Strength Training Builds Strong Muscles
That title is kind of a ‘no duh,’ but most people overlook the fact that strength training is essential for both an aesthetic appearance and to build strong muscles. Because it helps burn calories while enhancing appearance, strength training should be an essential component of any workout program. Not only that, but strength training could slow down the effects of the aging process and should be the primary focus of your exercise if you are over the age of 40. Here are 7 things you should know about strength training.
First, what you should know about your muscles:
1: Muscles do not flex. Muscles either shorten or lengthen, only joints flex (and extend). if someone asks you to ‘flex’ a muscle you can shorten a muscle to create flexion at the joint it crosses but the muscle itself will not flex.
2: Big muscles are not necessarily strong muscles. That’s right, just because a muscle has increased in size does not necessarily mean it has experienced a significant increase in strength.
Size v. Strength
There is a big difference (pun intended) between a muscle’s size and its ability to generate force. Muscles can appear large based on the volume of intracellular fluid, blood and water contained in the tissue, commonly referred to as the ‘pump’ that occurs after lifting weights and explains why some incredibly strong weightlifters have a completely different physique than bodybuilders. It also explains why some bodybuilders with large muscles and amazing physiques are not necessarily strong weightlifters able to compete in strength-based sports like Powerlifting or Strongman.
Bodybuilders exercise for the specific goal of improving muscle size and appearance, this requires isolation training to focus on increasing size, not muscle force output. Weightlifters train to maximize the net magnitude of muscle force they can produce for a single lift which is a specific skill requiring numerous muscle fibers to work at the same time.
7 things to know about strength training
Size comes from sarcoplasmic hypertrophy
1. Muscle size is due to sarcoplasmic hypertrophy. Performing a high volume of reps to momentary fatigue produces the response of sarcoplasmic hypertrophy, an increase in size in the fluid-containing sarcoplasm around muscle cells, but not in the individual muscle fibers themselves. Lifting to momentary fatigue fills a muscle with blood that carries oxygen to the muscle to fuel the contractions, it also depletes the muscle of glycogen which is used to create the ATP to fuel the contractions. Post exercise extra blood remains in the muscle to remove metabolic waste, deliver protein to repair damaged tissue and replenish the glycogen used to fuel the contractions. One gram of glycogen can hold up to three grams of water in the muscle cell, as muscle glycogen is restored it holds additional water in the cell which can lead to an acute increase in muscle size. This is how a muscle can get larger without necessary becoming stronger, it is simply storing more fluid which increases the total volume of the muscle cells
Strength comes from myofibrillar hypertrophy
2. Myofibrillar hypertrophy is the foundation of improving strength and is an increase in thickness of the individual myofibrils (muscle fibers) that comprise a unit of muscle. When myofibrils become thicker there is more surface area connecting individual myofibrils to one another. Strength is based on a muscle’s ability to generate tension, as the surface tension between individual fibers increases the net result is greater force output from the entire muscle. As a muscle experiences myofibrillar hypertrophy it becomes denser and thicker, not necessarily larger, this is why many weightlifters lack the over-inflated appearance of their bodybuilding cousins, they are simply using their muscles differently. For those concerned that lifting weights will add unwanted size simply increasing myofibrillar hypertrophy and motor unit synchronization within a muscle will not necessarily cause a muscle to swell up.
The role of the nervous system for developing strength
3. Strength training stimulates the nervous system components responsible for causing muscle contractions; the goal is to recruit as many fast twitch (type II) muscle motor units as possible within a specific muscle, this is known as ‘intra-muscular coordination.’ A muscle motor unit is the motor neuron, which initiates the signal for a muscle fiber to contract, and the specific fibers to which it is attached. Increasing the number of fast twitch motor units that are activated or ‘switched on’ during an exercise can have a significant impact on the total force a muscle can produce. If you have ever lifted a heavy weight and felt your muscles shaking this is because more type II motor units are being ‘switched on’ (as the type I, slow twitch units fatigue) to shorten their attached fibers and generate the tension necessary to move the applied weight.
Lifting heavy increases muscle force production
4. The Maximal Effort (ME) method of training is one way to stimulate a significant amount of fast twitch muscle motor units which results in strength gains. This method uses a near maximal load for 1-to-3 reps. The ME method does not need to be performed to failure, instead the focus is on moving the weight as fast as possible in order to maximize the number of muscle motor units recruited. Using the ME method requires long rest intervals of 3-to-5 minutes to allow both neural and metabolic recovery. Powerlifters training for the 1 rep max in bench press, squat and deadlift apply the ME method of strength training for their workout programs. ME lifts should use extremely heavy weights for 1-3 reps.
Lifting explosively activates muscle motor units
5.The Dynamic Effort (DE) method of training focuses on the rate of force development to recruit more type II muscle motor units. Explosively moving a weight requires rapid force production and the nervous system responds by triggering the type II motor units which can produce a high amount of force in a short period of time. The DE method can use elastic bands and chains to create a variable load allowing the lifter to accelerate as fast as possible all of the way through the movement. Olympic weightlifting is the perfect example of the dynamic effort. DE lifts should be explosive and use the 2-5 rep range.
Increasing lifting volume increases muscle size
6. The Repeated Effort (RE) method of weight lifting uses a moderate amount of weight performed until momentary muscle fatigue. Muscle motor units are recruited based on the size principle: when a muscle receives the signal to contract it will recruit smaller type I units first, as the need for force increases the larger, type II units will be called into action. Performing a lift to fatigue at approximately six-to-eight repetitions is one way to recruit all of the involved fibers within that muscle. How bodybuilders prepare for competition is the application of the repeated effort method of strength training. RE lifts should be done to failure in the 12-20 rep range.
Rest: the real secret to muscle growth
7. Rest. This is a requisite component of success for high-performing strength athletes. The training session is when the muscles work, but it’s the post-training period when muscles rest, refuel, repair themselves and generally recover to prepare for the next training session. On those days when you want to focus on developing max strength make sure you allow time for adequate sleep that night for optimal tissue repair and recovery.
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Not only can strength training result in bigger muscles, but it can help you slow down the effects of the aging process. To learn how buy a copy of Exercise for the Fountain of Youth, only $7.
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This video provides a brief overview of how strength training slows down aging
Training to momentary muscle fatigue can increasing muscle size, but if the goal is to improve muscle strength the exercises should recruit and engage as many muscle motor units as possible which does not always require achieving momentary fatigue. As with any exercise, what may work for some may not necessarily work for all, identifying what will reach your strength goals will require some trial and error.
In addition adding strength requires the appropriate nutrition to support protein resynthesis and glycogen replenishment (the recover and repair process) but that is outside the scope of this post, the purpose of which was to discuss the actual mechanisms of achieving strength gains in the weight room.
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