I’ve been reviewing my CPET textbooks trying to get a better idea of how to differentiate between different cardiovascular limitations. The other day I ran across an article on a related subject and thought it might be instructive.
The hallmark of cardiovascular limitations is the inability to deliver enough oxygenated blood to the exercising muscles. Another limitation that has similarities to this (and one that is infrequently diagnosed) is the inability of the exercising muscle to utilize the oxygen delivered to it. The best examples of this type of exercise limitation are mitochondrial myopathies (MM).
The mitochondria are the primary source of the ATP used by exercising muscle. There are several conditions that can cause the number of mitochondria to be reduced and there is wide variety of mitochondrial genetic defects. Mitochondria have their own genes and these can have both inherited or acquired genetic defects which can cause anything from mild to severe decreases in the ability to produce ATP. Mitochondria require oxygen to produce ATP so when the number of mitochondria are reduced or their ability to produce ATP is reduced the rate at which oxygen is consumed by an exercising muscle is also reduced.
A relatively common complaint of individuals with MM is dyspnea and exercise intolerance. One study found that 8.5% of all the patients referred to a dyspnea clinic had a mitochondrial myopathy of one kind or another. A definitive diagnosis requires a muscle biopsy but because the symptoms are often non-specific and a biopsy is an invasive procedure, it is usually not performed unless there more significant evidence suggesting a MM.