[RedwolfWV]

So, I'm working out at the gym today, and this young guy comes up to me, and tells me I'm not leaving enough time between sets. He said for a guy "my age", I needed to wait at least 4 minutes between sets, cause this is how long it takes the lactic acid to clear.

Now, I'm fairly certain that he is full of $hit, but, I do try to have an open mind. I usually do 1.5-2 minutes between sets, and I have NEVER heard of this. To the kids credit, he was well built, and looked like he knew his way around the gym. (By kid, I mean 22-25ish)

So, any truth to this??

[bpmartyr]

The aim of the recovery period between sets is to replenish the stores of ATP and Creatine Phosphate in the muscles.
The way I understand it.

[RedwolfWV]

Thanks for clearing it up for me BP. I really didn't think lactic acid had anything to do with it.

[jminis]

Keep it at 1.5-2 minutes. 4-5 is too long IMO maybe if I was training for strength and not hypertrophy.

[spatch]

I usually take 2 minutes or so. If I really need it I will take 3 (maybe at the end of a leg day or so). IMO if you cant put full effort into a set, you arent getting all you could from the set. But with that said, dont take naps between sets, either.

[Kristofer68SS]

i have read 30 seconds to 1 minute on higher reps, 1-3 minutes on lower reps.

Doesnt it all really depend on type of muscles that are being recruited, as to how much the rest intervals should be?

TeenBodybuilding.com - Shane Giese - Slow & Fast Twitch Muscle Fibers.

"Here is an excerpt i found doing a search on the web.

How much rest should I take between sets?
There is no set rest time. Pick a heart rate you wish to work in, and wait until your heart settles between sets. That's one way.

If you are supersetting antagonists, i.e. alternating chest press and cable rows, you could rest as little as 15 seconds because one muscle is resting while the work the other, and you have the added benefit of keeping your heart rate elevated. On the other hand, if you are doing extremely heavy lifts, 60 seconds may be a better rest period to allow adequate recovery before hitting it hard.

As you diminish rest, your heart rate will remain elevated longer, meaning you may have more optimal post-workout burn, however, your ability to work on the second or third sets will diminish, so it is a delicate balancing act.

In a rep range of 8 to 12 repetitions, I'd say anywhere between 45 seconds - 2 minutes would be optimal."

I personally like to stay in the 1 minute range, unless i am doing squats or deads, then i take 2-3 minutes.

[SwordBurn]

If you hog a station up w/ 4-5min waits between sets...

...I'd throw a 45 plate at you like a ninja star ...

[RedwolfWV]

LOL! Naww... wasn't that. I don't know what his motivation was, aside from just trying to be helpful. Gym was pretty dead that morning.

[Chemist2234]

Lactic Acid Formation is due to not having enough ATP in the muscle to fuel the exercise. During anaerobic glycolysis (breaking down of sugars W/O oxygen) lactic acid is produced in order to keep pyruvic acid down in your muscle cells. lactic acid dissociation can take a while(lactate + H+) , hour maybe two hours if I'm not mistaken. So I'm pretty sure that guys statement had no scientific bearing whatsoever.

This is purely from what i recall from my scientific background. I might be wrong, but i doubt it.

[jonny21]

Quote:

Originally Posted by Chemist2234

Lactic Acid Formation is due to not having enough ATP in the muscle to fuel the exercise...
This is purely from what i recall from my scientific background. I might be wrong, but i doubt it.

It is due to not having enough O2 available in order to produce ATP.

[Chemist2234]

exactly what anaerobic glycolysis is.... the body turns to converting sugars directly to energy instead of forming ATP.

[Motomatt]

from Dr. Brooks
E

Quote:

veryone who has even thought about exercising has heard the warnings about lactic acid. It builds up in your muscles. It is what makes your muscles burn. Its buildup is what makes your muscles tire and give out.

Coaches and personal trainers tell athletes and exercisers that they have to learn to work out at just below their "lactic threshold," that point of diminishing returns when lactic acid starts to accumulate. Some athletes even have blood tests to find their personal lactic thresholds.

But that, it turns out, is all wrong. Lactic acid is actually a fuel, not a caustic waste product. Muscles make it deliberately, producing it from glucose, and they burn it to obtain energy. The reason trained athletes can perform so hard and so long is because their intense training causes their muscles to adapt so they more readily and efficiently absorb lactic acid.

The notion that lactic acid was bad took hold more than a century ago, said George A. Brooks, a professor in the department of integrative biology at the University of California, Berkeley. It stuck because it seemed to make so much sense.

"It's one of the classic mistakes in the history of science," Dr. Brooks said.

Its origins lie in a study by a Nobel laureate, Otto Meyerhof, who in the early years of the 20th century cut a frog in half and put its bottom half in a jar. The frog's muscles had no circulation — no source of oxygen or energy.

Dr. Myerhoff gave the frog's leg electric shocks to make the muscles contract, but after a few twitches, the muscles stopped moving. Then, when Dr. Myerhoff examined the muscles, he discovered that they were bathed in lactic acid.

A theory was born. Lack of oxygen to muscles leads to lactic acid, leads to fatigue.

Athletes were told that they should spend most of their effort exercising aerobically, using glucose as a fuel. If they tried to spend too much time exercising harder, in the anaerobic zone, they were told, they would pay a price, that lactic acid would accumulate in the muscles, forcing them to stop.

Few scientists questioned this view, Dr. Brooks said. But, he said, he became interested in it in the 1960's, when he was running track at Queens College and his coach told him that his performance was limited by a buildup of lactic acid.

When he graduated and began working on a Ph.D. in exercise physiology, he decided to study the lactic acid hypothesis for his dissertation.

"I gave rats radioactive lactic acid, and I found that they burned it faster than anything else I could give them," Dr. Brooks said.

It looked as if lactic acid was there for a reason. It was a source of energy.

Dr. Brooks said he published the finding in the late 70's. Other researchers challenged him at meetings and in print.

"I had huge fights, I had terrible trouble getting my grants funded, I had my papers rejected," Dr. Brooks recalled. But he soldiered on, conducting more elaborate studies with rats and, years later, moving on to humans. Every time, with every study, his results were consistent with his radical idea.

Eventually, other researchers confirmed the work. And gradually, the thinking among exercise physiologists began to change.

"The evidence has continued to mount," said L. Bruce Gladden, a professor of health and human performance at Auburn University. "It became clear that it is not so simple as to say, Lactic acid is a bad thing and it causes fatigue."

As for the idea that lactic acid causes muscle soreness, Dr. Gladden said, that never made sense.

"Lactic acid will be gone from your muscles within an hour of exercise," he said. "You get sore one to three days later. The time frame is not consistent, and the mechanisms have not been found."

The understanding now is that muscle cells convert glucose or glycogen to lactic acid. The lactic acid is taken up and used as a fuel by mitochondria, the energy factories in muscle cells.

Mitochondria even have a special transporter protein to move the substance into them, Dr. Brooks found. Intense training makes a difference, he said, because it can make double the mitochondrial mass.

It is clear that the old lactic acid theory cannot explain what is happening to muscles, Dr. Brooks and others said.

Yet, Dr. Brooks said, even though coaches often believed in the myth of the lactic acid threshold, they ended up training athletes in the best way possible to increase their mitochondria. "Coaches have understood things the scientists didn't," he said.

Through trial and error, coaches learned that athletic performance improved when athletes worked on endurance, running longer and longer distances, for example.

That, it turns out, increased the mass of their muscle mitochondria, letting them burn more lactic acid and allowing the muscles to work harder and longer.

Just before a race, coaches often tell athletes to train very hard in brief spurts.

That extra stress increases the mitochondria mass even more, Dr. Brooks said, and is the reason for improved performance.

And the scientists?

They took much longer to figure it out.

"They said, 'You're anaerobic, you need more oxygen,' " Dr. Brooks said. "The scientists were stuck in 1920

[jonny21]

Quote:

Originally Posted by Chemist2234

exactly what anaerobic glycolysis is.... the body turns to converting sugars directly to energy instead of forming ATP.

ATP is the the energy source. Aerobic produces 36 ATP per glucose molecule while in anaerobic only 2 or 4 ATP(can't remember exactly) per glucose molecule. ATP is always formed it is just that aerobic is much more efficient. By product of anaerobic is lactic acid which is then directed to Cori cycle.

[Chemist2234]

You are correct about the glucose to ATP during anaerobic Gylcolysis. I completely forgot about that step (i think its 4). What is your take on the lactic acid dissociation time Jonny21? not to sure about that.

[RedwolfWV]

This has turned into a very interesting thread!

[jonny21]

Quote:

Originally Posted by Chemist2234

What is your take on the lactic acid dissociation time Jonny21? not to sure about that.

Depends on the individual, the activity and intensity, and the duration. I do not think it is much of a concern for those engaged in resistance training.