Do Altitude Masks Work?
In a word “yes”
Altitude masks have 2 main physiological effects:
1. They generate a hypoxic Training environment – by restricting oxygen intake
2. They strengthen respiratory muscles – by making it more difficult to breathe in and out
The majority of research suggests that point 1. is ineffective, however strengthening respiratory muscles with some form of a resisted-breathing-apparatus has been shown to be of benefit to athletes as well as those with lung issues such as asthma.
Altitude Training – Live High, Train Low
Your body probably isn’t going to produce more red blood cells if you only wear the training masks for a few hours per week.
In theory it could actually reduce the amount you produce, by lowering your training intensity i.e. how hard you are able to work in a training session.
Going back in time to 2004, whilst in university, we covered altitude training quite extensively.
It may have changed but the consensus was that training a sea-level, whilst living (or sleeping) at altitude was the best way to increase endurance and V02Max.
The issue with training at altitude is that it’s not physically possible to maintain a high intensity of training (relative to sea level).
If you can run 1500m in 4 minutes at sea level, due to the lack of oxygen, you’d be lucky to do it under 5 minutes at a 2,000m altitude.
If you spend a few weeks living up in the mountains however, your body will start to produce more Red Blood Cells to compensate for the lack of oxygen in the air at heights above 2,000m.
Take yourself and your extra red blood cells back to sea level and you should be able to set a new PB for the 1500m; assuming everything else has remained equal.
The additional red blood cells will allow your body to transport more oxygen to the working muscles in a given time period.
Training at sea level, and then returning to altitude, will mean that your body can adapt to the altitude and produce more red blood cells, and you can still develop other aspects of fitness including muscular endurance whilst training at sea level.
Training masks, simulate altitude, to a certain extent in that they reduce the amount of oxygen that your body takes in and can utilise.
However, unless you wear the mask all day, and then take it off when you train, you’ll never create the optimum – “Live High, Train Low” protocol that makes altitude training effective.
You’re doing the opposite – i.e. “living Low, Training High”.
If you put the mask on during training, you are restricting the amount of oxygen for an few hours a week only.
This is not an effective way to get the body to adapt and produce more red blood cells. The body probably (almost definitely) won’t do this, as you’re spending 23 hours a day in a normal, oxygenated environment.
In addition, training with the mask on, will probably make oxygen intake the limiting factor/weakest link in your training session; meaning that other aspects of fitness are unlikely to improve.
Resisted Breathing – Get Jacked Lungs
Resisted breathing devices like an altitude mask, or a Power Breather could strengthen the muscles involved in breathing, and therefore enhance an athlete’s performance/endurance.
Much of the research on “respiratory muscle training” is on people with some kind of compromised cardiovascular system, such as those with asthma or Chronic Obstructive Pulmonary Disease.
In fact, having read some of the research on respiratory muscle training a decade ago, I invested in a Power Breather for my asthma.
The idea was to use it every night, rather than whilst training. A bit like a weight lifting programme, the Power Breather is designed to improve the strength of the diaphragm (and the intercostal muscles) to make more breathing more efficient and therefore more resistant to the impact of asthma.
It seems to have worked – but a vague personal anecdote isn’t really a convincing argument for strapping on a gas mask whilst you train. In addition, training to offset asthma is different to training for improving endurance in healthy athletes.
There is research for and against training masks, but I couldn’t find any conflicts of interest in the research that supported there use.
If you’re still unsure you can do a search on Google Scholar and make your own mind up. Warning – there’s a lot of irrelevant studies to sift through.
Research on Training Masks
The Effects of Simulated Altitude Training on Aerobic Capacity and Function
This study investigated a 6 week intervention utilizing the Elevation Training Mask (ETM) in conjunction with an Intermittent Hypoxic Training (IHT) protocol to promote a hypoxic condition while still training at sea level.Participants were randomly assigned into one of two groups; a Training Mask (TM) group and Non-Training Mask (NTM) group. Both groups trained at moderate to high intensity (65%-75% of their heart rate reserve) for 15 minutes, 2 times per week for 6 weeks. A one way ANOVA was used in order to determinebetween group differences and a dependent t– test was then used to determine within group differences.The Results of this study showed a significant difference (p The results also showed a slight, but not significant, increase in measured VO2 peak and % VO2peak at anaerobic threshold.
Efficacy of a Novel Method for Inspiratory Muscle Training in People With Chronic Obstructive Pulmonary Disease
The short and largely home-based IMT *protocol significantly improved inspiratory muscle function in both groups and is an alternative to traditional IMT protocols in this population. Participants in the TFRL group tolerated higher training loads and achieved larger improvements in inspiratory muscle function than those in the MTL group.
*IMT stands or “Inspiratory Muscle Training”
Research for Respiratory Muscle Training in General
Effect of Respiratory Muscle Training on Exercise Performance in Healthy Individuals
Conclusion – RMT* improves endurance exercise performance in healthy individuals with greater improvements in less fit individuals and in sports of longer durations.
The Buteyko breathing technique can improve symptoms and reduce bronchodilator use but does not appear to change bronchial responsiveness or lung function in patients with asthma.
Effects of Combined Training with Breathing Resistance and Sustained Physical Exertion to Improve Endurance Capacity and Respiratory Muscle Function in Healthy Young Adults
The results imply that in comparison to conventional training methods, combined training with breathing resistance and sustained physical exertion is beneficial for increasing endurance capacity and respiratory muscle function. This result provides important information regarding the effects of the new training method for improving endurance capacity.
Endurance training of respiratory muscles improves cycling performance in fit young cyclists
The results suggest that respiratory muscle endurance training improves cycling performance in fit, experienced cyclists. The relative hyperventilation with no change in respiratory effort sensations suggest that respiratory muscle training allows subjects to tolerate the higher exercise ventilatory response without more dyspnea. Whether or not this can explain the enhanced performance is unknown.