Altitude Sickness Risk Calculator
Track your altitude sickness risk with our free sports calculator. Get personalized stats, rankings, and performance comparisons.
Formula
Total Risk = Base Risk + Rate Risk + AMS History Risk + Age Risk + Hydration Risk + Exertion Risk
Base risk is determined by target altitude tier. Rate risk penalizes ascent speeds over 300m/day. AMS history adds 20% for prior episodes. Age risk accounts for younger and older susceptibility. Hydration and exertion risks reflect controllable behavioral factors. All components sum to a capped percentage between 5% and 95%.
Worked Examples
Example 1: Fast Ascent to High Camp
Problem: A 28-year-old with no AMS history ascends to 4,200m at 700m/day, with hydration 5/10 and high exertion 8/10.
Solution: Base risk at 4,200m (>3,500m) = 35%\nRate risk (700m > 600m/day) = 15%\nAMS history = 0%\nAge risk (28, 25-50) = 0%\nHydration risk = (7-5)*3 = 6%\nExertion risk (8 > 7) = 10%\nTotal risk = 35 + 15 + 0 + 0 + 6 + 10 = 66%
Result: Risk: 66% (High) - Strongly recommend slowing ascent rate and increasing hydration
Example 2: Conservative Trek with History
Problem: A 45-year-old with previous AMS ascends to 3,800m at 350m/day, good hydration 8/10, and moderate exertion 5/10.
Solution: Base risk at 3,800m (>3,500m) = 35%\nRate risk (350m, 300-400m/day) = 3%\nAMS history = 20%\nAge risk (45, 25-50) = 0%\nHydration risk = max(0, (7-8)*3) = 0%\nExertion risk (5, not >5) = 0%\nTotal risk = 35 + 3 + 20 + 0 + 0 + 0 = 58%
Result: Risk: 58% (High) - Prior AMS history significant; consider acetazolamide prophylaxis
Frequently Asked Questions
What is altitude sickness and what causes it?
Altitude sickness, also known as acute mountain sickness or AMS, is a condition caused by reduced oxygen availability at high elevations. As you ascend above 2,500 meters, the decreasing atmospheric pressure means each breath contains fewer oxygen molecules, leading to hypoxia or insufficient oxygen in body tissues. The brain and lungs are particularly sensitive to this oxygen deficit. Symptoms typically begin 6 to 12 hours after reaching a new altitude and include headache, nausea, fatigue, dizziness, and disturbed sleep. The condition affects approximately 25 percent of people ascending to 2,500 meters and up to 75 percent of people above 4,500 meters, regardless of age or fitness level.
What are the different types of altitude illness?
There are three main forms of altitude illness with increasing severity. Acute Mountain Sickness is the mildest form, presenting with headache, nausea, fatigue, and loss of appetite, affecting 25 to 75 percent of trekkers depending on altitude and ascent speed. High Altitude Pulmonary Edema, known as HAPE, occurs when fluid accumulates in the lungs, causing breathlessness at rest, persistent cough, and decreased exercise tolerance, with an incidence of 0.1 to 4 percent above 4,000 meters. High Altitude Cerebral Edema, or HACE, is the most dangerous form where brain swelling causes confusion, ataxia, and altered consciousness, occurring in 0.5 to 1 percent of people above 4,500 meters. Both HAPE and HACE can be fatal within 24 hours without treatment.
How does ascent rate affect altitude sickness risk?
Ascent rate is the single most controllable risk factor for developing altitude sickness. Ascending faster than 500 meters per day in sleeping altitude above 2,500 meters significantly increases AMS risk from roughly 25 percent to 50 percent or higher. The body requires approximately 24 to 48 hours at each new altitude to begin the acclimatization process, including adjusting ventilation rates, blood pH, and fluid balance. Rapid ascent does not allow these physiological adaptations to keep pace with decreasing oxygen availability. Studies show that ascending at 300 to 400 meters per day reduces AMS incidence to under 15 percent. Even highly fit individuals who ascend quickly are susceptible because cardiorespiratory fitness does not accelerate the underlying biochemical adaptation processes.
Does previous altitude sickness history increase future risk?
Yes, a history of altitude sickness is one of the strongest predictors of future susceptibility, increasing risk by approximately 60 to 70 percent compared to individuals with no prior episodes. This susceptibility appears to have a genetic component related to individual variation in the hypoxic ventilatory response, the degree to which breathing increases in response to low oxygen. People who have experienced AMS in the past tend to have blunted ventilatory responses that are inherited traits rather than conditions that improve with training. However, having a history of AMS does not make altitude ascent impossible. It means that more conservative ascent profiles, longer acclimatization periods, and prophylactic medications like acetazolamide should be seriously considered for future high altitude ventures.
How does hydration affect altitude sickness risk?
Proper hydration plays a significant role in altitude sickness prevention through several physiological mechanisms. At high altitude, the body loses moisture faster through increased respiratory water loss due to higher breathing rates and lower humidity, and through increased urination as the kidneys excrete bicarbonate during acclimatization. Dehydration thickens the blood, reducing its oxygen-carrying efficiency at a time when oxygen delivery is already compromised. Research indicates that maintaining hydration of 3 to 4 liters per day at altitude reduces AMS symptoms by 20 to 30 percent compared to under-hydrated individuals. However, overhydration should be avoided as it can cause hyponatremia, a dangerous condition where blood sodium levels become diluted. Clear to light yellow urine color is the best practical indicator of adequate hydration.
What is the Lake Louise Scoring System for altitude sickness?
The Lake Louise Acute Mountain Sickness Score is the internationally standardized diagnostic tool developed by the International Society for Mountain Medicine for assessing altitude illness severity. It evaluates five symptom categories: headache (0-3 points), gastrointestinal symptoms like nausea and vomiting (0-3 points), fatigue or weakness (0-3 points), dizziness or lightheadedness (0-3 points), and difficulty sleeping (0-3 points). A total score of 3 to 5 with the presence of headache indicates mild AMS. Scores of 6 to 9 suggest moderate AMS requiring rest and possible descent. Scores of 10 or above indicate severe AMS requiring immediate descent and medical treatment. The scoring system is self-administered and should be repeated every 12 hours when above 2,500 meters.