, weakness, sensory loss, back and abdo pain
• Inner ear “staggers” – cochlear and vestibular symptons – N/V, vertigo, nystagmus, hearing loss
• Pulmonary ”chokes” – dyspnea, cough, chest pain

Question 44

pathophysiology of pulmonary barotrauma 2nd to SCUBA diving

Answer 44

Too fast of an ascent or failure to exhale during ascent → Volume expansion of alveoli → alveolar rupture or hemorrhage

• Pneumothorax
• Pneumomediastinum/subcutaneous emphysema
• Pulmonary hemorrhage