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Home » Exercise Programs » 4 Theories About Overtraining – Outside

Theres no shortage of theories about overtraining syndrome, a state of pervasive fatigue and poor performance that lasts months or years and sometimes ends athletic careers. In fact, there are too many theories. Its psychological, its neurological, its adrenal, its hormonal, its immunological, its cardiovascularit seems to affect pretty much every system in the body, which makes it hard to pinpoint the cause.

A new paper from a group led by Johanna Lanner of the Karolinska Institute in Sweden presents the case for a seemingly obvious culprit: the muscles themselves. Writing in the journal Redox Biology, they explore four main theories for what might go wrong within your muscles after a prolonged period of heavy training that could lead to long-term changes like those seen in overtraining syndrome. If theyre right, it suggests some possible countermeasures against overtrainingbut thats a big if.

From the muscles perspective, training is a constant cycle of stress and recovery. A hard workout causes all sorts of metabolic and structural disruptions in your muscle fibers, which in turn trigger adaptations that occur during the recovery period and make you stronger and fitter. These perturbations are good when theyre temporary, but if they become chronicfor example because youre not recovering enough between workoutsthen they make you weaker and more fatigued.

Its not just your maximum strength thats affected; even relatively light submaximal exercise like a jog feels harder. This effect can last for days or even weeks after a single killer workout, an effect known as prolonged low-frequency force depression, or PLFFD. Intriguingly, studies with single muscle fibers from rodents also exhibit PLFFD. These muscle fibers obviously arent depressed or hormonally imbalancedthere must be some sort of prolonged disruption within the muscle fiber itself. Since overtraining in some ways looks like a chronic version of PLFFD that wont switch off, Lanner and her colleagues suggest that overtraining, too, may involve problems in the muscle.

Here are the four leading muscle-related explanations of overtraining they consider:

This one is pretty straightforward: maybe chronic depletion of glycogen, the form in which muscle fibers store carbohydrate, interferes with the ability of those fibers to generate force and ultimately leads to what we experience as overtraining. It almost seems too simple, but its actually quite plausible that athletes who are training at truly extreme levelsi.e. those most vulnerable to overtraining syndromehave trouble keeping up with their bodies fuel needs. Thats what a study on ketone drinks suggested last year: the apparent ability of these drinks to ward off overtraining was linked to increased calorie intake.

Lanner and her colleagues arent convinced, though. They point out that a study in rats failed to prevent overtraining despite aggressive carbohydrate supplementation. Not getting enough carbohydrate may contribute to overtraining, but getting enough, on its own, doesnt seem to prevent it.

This is the classic explanation for next-day soreness: a hard workout, especially something like downhill running or box jumps that involves a lot of eccentric contractions, causes little microtears and other physical damage to your muscle fibers. Normally this damage gets repaired and ultimately leaves you strongerunless the balance between damage and repair is chronically tilted too far toward the former.

Not so fast, though. While the link between damaged muscle fibers and weaker muscles seems intuitively obvious, studies dont seem to find a good correlation between the amount of visible damage and the decline in function, according to Lanner and her colleagues. The damage is there, but it doesnt seem to directly cause the problems.

This may sound a little familiar from all the recent discussion of cytokine storms in COVID-19. A similar idea applies here: a limited amount of inflammation (which is induced by small proteins called cytokines) is a normal part of both immune responses and post-exercise muscle repair, but too much can inflict further damage. After repeated strenuous exercise with insufficient recovery, you can end up with chronically elevated cytokine levels and inflammation, which in turn interferes with muscle function.

Furthermore, this inflammatory response could start a vicious cycle: cytokines also lead to an increase in oxidative stress, which in turn triggers the release of more inflammation-promoting cytokines, which increases oxidative stress, and so onwhich brings us to the heart of Lanners argument.

Theres a reason this paper was published in Redox Biology, which is a rather specialized journal. Even though the authors present four theories, their main interest is in the idea that oxidative stressthe excessive presence of damaging molecules called reactive oxygen speciesis a key driver of decreased muscle function in overtraining syndrome.

Its true, according to at least somestudies, that overtrained athletes display elevated levels of oxidative stress. You might think that theres a simple solution to this: take antioxidant supplements, which neutralize reactive oxygen species. But it turns out that the role of oxidative stress in the body is fiendishly complicated. Like inflammation, oxidative stress also serves as a key signal telling your body to adapt and get fitter after exercise, so eliminating it can have negative effects. While the topic is still being debated among researchers, theres considerable evidence that regular use of antioxidant supplements can blunt the gains youd normally get from a training program.

Typically, rested muscle stays in a slightly reduced state. Thats the opposite of being oxidized, meaning it has gained rather than lost electrons. When you start exercising, that generates oxidative stress, which actually puts your muscle into an optimal balance between reduction and oxidation, maximizing the amount of force you can generate. But if you exercise too hard or too long, the amount of oxidation becomes too much and muscle performance decreases again.

Lanner and her colleagues provide a schematic diagram to illustrate this delicate balance between reduced and oxidized muscles:

(Photo: Courtesy Redox Biology)

Normally, youre sitting slightly to the left on this diagram, at Rested muscle. If you start exercising, you move to the middle, at Optimal exercise redox balance. If you push too hard, you keep moving to the right, to Exercise-induced fatigue. Allow yourself to recover, then everything will be finebut if you keep pushing, youll end up on the far right, at Chronic disease and Overtraining.

If you start popping a daily dose of vitamin C or other antioxidants, you move left on the curve. Under normal circumstances, you end up on the far left, at Rested muscle + Antioxidants. Thats not ideal, because then you cant get to that optimal balance in the middle during workouts, which is why routine use of antioxidants isnt a good idea for athletes. But if youre on the border of overtraining, the risks and benefits may be different.

Lanner and her colleagues acknowledge the risks associated with supplementation, but suggest that if an athlete on the edge of overtraining syndrome is in a state of chronically elevated oxidative stressthe kind of thing you see in rheumatoid arthritis and Duchenne muscle dystrophythen antioxidants may help. The same thing may apply to anti-inflammatory drugs: a bad idea under normal circumstances, but possibly helpful in the face of chronic inflammation.

Key caveat? Of the 122 references cited in the article, a majority seem to involve rats. Thats an important and useful way to figure out how muscle fibers work, but any real advice about how athletes should train needs to be based on studies of athletes training. Still, I think the focus on whats happening in the muscles is an interesting and perhaps underappreciated aspect of overtraining. And the idea that antioxidants are a bad idea on a routine basis but useful in times of unusually high stressa training camp, a trip to altitudehas been floating around among elite athletes for a while.

For now, though, I think the most important weapon to keep in mind is the one Lanner and her colleagues mention at the start of their section on prevention and treatment: carefully planned training programs that include regular monitoring by coaches and the athletes themselves to assess adaptation to training over both the short and long term. Put more simply: if youre really, really tired and seem to be getting slower, take a break rather than a pill.

For more Sweat Science, join me on Twitter and Facebook, sign up for the email newsletter, and check out my book Endure: Mind, Body, and the Curiously Elastic Limits of Human Performance.

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Home » Exercise Programs » 4 Theories About Overtraining – Outside