One of the major challenges facing trekkers heading to Everest Base Camp or any other high elevation trek in the Himalayas is dealing with the potential threat of High Altitude Sickness. The primary cause of High Altitude Sickness is a decrease in the amount of available oxygen with altitude. To ensure you have a safe trek it’s important to be aware of this potentially life threatening condition and its symptoms. Everyone is susceptible to High Altitude Sickness and it is just as likely in physically fit persons as those who are unfit. This article is worth a read even if you have been to high elevations before without symptoms.
Cause of High Altitude Sickness
The primary cause of High Altitude Sickness is that amount of available oxygen in the atmosphere decreases with altitude. While the percentage of oxygen (21%) in the atmosphere remains constant the density of the atmosphere decreases so that the available oxygen when you take a breath becomes less. The decrease in density of the atmosphere is not linear and that density decreases more rapidly with increasing altitude so that the impact of going from 10,000 to 20,000 feet is not as significant as going from 20,000 to 30,000 feet.
Normal Symptoms at Altitude
It’s perfectly normal to have symptoms as a result of altitude which include; Hyperventilation (extra breathing), increased urination, restless sleep and Periodic breathing at night. Periodic breathing occurs during sleep and may result in you waking up and feeling you have missed a breath. Periodic breathing is also likely associated with restless sleep as your body tries to regulate itself and adjust its normal patterns.
Symptoms of High Altitude Sickness
One of the difficulties during the early stages of High Altitude Sickness is that the symptoms can be similar to other common conditions such as; dehydration, fatigue or the common cold or flu. It’s important to make the correct treatment choices and always error on the side of safety. One of the most common symptoms is the development of a High Altitude Headache. Diagnosis of High Altitude Sickness is made when a High Altitude Headache is present along with one or more of the following symptoms; loss of appetite, nausea, vomiting, fatigue/weakness, dizziness and serve insomnia. High Altitude Headache alone is not sufficient for a diagnosis and the trekker may decide to continue gaining elevation but should be on increased alertness for the development of other symptoms. If High Altitude Headache occurs along with at least one other symptom either descend in elevation or at least stay put until symptoms resolve.
High Altitude Sickness left untreated can advance to high altitude cerebral edema (HACE) or High Altitude Pulmonary Edema (HAPE). The symptoms of HACE are unmistakable as the individual will have a drunken like walk. The symptoms of HAPE are completely different and are as follows; coughing pink or frothy sputum, tightness of the chest, shortness of breath at rest, a gurgling breath as if the lung is congested, a bluish discoloration of the skin (Cyanosis) and/or an abnormally fast resting heart rate of over 100 HBM. Once HACE or HAPE develops death is possible within hours unless the trekker is immediately evacuated to a lower elevation. If someone has signs of HACE or HAPE its key that a responsible member(s) of the trekking party accompany this person to a lower elevation immediately no matter the time of day or the weather conditions.
Pulse Oximetry at High Altitude
Hand-held pulse oximeters are now commonly used in the diagnosis of High Elevation Sickness as well as HACE or HAPE. Oxygen saturation readings below 75% may be useful in the diagnosis of HAPE. A limiting factor in the use of the devices is that Oxygen saturation may remain normal as individuals tend to breathe faster at higher elevations and thus have normal readings. The common consensus is that their best use may be as a confirmation tool for someone who already has definitive symptoms of elevation sickness.
Medications to Prevent High Altitude Sickness
The most common medication used to prevent High Elevation Sickness is Diamox (Acetazolamide). This can be easily purchased on arrival in Kathmandu and a dose of 125mg twice daily starting 1 day before ascent has been suggested by the Everest Base Camp Medical Centre. If you already have High Elevation Sickness the dose can be increased to 250mg twice daily. It’s a common myth that this drug only masks the symptoms of High Elevation Sickness but it actually works to speed the natural acclimatization process by acidifying the blood and thereby stimulating the depth and frequency of your breathing. I personally don’t use the drug as a prophylactic (preventive measure) although I do carry it with me, have used it before and would not hesitate to use upon development of symptoms such as high altitude headache.
A recent study done on trekkers in Nepal suggests that three times daily dosage of ibuprofen at 600mg may be effective at reducing high elevation sickness. The caveat here is that while it may effectively reduce the symptoms of high altitude headache it may only be masking the impact of high elevation sickness.
The Facts about Proper Acclimatization
The best rate of acclimatization is to gain no more than 300m (1000 feet) per a day. If you increase this rate you will be much more susceptible to Elevation Sickness. This should be considered based on where you sleep at night and not how high or low you trek during day. In fact trekking higher during the day and then returning to a lower elevation to sleep can speed the rate at which you acclimatize but its not an excuse to break the basic rule.
Acclimatization and Trekking to Everest Base Camp
Our typical itinerary is as follows.
Kathmandu (1400m / 4,428 ft)
Phakding (2652m / 8698 Ft)
Namche Bazaar (3,440m / 11,283ft)
Tengboche (3,870m / 12,684ft)
Dingboche (4,400m / 14,435ft)
Lobuche (4,900m / 16,076ft)
Gorakshep (5180m / 16,994ft)
You might notice that between Phakding and Namche Bazaar as well as between Tengboche and Dingboche we gain more than 300m between sleep points. We make this up by providing an extra rest day for acclimatization at each location so that on average the trekker is gaining about 300m a day in elevation and is undergoing proper acclimatization.
Drinking Alcohol and Coffee at High Elevation
Alcohol is a member of the benzodiazepine family and as such can suppress breathing which results in lower blood oxygen levels so should be avoided as a general rule. On the other hand if you are feeling great a few beers at Namche Bazaar might not be a bad way to celebrate. My personal experience is that drinking pretty much any alcohol above 15,000 feet is a bad idea and will leave you feeling much worse than you might expect.
Coffee has no impact on acclimatization and if you typically drink several cups a day keep at it. If you are a regular coffee drinker be aware that stopping abruptly could cause a severe headache that might be confused with a high altitude headache.
Group Psychology and High Elevation Sickness
Several studies have suggested that individuals trekking in organized groups may be more susceptible to high elevation sickness. The postulated reasons are that individuals are impacted by group psychology and don’t want to cause difficulties for the group as a whole. It’s important to keep this in mind as an individual and maintain a level of self awareness. It’s better to rest a day and get proper acclimatization then deny symptoms which may result latter in an evacuation.
Personal Experiences at Everest Base Camp
I have trekked to Everest Base Camp three times and have not had any real difficulties asides from a high altitude headache. As a company (Himalaya Asuka) we have only had to evacuate several people out of the several thousand we have successfully guided to Everest Base Camp so the odds of any individual having a real problem are low. It is a real concern but it’s not a reason to put off your trip or avoid trekking at high elevations as long as you follow basic precautions. Our guides are well trained to notice any symptoms and if we are in doubt will escort you to a lower elevation. I wrote this article to summarize the general knowledge portion of a training brief we give to our guides which goes into more detail on other possible treatment options and high elevation evacuation procedures. If you have any specific questions or concerns don’t hesitate to email me at asukahimalaya@gmail.com