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More mitochondria for better athletes?

If humans had as many mitochondria as dogs do, the world records for all endurance events would improve incredibly. However, at this time the only way that we know how to increase mitochondrial number safely is to exercise repeatedly to exhaustion or to severely restrict calories.

Woman swimming in exercise pool

The huge number of mitochondria in dogs’ muscles explains why sled dogs can run more than 100 miles a day, at sub-8-minute-mile pace for weeks on end, while humans could not possibly run as long or as fast and recover from such abuse of their muscles. Mitochondria are small areas in all the cells of your body except mature red blood cells, that turn food into energy more efficiently than any other means in your body. Each human muscle cell contains up to 2500 mitochondria.

Muscles have two major sources of converting food to energy. They have small chambers in cells called mitochondria that use the Krebs Cycle chemical reaction to convert all foods to energy. They also have glycolysis, inside the muscle cell and outside the mitochondria, that converts sugar to energy.

Since dogs have more than 70 percent more mitochondria per cell than humans have, their cells can convert fat far more efficiently into energy while they are exercising.

If humans had as many mitochondria as dogs do, the world records for all endurance events would improve incredibly. However, at this time the only way that we know how to increase mitochondrial number safely is to exercise repeatedly to exhaustion or to severely restrict calories. Studies have shown that exhaustive exercise even increases the number and size of mitochondria in the brain to increase memory and learning in mice (The Journal of Applied Physiology. August, 2014). Taking thyroid hormone increases the number of mitochondria, but excess thyroid hormone will turn your bones to chalk and damage every cell in your body.

Oxygen: the endurance advantage of being a dog

The limiting factor to how fast a human or dog can run over distance is the time it takes to process oxygen in exercising muscles. Once a muscle does not meet its needs for oxygen, the muscle becomes acidic which burns, hurts, and slows the athlete down. Sled dogs can use far more oxygen than humans can. The maximum amount of oxygen a person or dog can take in and use over time is called the VO2max. Top marathon runners and cyclists rarely have a VO2max of greater than 90 ml/kg/min. Untrained sled dogs have twice the oxygen capacity or 175 ml/kg/min VO2max. Trained racing sled dog’s VO2max is more than 3 times as much as that of the best-trained humans: 300 ml/kg/min.

Muscles burn carbohydrates, fats and, to a lesser degree, proteins for energy. The sugar in carbohydrates requires less oxygen than fat does to power your muscles. The problem is that humans have only a very limited amount of sugar stored in their muscles and liver. Humans start to run out of stored sugar after only 70 minutes of intense exercise. When a muscle runs out of its stored sugar, it hurts, becomes more difficult to coordinate and requires more oxygen than usual. A limiting factor in how long you can exercise a human muscle is how much sugar you can store in a muscle, how quickly you use it up, and how quickly you can restore the sugar in your muscles (Medicine & Science in Sports & Exercise, August 2005).

Can humans gain greater endurance?

Humans could attain greater endurance by storing more carbohydrates in their bodies, by taking carbohydrates continuously during exercise or by bringing oxygen to their muscles faster so they could burn fat more efficiently. Humans cannot store more carbohydrates than they already do because all extra carbohydrates are immediately turned to fat, so improvement in endurance will have to come from bringing oxygen into muscles faster or figuring out a way to burn fat with less oxygen.

If a human could teach his muscles to burn fat with less oxygen, he would be the best long distance runner, cyclist, or long-distance cross country skier ever.

Recovery from hard exercise

Since human muscles depend on sugar for energy during all-out exercise, and humans store only a small amount of sugar, humans cannot recover from hard exercise as fast as dogs do. Humans take a long time to restore muscle sugar called glycogen. Top marathon runners restore muscle glycogen in anywhere from a day to several days. Sled dogs can restore muscle glycogen almost as quickly as they are fed. They are able to restore more than 50 percent of their resting muscle glycogen after two consecutive 100-mile runs even when fed a low-carbohydrate, high-fat diet. Humans could never replace muscle glycogen that fast.

woman running on footpath

How to increase your mitochondria

Humans could have more endurance if they had as many mitochondria in their muscle cells as sled dogs do. All human endurance records would topple by a huge margin if a new drug or training method that increases mitochondria appeared on the market. At this time, the only safe way we have to increase the number of mitochondria in muscles is by exercising intensely enough to create an oxygen debt. This means that you must exercise so intensely that you become short of breath and your muscles burn. However, every time you exercise intensely, you damage your muscles and feel sore on the next day. If you try to exercise intensely when your muscles are still sore from a previous workout, you are at high risk for injuring yourself.

+ Discover why your mitochondria are so important

A typical training program: cycling

You need to plan to take intense workouts that damage your muscles on one day, feel sore on the next day and go easier. When the soreness lessens, take you next hard workout. Realize that how often you can exercise intensely depends completely on how long it takes for muscles to recover. Top cyclists go hard on one day, and recover by going fairly hard on the next day. If their muscles feel very sore, they go very easy or take the day off. The schedule for other sports will vary depending on how muscles are used; for example, swimmers can usually take one hard workout and one easy workout every day.

If you have never ridden very hard:

On one day: You could do controlled 50- or 100- pedal stroke intervals with recoveries until your leg muscles start to feel heavy and hurt. Try to do twenty 100-pedal stroke intervals with one-to-three-minute recoveries, depending on how you feel. The next day, ride easy for an hour or two depending on how you feel.

If you are a trained athlete:

On one day, do controlled racing with your friends for 20 to 80 miles. The next day, do controlled short (less than 30 seconds) or long (greater than two minutes) intervals. Always reduce the intensity of your workouts or take the day off when your legs feel heavy or stiff before a workout. Then repeat the cycle of race days and interval days, with days off as needed.

This is just a rough recommendation for training. You have your own training methods and should follow what you think is best for you. Remember, if muscles do not burn on your hard days, you will not increase the number of mitochondria in your muscle cells significantly.

Added support – supplementation

Supplementation can play a role in maintaining optimal balance. Athletes generally place a lot more stress on their bodies so supplementing to ensure optimal health and recovery from training is a good idea. This is where MitoQ's world-first ingredient, mitoquinol mesylate comes in. MitoQ’s molecule is smaller in size than regular CoQ10 and is positively-charged allowing the molecule to penetrate the mitochondrial membrane and be drawn inside your negatively charged mitochondria. MitoQ is therefore better able to support your body’s energy needs at source and will play a role in helping reduce the oxidative stress that results from strenuous exercise. Helping you recover more quickly, making your training more effective.

MitoQ is gaining popularity amongst athletes, who are taking it help boost their energy production, and therefore performance.

Discover MitoQ

Read the full article, originally published here.

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