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Heatstroke Sun Stroke Acute Management and Prevention

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Title: Heatstroke Sun Stroke Acute Management and Prevention


1
HeatstrokeSun StrokeAcute Management and
Prevention
  • Dr. Aidah Abu El Soud Alkaissi
  • BSc Law, RN, BSc, MSc, PhD

2
HeatstrokeSun Stroke
  • Caused by overexposure to sun and extremely high
    temperatures
  • occurs when the brain fails to control its own
    "thermostat".
  • Its a life-threatening condition which can cause
    a casualty to become unconscious within minutes.
  • As well as an unusually high temperature, a
    casualty may show signs of restlessness,
    headaches and hot, flushed skin.

3
HeatstrokeSun Stroke
  • The underlying cause of heat stroke is connected
    to the sometimes sudden inability to dissipate
    (To drive away) body heat through perspiration,
    especially after strenuous physical activity

4
HeatstrokeSun Stroke
  • This accounts for the excessive rise in body
    temperature.
  • It is the high fever which can cause permanent
    damage to internal organs, and can result in
    death if not treated immediately.
  • Recovery depends on heat duration and intensity.
  • The goal of emergency treatment is to maintain
    circulation and lower body temperature as quickly
    as possible.

5
Definition
  • core temperature gt 41 C OR- core temp gt 40.5
    C with anhidrosis (absence or severe deficiency
    of sweating), altered mental status or both

6
Classification
  • exertional typically seen in healthy young
    adults who overexert themselves in high ambient
    (Surrounding) temperatures or in a hot
    environment to which they are not acclimatized
    (To adapt).
  • Patients sweat normally.- non-exertional
    (classic) usually affects elderly and
    debilitated patients with chronic underlying
    disease. Result of impaired thermoregulation
    combined with high ambient temperatures. Often
    due to impaired sweating

7
Pathophysiology
  • Substantial fluid shift from central compartment
    to periphery. Reversible on cooling- cardiac
    output increased (3 l/min per C increase in
    rectal temperature). May fail in patients with
    limited cardiac reserve- mediators such as
    endotoxin and cytokines are implicated in the
    pathogenesis of organ damage in heat stroke-
    intractable Disseminated Intravascular
    Coagulation (DIC) is usual mode of death in fatal
    cases

8
Predisposing factors
  • Increased heat production
  • - hyperthyroidism- exercise- sepsis

9
  • Impaired heat loss -Impaired sweating
  • Drugs- anticholinergics, anti-Parkinsonian
    drugs, anti-histamines, butyrophenones,
    phenothiazines, tricyclics
  • Abnormal sweat glands- sweat gland injury
    following acute heat stroke, barbiturate
    poisoning- cystic fibrosis- healed thermal burn
  • salt and water depletion- diuretic induced
  • Hypokalemia

10
  • Impaired voluntary mechanisms
  • coma
  • physical disability
  • mental illness

11
  • Impaired delivery of blood to peripheral
    circulation
  • cardiovascular disease
  • hypokalemia (decreased muscle blood flow)
  • dehydration

12
  • Others
  • - elderly- high ambient temperature and
    humidity, poor ventilation- lack of
    acclimatization- obesity- fatigue- DM-
    malnutrition- alcoholism

13
Clinical features
  • often little in the way of warning prodrome (An
    early symptom indicating the onset of an attack
    or a diseas) prior to development of
    non-exertional heat stroke (classic heat stroke).
  • As thermoregulatory mechanisms fail body
    temperature rises rapidly and patient can
    deteriorate rapidly from apparent baseline health
    to coma or an obtunded state

14
Clinical features
  • 3 cardinal signs are
  • CNS dysfunction
  • hyperpyrexia (core temperature gt40 C)
  • hot dry skin. Pink or ashen depending on
    circulatory state. However may be clammy and
    sweat

15
CNS
  • Direct thermal toxicity causes cell death,
    cerebral oedema and local haemorrhage-
    irritability or irrational behaviour may precede
    the development of either form of heatstroke-
    confusion, aggressive behaviour, delirium,
    convulsions and pupillary abnormalities may
    progress rapidly to coma- decorticate
    posturing, faecal incontinence, flaccidity or
    hemiplegia (however focal signs are unusual)

16
  • cerebellar signs, including ataxia and dysarthria
    (Speech that is characteristically slurred, slow,
    and difficult to produce (difficult to
    understand). may be permanent in a few patients.
    Cerebellum particularly sensitive to heat-
    hypothalamic damage may exacerbate heat stroke by
    further impairing sweating and heat loss- LP may
    show increased protein, xanthochromia (is the
    yellow discoloration indicating the presence of
    bilirubin in the cerebrospinal fluid (CSF) and
    slight increase in lymphocytes

17
CVS
  • - tachycardia- hypotension or normotension with
    wide pulse pressure- hyperdynamic haemodynamic
    profile- myocardial pump failure. Myocardial
    damage and frank infarction frequent even in
    patients with normal coronaries due to the effect
    of heat on myocytes and coronary hypoperfusion
    secondary to hypovolaemia

18
ECG of a patient with a core temperature of 40C
dysrhythmias
19
Same patient after cooling
20
RS
  • - extreme tachypnoea with RR up to 60/min-
    crackles and cyanosis late signs of pulmonary
    oedema- direct thermal injury to pulmonary
    vascular endothelium may lead to cor pulmonale or
    Acute respiratory distress syndrome (ARDS)

21
Metabolic
  • Dehydration leading to raised urea and
    creatinine, and haemoconcentration- sweating
    leading to low levels of Na, Mg, K, early in the
    illness. Hypokalaemia decreases sweat secretion
    and therefore exacerbates the condition-
    rhabdomyolysis resulting in hyperkalaemia,
    hypocalcaemia and renal failure- metabolic
    acidosis and respiratory alkalosis common.

22
Rhabdomyolysis
  • A condition in which skeletal muscle cells break
    down, releasing myoglobin (the oxygen-carrying
    pigment in muscle) together with enzymes and
    electrolytes from inside the muscle cells. The
    risks with rhabdomyolysis include muscle
    breakdown and kidney failure since myoglobin is
    toxic to the kidneys.

23
  • Hyperthermia alone can cause primary
    hyperventilation and respiratory alkalosis, while
    hypoperfusion, tissue hypoxia, and anaerobic
    metabolism may lead to lactic acidosis with
    respiratory compensation. Former less common.

24
Renal
  • Some renal damage occurs in nearly all patients
    as a direct result of heat
  • potentiated by dehydration and Rhabdomyolysis
  • acute renal failure 5-6 times more common in
    patients with exertional heat stroke in whom it
    occurs in 30-35

25
Splanchnic
  • Ischaemic intestinal ulceration common. May lead
    to haemorrhage
  • Hepatic damage common. In 5-10 hepatic necrosis
    may be severe enough to cause death

26
Haematological
  • Anaemia and bleeding. Result from direct
    inactivation of platelets and clotting factors by
    heat
  • liver failure
  • unexplained decrease in platelets and
    megakaryocytes (The source of blood platelets)
  • platelet aggregation due to heat
  • DIC. Due to activation of clotting cascade by
    damaged vascular endothelium. Latter may be
    damaged as a direct result of heat

27
Investigations
  • temperature- electrolytes, urea, creatinine,
    calcium- LFTs- CPK- ABG note that Paco2 and
    Pao2 will be falsely low and pH falsely elevated
    if results are not corrected for temperature-
    ECG and ECG monitoring- urine output- FBC,
    clotting, fibrinogen, FDP, D-dimer. Anaemia
    frequent. Platelets low/normal. Lymphocytosis-
    test urine for myoglobin

28
Symptoms of Heatstroke or Sunstroke
  • Headache, nausea, dizziness
  • Red, dry, very hot skin (sweating has ceased)
  • Pulse-strong rapid
  • Small pupils
  • Very high fever
  • May become extremely disoriented
  • Unconsciousness and possible convulsions

29
If exposure to heat continues, the body
temperature rises and heatstroke may develop,
causing symptoms such as
  • 1.Cessation of sweating2.      Body temperature
    of 105 degree Fahrenheit or higher3.      Rapid
    and shallow breathing4.      Rapid
    heartbeat5.      Elevated or lowered blood
    pressure6.      Confusion and disorientation7.  
        Seizure8.      Fainting, which may be the
    first sign in older adults

30
  • Left untreated, heat stroke may progress to coma.
    Death may result due to kidney failure, acute
    heart failure, or direct heat induced damage to
    the brain. 

31
First Aid for Heatstroke or Sunstroke
  • HEATSROKE IS LIFE THREATENING!
  • Remove victim to cooler location, out of the sun
  • Loosen or remove clothing and immerse victim in
    very cool water if possible
  • If immersion isn't possible, cool victim with
    water, or wrap in wet sheets and fan for quick
    evaporation
  • Use cold compresses-especially to the head neck
    area, also to armpits and groin

32
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34
First Aid for Heatstroke or Sunstroke
  • Seek medical attention immediately--continue
    first aid to lower temp. until medical help takes
    over
  • Do NOT give any medication to lower fever--it
    will not be effective and may cause further harm
  • Do NOT use an alcohol rub
  • It is not advisable to give the victim anything
    by mouth (even water) until the condition has
    been stabilized.

35
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36
Once in the hospital, an examination is done, and
blood tests are carried out to assess the level
of salts in the blood.
  • Treatment of heat stroke is usually carried out
    in a critical care unit.
  • The body temperature is lowered by sponging the
    body with tepid water or loosely wrapping the
    person in a wet sheet and placing him or her near
    a fan.
  • Intravenous fluids are given.

37
  • Once the body temperature has been reduced to 100
    degree F(38 degree), these cooling procedures are
    stopped to prevent hypothermia (below) from
    developing.
  • Monitoring is still carried out continuously to
    make sure that the body  temperature returns to
    normal level  and that the vital organs are
    functioning normally

38
  • In some severe cases, mechanical ventilation may
    be required to help breathing.

39
  • when temperature approaches 39 active cooling
    should be terminated as the body temperature will
    continue to fall 1-2 C
  • - chlorpromazine 10-50 mg IV 6hrly may be useful
    in preventing shivering
  • - use of dantrolene controversial. Probably
    should not be used routinely at present.

40
Dantrolene
  • A skeletal muscle relaxant, used as the sodium
    salt in the treatment of chronic spasticity and
    the treatment and prophylaxis of malignant
    hyperthermia (Malignant hyperthermia is an
    inherited disease that causes a rapid rise in
    body temperature (fever) and severe muscle
    contractions when the affected person receives
    general anesthesia

41
Some medicines can put the patient in danger of
heatstroke.
  • Allergy medicines (antihistamines)
  • Cough and cold medicines (anticholinergics)
  • Blood pressure and heart medicinesAlpha
    andrenergics such as midodrine (one brand
    ProAmatine) or pseudoephedrine (one brand
    Sudafed)Beta blockersCalcium channel blockers
  • Diet pills (amphetamines)
  • Irritable bladder and irritable bowel medicines
    (anticholinergics)
  • Laxatives

42
Some medicines can putthe patient in danger of
heatstroke.
  • Mental health medicinesBenzodiazepines such as
    clonazepam (one brand Klonopin), diazepam (one
    brand Valium), chlordiazepoxide (one brand
    Librium) NeurolepticsTricyclic antidepressants
  • Seizure medicines (anticonvulsants)
  • Thyroid pills
  • Water pills

43
Supportive
  • IV volume replacement. Note that many of these
    patients only require 1-1.2 l of replacement
    fluid- if inotrope required dobutmine probably
    drug of choice- urgent treatment of
    hyperkalaemia - do not treat hypocalcaemia per
    se only give calcium if ECG changes of severe
    hyperkalemia occur as calcium may exacerbate
    rhabdomyolysis- small dose of mannitol may
    benefit patients with rhabdomyolysis

44
Preventing heat-related illness
  • Dress for the heat Wear lightweight,
    light-coloured clothing. Light colours will
    reflect away some of the suns energy. It is also
    a good idea to wear hats or to use an umbrella.
  • Drink water Carry water or juice with you and
    drink continuously even if you do not feel
    thirsty. Avoid alcohol and caffeine, which
    dehydrate the body.
  • Avoid foods that are high in protein, which
    increase metabolic heat.
  • Stay indoors when possible.
  • Take regular breaks when engaged in physical
    activity on warm days.
  • Take time out to find a cool place.
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