Overtraining

[StoneColdNTO]

Overtraining is the trainee’s number one “enemy” next to training injuries. Overtraining results from an imbalance between the amount of stress applied to your body, and your ability to adapt to it. Overtraining results in losses in size and strength and actually also increases the probability of illness.
Here is a list of some of the symptoms of overtraining:
•Decreased muscle size and strength.
•Longer-than-average recovery time after a workout.
•Elevated waking pulse rate.
•Elevated morning blood pressure.
•Increased joint and muscle aches.
•Headaches
•Hand Tremors
•Tiredness
•Listlessness
•Insomnia
•Loss or decrease in appetite.
•Injury
•Illness

So what biochemical mechanism leads to this over trained state? After the onset of high-intensity training exercise the body pumps out cortisol which breaks down protein into their constituent amino acids and routes them to the liver for conversion to glucose. The longer the workout, the more cortisol is pumped in and the more protein is destroyed. This causes a “catabolic state” as the largest supply of protein lies in the muscles so that is where the cortisol goes first.

Research by Costill and Nieman et al., has shown that one hour of intense strength training will increase the protein stores in our immune and skeletal systems, but that any further training will only begin to deplete these stores.

Overtraining can force the body into a weakened physical state, which, at best can produce a cold or the flu and, at worst, can tear muscles ligaments, and tendons once these body parts lose their structural integrity protein loss. The culprit is a built-in “survival” drug hormone called cortisol. Immediately following a high intensity effort, the body pumps out this hormone whose function is simple: It carries off the proteins to the liver, where they are converted into glucose, for energy use in the body. Why does this weaken our defense mechanisms? Because all our immune systems are based on proteins, and the influx of control in our biological mix steals the proteins that make up our immune system.

Nieman, a researcher at Loma Linda University found that athletes who train twice as intensely as normally prescribed will wind up with twice as many colds, and viruses. Nieman investigated the athletes for cortisol. He found that astonishingly, after only one grueling strength training session, their bodies revealed a 60% increase in cortisol production. Among the first proteins to go were the T-cells that make up our front line of defense against viruses. This watchdog system was depleted by more than 30 percent. However, this shortfall lasted only 6-8 hrs.

So you’re probably thinking “What’s the big deal? Is putting your body at risk for only 6-8 hours such a high price to pay?” Well, Nieman and other researchers found that after a few days of such exercising, the “at risk” time became longer and longer, until the T-cells stopped rejuvenation. In addition, the body’s first line of defense against bacteria and viruses an antibody known as IgA, which is found in the saliva, was reduced to nearly non-protective levels.

The conclusion of the researchers was that athletes can over train themselves into illness. Thus the logical conclusion would be that high intensity strength training should be limited to one hour or less to restrict the amount of protein destruction.

Other ways to reduce the risk of overtraining: Emphasize carbohydrates: make them 60-70% of your total diet. Take carbohydrates two hours prior to exercising and immediately following exercise. Research has shown that your fatigued muscles seem most responsive to energy storage within the first 30 minutes following your workout. There is a lesser response for the next 10 hours. Take protein one to two hours before and immediately following exercise. Again I use regular food, but I see no problem with supplementation to save time (at the expense of more money however). Research has also shown your body to be more receptive to protein immediately following a workout. Continue eating high carbohydrate foods every 2 hours during the first 4 to 6 hours after hard training. During the first 6 hours post-exercise, simple sugars appear to replace muscle glycogen better than complex carbohydrates. Post-exercise muscle glycogen storage can be enhanced with a combination carbohydrate-protein supplement as a result of the interaction of carbohydrate and protein on insulin secretion. The addition of protein with carbohydrates can allow for a more rapid return recovery. Drink a re-hydration beverage during and after exercise.

Take periodic layoffs. Use the best “miracle supplement” there is - WATER. You can’t “overdose” on water. The worst side effect you can get as mentioned previously, is a few more trips to the washroom. Your body functions optimally when it is fully hydrated. A general recommendation is to consume at least 128 ounces (one gallon) of water a day. During hot weather you should double or triple this amount.

Give your undivided attention to your training when your in the gym. But when you’re outside the gym, cast your attention to other things in life. Establish your other priorities, set goals, and keep busy. There are many athletes who fall into the trap of letting their mind continually dwell on training. Train hard when your in the gym, but try and relax more when your not. Stress has been shown to increase levels of cortisol in the body - the catabolic hormone, so try to find ways to manage stress in your life and relax, and your results will be improved.

 

[DreDay187]

Overtraining is the trainee***8217;s number one ***8220;enemy***8221; next to training injuries. Overtraining results from an imbalance between the amount of stress applied to your body, and your ability to adapt to it. Overtraining results in losses in size and strength and actually also increases the probability of illness.
Here is a list of some of the symptoms of overtraining:
***8226;Decreased muscle size and strength.
***8226;Longer-than-average recovery time after a workout.
***8226;Elevated waking pulse rate.
***8226;Elevated morning blood pressure.
***8226;Increased joint and muscle aches.
***8226;Headaches
***8226;Hand Tremors
***8226;Tiredness
***8226;Listlessness
***8226;Insomnia
***8226;Loss or decrease in appetite.
***8226;Injury
***8226;Illness

So what biochemical mechanism leads to this over trained state? After the onset of high-intensity training exercise the body pumps out cortisol which breaks down protein into their constituent amino acids and routes them to the liver for conversion to glucose. The longer the workout, the more cortisol is pumped in and the more protein is destroyed. This causes a ***8220;catabolic state***8221; as the largest supply of protein lies in the muscles so that is where the cortisol goes first.

Research by Costill and Nieman et al., has shown that one hour of intense strength training will increase the protein stores in our immune and skeletal systems, but that any further training will only begin to deplete these stores.

Overtraining can force the body into a weakened physical state, which, at best can produce a cold or the flu and, at worst, can tear muscles ligaments, and tendons once these body parts lose their structural integrity protein loss. The culprit is a built-in ***8220;survival***8221; drug hormone called cortisol. Immediately following a high intensity effort, the body pumps out this hormone whose function is simple: It carries off the proteins to the liver, where they are converted into glucose, for energy use in the body. Why does this weaken our defense mechanisms? Because all our immune systems are based on proteins, and the influx of control in our biological mix steals the proteins that make up our immune system.

Nieman, a researcher at Loma Linda University found that athletes who train twice as intensely as normally prescribed will wind up with twice as many colds, and viruses. Nieman investigated the athletes for cortisol. He found that astonishingly, after only one grueling strength training session, their bodies revealed a 60% increase in cortisol production. Among the first proteins to go were the T-cells that make up our front line of defense against viruses. This watchdog system was depleted by more than 30 percent. However, this shortfall lasted only 6-8 hrs.

So you***8217;re probably thinking ***8220;What***8217;s the big deal? Is putting your body at risk for only 6-8 hours such a high price to pay?***8221; Well, Nieman and other researchers found that after a few days of such exercising, the ***8220;at risk***8221; time became longer and longer, until the T-cells stopped rejuvenation. In addition, the body***8217;s first line of defense against bacteria and viruses an antibody known as IgA, which is found in the saliva, was reduced to nearly non-protective levels.

The conclusion of the researchers was that athletes can over train themselves into illness. Thus the logical conclusion would be that high intensity strength training should be limited to one hour or less to restrict the amount of protein destruction.

Other ways to reduce the risk of overtraining: Emphasize carbohydrates: make them 60-70% of your total diet. Take carbohydrates two hours prior to exercising and immediately following exercise. Research has shown that your fatigued muscles seem most responsive to energy storage within the first 30 minutes following your workout. There is a lesser response for the next 10 hours. Take protein one to two hours before and immediately following exercise. Again I use regular food, but I see no problem with supplementation to save time (at the expense of more money however). Research has also shown your body to be more receptive to protein immediately following a workout. Continue eating high carbohydrate foods every 2 hours during the first 4 to 6 hours after hard training. During the first 6 hours post-exercise, simple sugars appear to replace muscle glycogen better than complex carbohydrates. Post-exercise muscle glycogen storage can be enhanced with a combination carbohydrate-protein supplement as a result of the interaction of carbohydrate and protein on insulin secretion. The addition of protein with carbohydrates can allow for a more rapid return recovery. Drink a re-hydration beverage during and after exercise.

Take periodic layoffs. Use the best ***8220;miracle supplement***8221; there is - WATER. You can***8217;t ***8220;overdose***8221; on water. The worst side effect you can get as mentioned previously, is a few more trips to the washroom. Your body functions optimally when it is fully hydrated. A general recommendation is to consume at least 128 ounces (one gallon) of water a day. During hot weather you should double or triple this amount.

Give your undivided attention to your training when your in the gym. But when you***8217;re outside the gym, cast your attention to other things in life. Establish your other priorities, set goals, and keep busy. There are many athletes who fall into the trap of letting their mind continually dwell on training. Train hard when your in the gym, but try and relax more when your not. Stress has been shown to increase levels of cortisol in the body - the catabolic hormone, so try to find ways to manage stress in your life and relax, and your results will be improved.

Edit* who wrote this 'article'? ^^^


Cosio-Lima and Desai found no advantageous benefits to consuming protein with carbs PWO in regards to cortisol and inflammatory cytokines and while carbs mediated the cortisol response to training, a placebo group who drank only water still gained similar amounts of lbm over the course of the study (and that's with the higher cortisol levels PWO).

Then there's also the fact that this is only an acute view of cortisol release and it's effects not a chronic one over time. The body adapts to training and as time goes on the cortisol release is less and less for the same training. Cortisol is not the enemy we make it out to be and BB'ers infatuation with staying "anabolic 24hrs a day, 7days a week" is why cortisol gets a bad rap.

That short-term muscle loss and cortisol spike for the water-drinking group may seem significant, but don't forget that all the groups gained muscle over the course of the study. The group that just drank water added almost four pounds of muscle over 12 weeks!

Short-Term Cortisol Spikes Decrease Over Time ///
So the people with the highest catabolic response still gained muscle? How can this be? It seems simple, really: Their bodies adapted to the weight training stimulus over time and released less and less cortisol, even without any nutritional intervention. For the water-drinking group, post-exercise cortisol levels decreased 28 percent over the 12 weeks of the study.



Yes, it turns out that cortisol levels and acute muscle breakdown don't have a negative impact on muscle gains or fat loss over a 12-week period. If a recent study from McMaster's University is to be believed, the opposite might be true.

Researchers at McMaster's looked at the relationship between post-workout cortisol levels and changes in strength, lean body mass, and muscle fiber cross-sectional area. They found that after 12 weeks of resistance training, high post-workout cortisol levels were (albeit weakly) correlated with gains in lean body mass and changes in type II muscle fiber size.

This bears repeating: The people with higher cortisol levels were the ones more likely to gain more muscle over the course of the study. This the opposite of what cortisol-haters would have expected!