Tag: powerlifting

Functional Fitness Part 2

Posted on by Michael Devon

We know by now that our body is one integrated unit, so repetitive movements that isolate it into sections cause disconnections throughout your kinetic chain. In our previous post Functional Fitness Part 1 we highlighted some exercise techniques that get a lot of hype, but don’t necessarily deliver the most bang for your buck. In this post we’ll explain why we believe there are better methods to ensure prolonged health and fitness for your body.

We know that the human body evolved to walk upright on both legs, so regressing your training to crawling movements won’t help your daily function. Yes, you’ll feel your muscles working and your brain will think you’re doing something good for your body, but since we don’t walk on our hands our shoulders need a different kind of support relative to our legs. So crawling movements won’t enhance or coincide with the functions of human movement discussed in our previous post- standing, walking, running, and throwing.

HIIT workouts are stressful on your body, and too much stress spikes cortisol and makes it hard to lose fat anyway (plus it’s cumbersome on your joints and hard to sustain for more than a few weeks without some form of pain or injury). So if you’re doing HIIT workouts to lose weight, do the longevity of your body a favor, and stop eating so much. Then just exercise to stimulate muscle tissue in a manner than mimics the way it functions in the real world, so you can sustain your fitness as you age.

Powerlifting can make you stronger but usually at the expense of hernias, stress fractures, disc herniations, torn tendons and ligaments, and compression on your spine. So it’s high risk, low reward because once you injure yourself it’s hard to recovery back to 100%. And in reality why do we need to lift such heavy objects? Humans have developed brains to work smarter not harder. We’ve developed pulley systems, levers, and machines to move objects and do the heavy lifting for us. Compared to other animals, like a silver back guerrilla, we are extremely weak. So the next time you need to move a piece of furniture use a friend to help, or on those rare occasions when you need to move a big rock or firewood, use a wheelbarrow. And get strong at what you do most, standing, walking, running, and throwing. This will help cultivate strength that you can use without damaging your joints.

We share these thoughts to spread relevant information about the human body and the repercussions of the way we treat it. If you like what you do and your body feels okay, keep doing it. But if not, we offer an alternative way to train and sustain your health and fitness.

*Hint; check out the picture from this post, and our last one. Compare how confined the squat pattern is, versus the running one. The bar on the back causes compression, and the running (assuming your joints are adequate- we can help with that) can engage the entire body through horizontal force distribution and create strength and mobility that you can use more often.

How To Move Better

Posted on by Michael Devon

Tension built in the muscles takes pressure off the joints, ligaments, and bones and allows the muscles and tendons to work as the support system for the body.

This all sounds ideal, especially if you’re someone suffering from pain and restrictive movement because of pain. However it’s not guaranteed to happen if you do exercises that compress your structure. Squatting with a bar on your back causes compression on you vertebrae, bench pressing limits the range of motion of your shoulder girdle and disconnects the pec muscles from the powerful oblique muscles, deadlifting causes your lower posterior chain to work but neglects the upper and causes your lumbar spine to overwork.

All of these are very common exercises that are prescribed to build strength, but often what you aren’t aware of is it’s at the expense of your joints, spine, bones, and ligaments. The physics behind these movements causes the muscles to load exclusively through one direction of force, whereas in reality, the same muscles are constantly being used through multiple angles of force.

There are a few problems with this way of training. The movements themselves don’t allow the force to be balanced out through other angles, and so while the muscles are being worked, the nearby joints and ligaments are also being strained. The movements also don’t allow other muscle chains to integrate with the targeted muscles, which leads to overuse and fascial disconnection from the rest of the chain. Finally, since the movements only train one force at a time, when you go to use your body in the real world, the muscles aren’t thoroughly prepared to be resilient against the multiple forces acting on it.

These movements do make your muscles stronger, but only within the context of the exercise itself. Once your body is off the bench, or the bar isn’t on top of it, your muscles have not been conditioned to withstand other forces. Additionally your muscles have not been conditioned through integration and all the built in connections are not linked efficiently so muscles are working on their own to help support you. Like you’re in a canoe with a group and you’re the only one doing all the paddling- the group should work together to make the paddling easier and the water more enjoyable. Your muscles should learn to work the same way.

Another point to consider is that the exercises themselves cause strain on the joints, ligaments, and bones from the dysfunctional mechanics during the movement. But the exercises can indirectly affect the joints, ligaments, and bones later down the road, by not offering the right support from your muscles when you move in the real world. In other words, the exercises aren’t preparing your body for reality.

Exercise should be used to build resiliency to life outside of the gym. This concept is one that our trainers always remind our clients of when we teach them exercises that align with this principle. The result is a stronger body, leading to less pain and old injuries being resolved in the process.

Come to our gym and learn what is best for your body and how you should be exercising to promote longevity and sustain your fitness.

How Do You Train Your Pecs?

Posted on by Michael Devon

Did you know your chest muscles (the pecs) dominate movements like punching, throwing, and even running?

The pecs were designed for these functions via human evolution- throwing spears, pumping the upper body when running from danger, and fighting for survival.

These muscles also connect into multiple kinetic chains and when we move, they function together with the rest of the chain to produce more power and efficiency. For example, the pecs share functions with the nearby oblique muscles and function more often through rotational mechanics, like throwing, instead of exclusively pressing motions.

Traditional chest training like the bench press and pushups will make your pecs stronger, but not the rest of the chain your pecs connect to. Therefore you’re only strong at the bench press and not functional activities that require you to use your pecs the way they were designed.

The bench press is one exercise we were taught to make our chest stronger, but the chest predominately functions in different patterns than the bench. When we go to use our pecs the way nature designed them, but we’re unnaturally training them, they aren’t prepared for reality and injury risk goes up.

Come work with trainers who know the way your muscles need to be trained, and how to teach exercises that go hand in hand with their natural function(s). At our gym, your muscles are prepared for real life so your body can function without pains and injuries, the true meaning of strength.

Muscle Power

Posted on by Michael Devon

A muscle will produce more force when it is used in integration with the other muscles in its fascially connected chain/sling.

To add to that, if you focus solely on “lifting heavy” weights on a limited range of motion exercise like the bench press (as evident by the picture), you’re packing on unfunctional muscle that can’t reach its full length potential when you need it to, away from the gym.

This can alter the tension relationships between your muscles and cause postural imbalances and injuries/pain further down the road.

It’s important that muscles function as they’re designed to and that exercise respects and enhances those functions.

We’re less about exercising and more about functioning. If you work to enhance the function of a muscle then as a byproduct you’re exercising, because if your muscle doesn’t function the way it should, then the simple act of trying to teach the muscle to perform that function will be a challenge on your muscular and nervous system, and produce the same benefit as exercise but with the added benefit of enhancing your muscle function.

The exercise pictured, the bench press, is not an exercise that you can learn or even relearn function for the pecs because it doesn’t allow the pec muscles to function the way they need to. It only isolates the pec muscles in one plane of motion, and with a limited range of motion that they rarely ever go through in the real world. Think about it, how often when you’re walking down the street or running when you play sports do you drop down to the floor, lie on your back and push weight off your chest? Or even drop to the ground and do a pushup for that matter? The answer is obviously, never! So this is an example of an arbitrary exercise that really doesn’t serve a functional purpose. Maybe for an offensive lineman on a professional football team, but even then they are standing upright when they are pushing someone off of them so the context of the bench press lift doesn’t carry over as much as we think it does.

The bench press lift itself is fairly limited and doesn’t train the rest of the fascial chain/sling that the pec muscle is a part of, so it’s not going to produce as much force or power because it’s just the pec muscle activating by itself.

Try this. Tap your index finger on your desk and feel/listen to the sound it makes when it contacts your desk. Now use your other hand to pull your index finger back (essentially winding it up) and then let your index finger slam down on the desk. It should produce a louder sound and feel more powerful than just tapping by itself. This example is showcasing how weak the muscle is when it works in isolation, but by pulling it back with your other hand you are involving more of the nearby muscles and stretching the fascia that houses it so when you let go it’s ready to produce more force because of more muscle recruitment achieved from a fuller range of motion.

So when you train your pecs, absent of their fascial connections, you’re missing out on the nearby muscles that the pecs attach to resulting in less power output. Additionally you aren’t getting a full range of motion (like your finger pulling back more) to get the pec fibers to stretch more, so that you can get a deeper contraction after the stretch. Although we’ve focused on the pecs as the example, the same can be said of every muscle on your body. The more muscles you can connect with a movement, and completing a larger range of motion will allow better force production and power from that muscle, resulting in overall better function.

When you have been used to a certain way of training and exercising your entire life, whether from high school athletics, body building magazines, commercial gym culture, or YouTube videos it can be hard to grasp the concepts of what real functional training aims to do. So if all of this doesn’t make complete sense, don’t fret, this is on the cutting edge of where the fitness industry is shifting and it challenges the brain and body at the same time. We’re here to help provide clarity and direction for those wanting to workout to enhance their function in life outside of the gym. This approach is different from general exercise to just get a workout in, versus exercising to improve the function of a muscle and a muscle chain/sling as described above. The latter will have the body in a healthier state and improve the overall fitness of the body, as opposed to becoming better at exercises we’re teaching your body how to become better at functions so it can perform in any given scenario.

For more visual examples demonstrating this concept, be sure to follow us on social media, @safunctionalfitness, to see exercise videos showcasing how we train entire muscle chains through entire ranges of motion.