Introduction - Body's Thermostat
- Thermoregulation: Physiological processes maintaining stable core body temperature (CBT) despite environmental changes.
- Normal CBT: 36.5-37.5°C (97.7-99.5°F).
- Hypothalamus: Central controller; integrates input from central & peripheral thermoreceptors.
- Anterior hypothalamus: heat dissipation.
- Posterior hypothalamus: heat production/conservation.
- Extreme environments: Conditions imposing significant heat or cold stress, challenging homeostasis.
⭐ The hypothalamus, particularly the preoptic area, acts as the primary thermoregulatory center.
Heat Exposure - Hot Pursuit Perils
Rapid rise in core body temperature overwhelms heat-dissipating mechanisms, leading to a spectrum of heat-related illnesses.
| Feature | Heat Exhaustion | Heat Stroke |
|---|---|---|
| Clinical Features | Profuse sweating, fatigue, nausea, headache, dizziness, pale/clammy skin. Normal mentation. | CNS dysfunction (delirium, seizures, coma), hot/dry skin (classic) or sweaty (exertional). |
| Core Temp | Normal to <40°C (<104°F) | >40°C (>105°F) |
| Management | Rest, cool environment, oral/IV fluids, remove clothing. | Rapid cooling (ice water immersion), ABCs, supportive care, transport ASAP. |
Management of Exertional Heat Stroke (EHS):
⭐ Anhidrosis in classic (non-exertional) heat stroke is a key differentiating feature from heat exhaustion, though sweating may persist in exertional heat stroke an important clinical point for diagnosis and management strategies in emergency settings for NEET PG aspirants focusing on thermoregulation pathologies under extreme environmental conditions.
Cold Exposure - Icy Impact Zone
Hypothermia: Core body temperature <35°C (95°F). 📌 COOLD for symptoms: Confused, Osborn waves (ECG), Obtunded, Low BP, Decreased RR.
Stages of Hypothermia & Management:
| Stage | Core Temp (°C) | Clinical Signs | Management Priorities |
|---|---|---|---|
| Mild | 32-35°C | Shivering, ↑HR, ↑RR, ataxia, dysarthria, apathy. | Passive external rewarming. |
| Moderate | 28-32°C | Shivering stops, ↓LOC, bradycardia, arrhythmias (AF), Osborn J wave (ECG), hypotension. | Active external rewarming. |
| Severe | <28°C | Coma, VF/asystole, areflexia, oliguria, pulmonary edema. No shivering. Risk of "afterdrop" during rewarming. | Active internal (core) rewarming. |
⭐ Paradoxical undressing and terminal burrowing behavior can occur in severe, often fatal, hypothermia.
Rewarming Techniques Flowchart:
Acclimatization - Adapt & Conquer
- Body's long-term physiological adjustments to prolonged exposure to environmental extremes, enhancing tolerance and performance.
| Feature | Heat Acclimatization | Cold Acclimatization |
|---|---|---|
| Key Changes | - ↑ Plasma volume - ↑ Sweating (earlier onset, ↑rate, ↓[NaCl]) - ↓ HR at workload - ↓ Core temp at workload | - ↑ Basal Metabolic Rate (Non-Shivering Thermogenesis via BAT) - ↑ Peripheral vasoconstriction effectiveness - ↑ Thyroxine, Norepinephrine |
| Timeline | 7-14 days (significant); up to 6 weeks (full) | Weeks to months; slower onset |
| Primary Mechanisms | Cardiovascular adjustments, ↑sweating efficiency | ↑ Metabolic heat production (NST), improved insulation (behavioral/long-term) |
High‑Yield Points - ⚡ Biggest Takeaways
- Heat acclimatization: ↑ plasma volume, ↑ sweat rate, ↓ sweat [NaCl], earlier sweating.
- Cold acclimatization: shivering, non-shivering thermogenesis (brown fat), peripheral vasoconstriction.
- Heat stroke: core temp > 40°C, CNS dysfunction; classic (anhidrotic) or exertional (sweating).
- Hypothermia: core temp < 35°C; ECG may show J waves (Osborn waves).
- Malignant hyperthermia: genetic, triggered by anesthetics, causes uncontrolled muscle hypermetabolism.
- Hypothalamus: anterior (heat loss), posterior (heat conservation/gain).
Continue reading on Oncourse
Sign up for free to access the full lesson, plus unlimited questions, flashcards, AI-powered notes, and more.
CONTINUE READING — FREEor get the app
