1) A system that can be implemented for multiple purposes in athletics such as predictability of how an athlete will recover from an injury and risks that may set an athlete up for an injury. And the possibilities of creating a “Moneyball” type system.
2) What neuroimpedance is when injury occurs.
3) Introducing the two categories of the Kinematic Sports Analysis System (KSAS): Predictive and Athletic Functional Capacity (AFC).
4) How athletes and people like us make movement choices based on our limitations.
The Real Athletic Potential: Athletic Functional Capacity
Have you ever watched ESPN’s Sportscenter and witnessed our elite athletes make some amazing plays? Have you ever seen NHL’s Alex Ovechkin make an unbelievable shot while falling towards the ice? Or have you seen a line drive hit by Derek Jeter towards Clayton Kershaw and are absolutely sure that Kershaw’s face is the target, yet he “reflexively” sticks his glove out to snag the ball? Magic Johnson used to be ostensibly “clairvoyant”, running down the lane to pass the ball through four large defenders to Byron Scott for a layup. These almost superhuman tendencies are what I want to quantify. \
The measurement tool that I want to employ starts with this question: Does neuroimpedance have a place in something that seems so natural and graceful?
Have you ever watched Bruce Lee’s 1-inch and 6-inch punch? (https://www.youtube.com/
There must be a way to measure a physical-athletic quotient, measuring if an athlete has the ability to explode onto the stage. Retaining the longevity of a professional career (like the Dodgers’ Yasiel Puig)? I believe that Neuroimpedance and AFC could evaluate and answer these burning questions.
Of course, there are a few variables that cannot be accounted for, such as a major fall or collisions into walls and freak accidents. But even if they did, what is there a way to get an athlete back on the court or the field faster than expected and fully revived? Alternatively, there must be a metric to count out an athlete as unsalvageable.
This AFC may even contain the predictive value to provide information regarding the ability for an athlete to heal faster than expected from minor injuries. The AFC would be a great tool to determine if they are fit to play or even allowed to return back for the rest of the game after an initial injury.
These tools are introducing a new-era of sports strategy that doesn’t rely purely on statistics. This strategy of the future would consider the increasing chances to keep athletes healthy, prevent injuries, assess injury risks, and of course find weakness in the armor of major opposing stars. In fact, I am introducing an entirely different paradigm of athletic ability and longevity, which in turn will allow us to predict and prevent injury.
Analyzing “Natural” Tendencies -
Refresher on the KSAS categories of AFC
Athletic Functional Capacity (Below Average, Average, Above Average, Athletic, Elite)
We all have that one naturally gifted athletic friend who “has good reflexes” (as coaches ceaselessly remind us).
I too have such a friend – Eric, the amazing athlete in every sport - swimming, running, tennis, or snowboarding – and his movements looked so natural. His movements were always a step above “regular” people. This “physical genius” is intangible, but measurable; nothing that any “regular” person can do can put them at the same innate level of athletic superiority of these naturally gifted athletes.
For example, Eric, now at 32 years old and years of smoking in and a distal ankle fracture with screws marred his background, leading me to believe that he was never bound to be athletic again. Or so I thought. With as little as two weeks of training, a brand new road bike, and new shoes he had yet to break in, Eric decided to compete in the Ironman competition, and he finished! To him all the training was nonsense and he did it with relative ease, when all others, including me, were certain of his demise.
By utilizing the KSAS, I was armed with the viable tools to assess his neuromuscular system – within two weeks of therapy and evaluation; his ankle was in near pristine shape for the race. He is simply built to heal and perform at an elite level.
The “intangible” in Eric’s feat and others like him is due to his almost complete lack of neuroimpedance from the messages sent from his brain to his ankle. With the proper retraining, normally take months to rehabilitate took two weeks. There was nothing impeding his incredibly refined system when assessed with Functional Manual Therapy™ testing measures and some others in the KSAS.
As mentioned in part 3, Rehab and Revive has branched off to further my research in the KSAS and we have signed our first professional athlete, Chris Pena, an MMA fighter. He too, is a neuromuscularly “quick learner”, albeit less than Eric.
If pitted against each other then, who would emerge victoriously? The trained fighter or the naturally inclined athlete?”
If my values stand correct, if Chris and Eric were pitted against each other 10 times. I’d likely favor Eric to win a majority of the time based on his AFC.
A summary of the conceptual theory of KSAS I’d like to impart:
- Issues with transmission and capacity yield and set-up athletes or individuals for injury
- If transmission and capacity are intact and no neuroimpedance issues are detected then KSAS measures the AFC category and will help an athlete measure his/her efficiency as she recovers and builds towards sports enhancement to handle the stresses of their respective sport.
We can and we will get better TOGETHER,
Dr. Justin C Lin