Physiological and Medical Considerations in the Winter Alpine Environment - PowerPoint PPT Presentation

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Physiological and Medical Considerations in the Winter Alpine Environment

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Title: Physiological and Medical Considerations in the Winter Alpine Environment


1
Physiological and Medical Considerations in the
Winter Alpine Environment
Altitude Illnesses
Hypothermia
Nutrition
Heat Loss
Heat Production
Hydration
Fitness
Taken from various internet and published sources.
2
Heat Lossroom temperature
  • Radiation 60
  • Evaporation 25
  • Convection 12
  • Conduction 3

What happens in the mountains?
3
Heat Gain
  • Metabolic heat production
  • Exercise
  • Sympathetic stimulation
  • Thyroid hormone
  • Shivering
  • Radiation, Conduction, Convection
  • Food

4
COLD STRESS
  • Types of cold Injury
  • Non-freezing
  • Trench Foot
  • Hypothermia exhaustion hypothermia
  • immersion hypothermia

5
COLD STRESS
  • Freezing
  • Frostbite
  • -Extremities are at risk nose, ears,
    fingers, toes, penis, etc.
  • -Never warm tissue if the potential for
    re-freezing exists.

6
COLD INJURY PREVENTION
Eat
Eat frequently to maintain energy. Drink plenty
of water. Avoid tobacco. Avoid alcohol
Drink
Reduces self-protection Reduces
shivering Diuretic
But don't be merry
7
COLD INJURY PREVENTION
  • Clothing
  • Clean and dry (avoid cotton)
  • Layered, loose, and light
  • Wear head protection
  • Avoid restriction of blood to
    extremities

8
Typical Conditions
Temperature?
Wind Speed?
9
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10
Hypothermia
  • 98.6 Normal function
  • 95 Distorted/slowed biomechanical reactions
  • 90 Decreased cerebral blood flow
  • Myocardial irritability, atrial fibrillation
  • 82 Ventricular fibrillation
  • 77 Changes in CV autoregulation, decreased HR
  • 65 Asystole
  • 61 Lowest reported adult hypothermia survival
  • 59 Lowest reported infant hypothermia survival

11
Central Nervous System EffectsHypothermia
  • Most apparent system affected
  • Slowing of speech, thinking, sensation
  • Apathetic, listlessness
  • Similar to stroke, head injury, or intoxication

12
Cardio-Respiratory Effects Hypothermia
  • Peripheral vasoconstriction
  • Increased blood viscosity
  • Decreased respiratory rate and volume
  • SA node dysfunction leads to lower cardiac output
  • Arrhythmias, V-fib
  • Death can result from cardiac arrest
  • (most common cause)

13
Muscular System Effects Hypothermia
  • Decreased function
  • Decreased nerve conduction velocity
  • Weak/slow contractions
  • Shivering can result in hypoglycemia

14
Brain
HYPOTHERMIA
Muscles
Heart
continuum
15
Types of Hypothermia
  • Mild
  • Rectal Temp 90 - 94F
  • Pale, cool
  • Varying degrees of confusion, disorientation,
    incoherence, and ataxic gait
  • May shiver uncontrollably
  • Fine movements of the hand effected
  • Tachycardia, tachypnea, cold diuresis

continuum
16
Types of Hypothermia
  • Moderate
  • Rectal Temp 82 - 90F
  • Impaired judgment
  • Dilated pupils
  • Muscle rigidity (shivering reflex is lost)
  • Decreased BP, HR, respirations
  • Cardiac arrhythmia
  • MUST BE WARMED

continuum
17
Types of Hypothermia
  • Severe
  • Rectal Temp lt 82F
  • Patient appears dead
  • Comatose
  • Muscles are unreflexive
  • Slow respirations, pulse
  • BP undiscernible
  • Arrhythmia leading to V-fib

continuum
18
Brain
HYPOTHERMIA
Muscles
Heart
continuum
19
Mild to Moderate Treatment
  • Passive Rewarming
  • Prevent further heat loss!!!
  • Remove from cold/wind environment
  • Remove wet clothing
  • Insulate the body
  • Keep patient supine

20
Mild to Moderate Treatment
  • Active rewarming
  • Best to provide heat internally
  • Warm humidified air or oxygen (112F max)
  • Warm IV (104F max) ?
  • Give warm fluids with sugar orally
  • External sources
  • Heating blankets, heat lamps, hot packs
  • Apply to trunk only
  • Use caution, Rewarming Shock
  • Check for frostbite

21
Severe Hypothermia Treatment
  • Passive rewarming
  • Be gentle, the heart is fragile
  • Maintain airway
  • CPR can cause a lethal arrhythmia
  • Assess pulse for 45-60 seconds
  • Defibrillation is usually ineffective lt 86F
  • Not dead until warm and dead

22
Severe HypothermiaDo Nots
  • Do not try to actively rewarm (rewarming shock)
  • Do not use direct heat
  • Do not let them consume alcohol

23
Rewarming Shock
  • When the shell warms before the core
  • Vasodilation can increase stress on heart
  • Blood pressure can decrease
  • Ventricular Fibrillation due to rapid return of
    cold blood to the heart

24
Frostbite
  • Ice crystals form in extracellular space
  • Most commonly effects
  • Feet and toes
  • Hand and fingers
  • Face and ears
  • Scrotum and penis can be affected
  • 3 degrees of frostbite
  • frostnip
  • superficial frostbite
  • deep frostbite

continuum
25
Predisposed to Frostbite
  • Constrictive clothing
  • Fatigue
  • Alcohol
  • Smoking
  • Medications
  • Atherosclerosis
  • Diabetes
  • Peripheral neuropathy
  • Raynauds Phenomenon

26
Frostnip
  • 1st stage of frostbite
  • Slow onset
  • Sometimes unrecognized
  • Skin color initially red, then turns white
  • Pain or numbness in area of discoloration
  • Skin surface and underlying tissue are still soft
  • No freezing of tissue

continuum
27
Treatment for Frostnip
  • Warm the affected area
  • Warm air
  • Warm water
  • Warmth from other body areas
  • May experience tingling or burning sensation
    during rewarming

28
Superficial Frostbite (2nd degree)
  • Skin and subcutaneous tissue is involved
  • White waxy appearance to mottled blue color
  • Skin surface is hard, but underlying tissue is
    still soft
  • Edema
  • Numbness or dull pain lasting for days

continuum
29
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30
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31
Superficial Frostbite Treatment
  • Transport as soon as possible
  • Rewarm the area
  • warm water (100 - 105F)
  • Insulate the area and maintain warm environment
  • Cover blisters with dressing
  • Do not put pressure on the area
  • Pain during rewarming is a good sign

32
Deep Frostbite (3rd degree)
  • Deeper structures are affected
  • Skin becomes white, then grayish yellow, and
    finally grayish blue
  • All sensation lost
  • Skin and underlying tissues become hard

continuum
33
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34
Deep Frostbite Treatment
  • If frozen
  • Leave frozen and pad area to protect from heat
  • Notify hospital
  • If partially thawed or hours away from hospital
  • Rewarm before transport (100 - 105F)
  • Insulate the area and maintain warm environment
  • Cover blisters with dry sterile dressing

35
Deep Frostbite Treatment
  • Transport as soon as possible
  • Limit movement even when thawed
  • Do not put pressure on affected area
  • If conscious - ok to give warm fluids
  • Late management might require debridement of
    necrotic tissue or amputation

36
FrostbiteDo Nots
  • Do not rub the area
  • ice crystals can cause damage
  • Do not thaw a frozen limb if there is a chance it
    will be refrozen
  • Refreezing causes more damage than extended
    freezing
  • Do not use direct heat such as a hair dryer or
    heating pad
  • Do not disturb blisters
  • Do not allow the person to smoke or use alcohol

37
Human Body and Fluids
38
Fluid Requirements
  • Rest 1 ½ liters a day
  • Normal activities 2 ½ liters a day
  • Mountaineering 6 liters a day

39
Dehydration
  • Symptoms
  • headache
  • dark urine
  • dizziness, nausea
  • weakness
  • dry mouth, tongue, throat, lips
  • lack of appetite
  • stomach cramps or vomiting
  • irritability
  • decreased amount of urine being produced
  • mental sluggishness
  • increased or rapid heartbeat
  • lethargic
  • unconsciousness

40
  • What is the universal symptom of dehydration?

Headache
41
Dehydration
  • Prevention
  • Start the day with 1-2 liters
  • Drink minimum of 3-6 liters of fluid per day
  • Do not wait until you are thirsty
  • Monitor urine color
  • Avoid sweating, alcohol, caffeine

Drink
Water
42
Dehydration
  • Treatment
  • drink water or other warm liquids
  • do not eat snow
  • rest

Drink
Water
43
Some Nutrition Facts
  • All forms of fuel are stored in the body and
    eventually broken down into glucose as needed
  • Carbohydrates Rapid, fuels stored in cells
  • Muscle protein broken down when carbohydrate
    stores are low
  • i.e. Carbohydrates will help prevent muscle loss
  • Fats mobilized for fuel when carbohydrates are
    low
  • will last for days to weeks

44
Nutritional Requirements
  • Basal 1400-2000 calories a day
  • Cold weather mountaineering 5000 calories a day

45
Nutrition
  • Long-term
  • Grazing diet
  • 40/30/30
  • Short-term
  • Carbs
  • Poorly tolerated
  • Fats

Debatable
46
Altitude Fitness
47
Factors Affecting Acclimatization
  • Age
  • Fitness
  • Medical conditions

48
General Fitness
  • It helps to be fit
  • After acclimatization,
  • the fit at low altitude will be fit at
    high altitude
  • but will be less fit than at low altitude

49
Normal Acclimatization
  • Heart rate ?
  • Respiratory rate ?
  • Breathless on exercise
  • Hungry
  • Urine output ?
  • Sleepy
  • Headache
  • All symptoms should disappear or get better after
    rest, food and water

Humm..what if the person doesnt get better?
50
Cardiovascular Fitness Training
  • Aerobic training
  • Exercise at 60-70 of maximum heart rate
  • Max HR220-age
  • Anaerobic training
  • Exercise at 100 of max HR for a couple minutes a
    few times a week

51
General Training
  • Strength
  • Free weight or machine work out
  • All major muscle groups twice a week
  • Flexibility
  • End with stretching, e.g., Yoga
  • Balance

52
Altitude Illness
Oxygen
AMS vs. HAPE vs. HACE
continuum
53
Mt. Baldy
Everest
54
AMS
55
Mechanisms of AMS
  • AMS is not directly caused by hypoxia
  • Oxygen levels throughout the body drop within
    minutes of exposure but AMS takes several hours
    to develop.

Mechanisms..........
56
Mechanisms of AMS
  • High intracranial pressure due to increased
    leakage of fluid may possibly cause AMS

brain leaks
57
Mechanisms of AMS
  • General fluid retention possibly via the
    renin-angiotensin-aldosterone system or
    antidiuretic hormone

kidneys slow output
58
What are the Predictors of AMS?
59
NOTHING
!
60
Risk Factors for AMS
  • Rapid ascent
  • Heavy exertion at altitude
  • Residence at sea level
  • Altitude, uncommon lt7,500 ft
  • Hx of prior AMS
  • Young age (less common at age gt50yrs)
  • Physical fitness not protective

61
AMS Differential Diagnosis
  • Dehydration
  • Hypothermia
  • Exhaustion
  • Hangover
  • Viral illness
  • Sedative or hypnotic medication
  • Carbon monoxide poisoning

62
Prevention of AMS
  • Spend a day or so at base camp before starting
    ascent
  • Once above 8,200 ft, do not climb higher than
    2,000 ft in 24 hrs
  • Climb high but sleep low
  • If climbing to over 9,800 ft in 1 day or with Hx
    of prior AMS or HACE, take prophylactic
    medications

63
Symptoms of Mild AMS
  • Headache
  • Malaise
  • Anorexia
  • Low urine output
  • Nausea/vomiting
  • Dizziness
  • Dyspnea on exertion
  • Dry cough
  • Inner chill

64
Any symptom of AMS should be considered due to
altitude unless proven otherwise.Headache is
the most common.
65
Natural History of Mild AMS
  • Usually self-limiting
  • If untreated may persist for weeks
  • May progress to moderate and severe forms of AMS
    or to death
  • Responds well to treatment

66
Moderate AMS
  • Ataxia
  • Single most useful sign for deterioration
  • Lassitude
  • Strange behavior
  • Confusion
  • Impaired judgement
  • Consciousness level ? ? coma
  • Shortness of breath

67
Treatment of Moderate AMS
  • Stay at altitude, do NOT go further
  • Descend if symptoms do not improve or get worse
  • Water
  • Rest
  • Deep breathing every 4-6 minutes
  • Diamox, Dexamethasone
  • Give oxygen if available
  • Use hyperbaric bag

68
If in doubt...
Go down
69
Prevention of AMS
  • Acetazolamide 125-250 mg twice a day ?
  • Ginkgo biloba 60 mg 1-3 times a day ?
  • Dexamethasone 4 mg four times a day
  • No support for nifedipine, furosemide, or codeine

70
HACE
71
High Altitude Cerebral Edema
  • Symptoms include those of AMS, plus
  • Any kind of neurological disorder ataxia,
    irrationality, hallucinations
  • Can be accompanied by hemorrhages or thrombosis
  • HACE is life threatening. Untreated, the person
    will fall to a coma and die within hours to one
    or two days.

72
High Altitude Cerebral EdemaTreatment
  • Descend!!
  • Hyperbaric chamber
  • Dexamethasone

73
HAPE
74
High Altitude Pulmonary Edema (HAPE)
  • Accounts for most deaths from high altitude
    illness but uncommon (0.1-0.4 of travelers
    gt7,500 ft)
  • Risk factors are same as from AMS
  • Cold is also a risk factor (increased PAP from
    sympathetic response)
  • More common in those with pulmonary vascular
    disease

75
Clinical Presentation of HAPE
  • Usually seen on 2nd night at altitude
  • Dry cough, then frothy sputum, then blood-tinged
    sputum
  • Crackly, rattlely breathing
  • Rapid breathing
  • Increased heart rate
  • Cyanotic lips, face, fingernails
  • Mild fever is common

76
Prevention of HAPE
  • Slow ascent (Climb high, sleep low)
  • Above 8,200 ft limit ascent to 2,000 ft daily.
    Add rest day every 2,000 4,000 ft
  • Acetazolamide, Ginko biloba, cocoa, anti-asthma
  • Special precautions in climbers with Hx of HAPE
  • Nifedipine
  • Salmeterol

77
Treatment of HAPE
  • Immediate descent mandatory
  • Supplemental oxygen
  • Hyperbaric therapy if available
  • Medication Nifedipine, Diamox
  • Mortality without medication- 50

78
Acetazolamide Diamox
  • Carbonic anhydrase inhibitor
  • Diuretic
  • Side effects
  • water loss, tingling, sulphur allergies
  • Dosage
  • 125-250 mg twice daily ?
  • start the day before the ascent
  • acetazolamide does not mask the symptoms of
    altitude sickness

79
Gingko Biloba
  • Might be useful
  • Recent studies suggest benefit at altitude
  • Possible alternative to acetazolamide for people
    with sulphur allergy
  • Dosage 60 mg 1-3 times/day ?

80
Coca
  • South American locals chew coca leaves
  • Exact mechanism not known
  • Seems to be useful

81
Anti-Asthmatic Medication
  • Seems to improve ventilation
  • Long term studies still pending
  • (what about asthmatics at altitude?)

82
Novel Approaches
  • Levitra
  • Cialis
  • Viagra

83
PORTABLE HYPERBARIC CHAMBER
84
THE GOLDEN RULES
If you feel unwell at altitude, it is high
altitude illness until proven otherwise. Never
ascend with symptoms of AMS. If you are getting
worse or have HACE or HAPE, get down immediately.
85
HAFE high altitude flatus expulsion
  • Expanding bowel gases at altitude
  • Irritating to your partners

86
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