Bowl Game Tap Out: DomTech's Take

Christian McCaffrey is not the first high-profile player to decide to sit out of his team’s bowl game, and we predict he will not be the last. Jaylon Smith’s worst case scenario example is worrisome to players who have millions of dollars of future earning potential on the line based on their draft status. Jaylon was injured in Notre Dame’s Fiesta bowl game against Ohio State last year. Entering the game, he was widely projected to be a top-5 NFL Draft pick. During the game, he suffered an ACL and MCL tear and was dropped to a second-round pick. This resulted in Jaylon receiving a $4.4 million guaranteed offer from Dallas, in comparison to the actual 5th overall pick, Jalen Ramsey, who joined the Jaguars for $22.9 million guaranteed. 

Obviously, there is a risk for injury in every game played as a college athlete, but when the regular season is over and every team’s national status has been set, why should players participate in a bowl game that is nothing more than a profit machine for the industry? 

When the first six bowl games were established in the 1930’s the NCAA was outraged by their existence “because they serve no sound educational ends, and such promotions merely trade upon intercollegiate football for commercial purposes.” By the 1980’s the bowls were being sponsored by major corporations and were paying schools more and more money to come participate at their locations. Fans then began pushing for the bowls to help crown a national champion, and by the 1990’s the Orange, Fiesta, Sugar and Rose Bowls came together to establish the Bowl Championship Series.

Yes, the BCS, and now the College Football Playoff that has replaced it, helps to give purpose to bowl season and allows one team to be the reining national champion, which is worthy post-season motivation to play.  But the origin of the bowl games is rooted in profitability and greed. The non-CFP games exist solely for profitability and have meaningless outcomes, so why risk becoming the next Jaylon Smith horror story?

Some believe McCaffrey is abandoning his team and being selfish in his decision to sit out of the game, but he has received nothing but support and understanding from his coach and his team. Much of the media is also supportive of his decision and are predicting that this is a trend that will gain traction over the upcoming seasons. Why should players risk their personal financial status just to play in a game designed to make money for other big wigs? We say good for you McCaffrey, see you in Indy.

-Emily De Lena

Hamstring Injuries: Why they happen and how to deal

At all levels of sport, hamstring injuries remain one of the most challenging injuries to deal with. Most commonly seen in track, football, and soccer¹, hamstring strains present a challenge to all athletic trainers and physical therapists, as evidenced by the high rate of reoccurrence: almost 1/3 of athletes with hamstring injuries are reinjured within a year².  With how difficult these injuries are to treat, what’s the best way to attack rehab and return athletes to their prior level of sport?

              Having worked track and field as an athletic trainer for 5 years now, this remains one of the toughest and persistent injuries I deal with every year. There are many risk factors that need to be evaluated and addressed, from the core and pelvis all the way down to the foot and ankle¹. The majority of initial hamstring injuries I evaluate are not caused by insufficiency at the hamstring itself; rather, this seems to be where weaknesses elsewhere in the kinetic chain manifest themselves and cause injury. On the other hand, eccentric weakness in the hamstring muscle after injury has been consistently identified as a risk factor for re-injury^1,3.

Rehabilitation of hamstring strains needs to target all these deficits. In my rehab, I initially target the glute muscle in all 3 planes of motion while the hamstring itself begins to heal, as I’ve found that the vast majority of athletes do not effectively use the glutes. I’ll also use functional core exercises in the initial phase. As the hamstring heals and we are able to begin rehabilitating the muscle itself, I’ll begin more complex motions involving the core, glutes, and hamstrings together in a more functional manner, re-evaluating frequently to determine when to best let the athlete return to jogging, running, and finally, sprinting and return to sport. In every case, I discuss with the athletes the importance of continuing a maintenance rehab program to minimize the risk of agonizing re-injury.

             

-Chip Wintringham

1.     Heiderscheit BC, Sherry MA, Silder A, Chumanov ES, Thelen DG. J Orthop Sports Phys Ther. 2010 Feb;40(2):67-81

2.     Foreman TK, Addy T, Baker S, Burns J, Hill N, Madden T. Prospective studies into the causation of hamstring injuries in sport: a systematic review. Physical Therapy in Sport 2006;7:101–109.

3.     Orchard J, Best TM. The management of muscle strain injuries: an early return versus the risk of recurrence. Clin J Sport Med 2002;12:3–5. [PubMed: 11854581]

Mental Toughness: Tough or Stupid?

“I found that to build mental toughness, you need to inconvenience yourself. The early morning runs, if you hate early mornings. The late night runs, if you hate late nights. The snowy cold, the worst conditions you can get, put yourself in those and really make it inconvenient and you start to get a genuine expectation of winning for the price you have to pay.”

~ Chael Sonnen

I don’t have a problem with mental toughness.  I do have a problem with mental stupidity: 

• It’s good to do it because it’s hard!
• No pain, no gain!
• Mentally strong people never say “I can’t”

 

You see this kind of “toughness” too often in sport.  My athletes loved Dr. Eric Thomas’ viral youtube video “How bad do you want it?”  Have you seen it?  It took me a year to undo the damage they experienced from it and convince them that yes, they did indeed need to sleep in order to recover and train the way they needed to for success.  You see, no matter how hard you want it, no matter how much effort you’re putting in to it, if you don’t have a clear and rational understanding of the world around you and an accurate assessment of where you currently stand, you have no control over where your journey leads.  It’s like trying to find your way through Chicago with a map of Detroit.  No matter how hard you try, or how great your attitude, you’re still lost.  This is notmental toughness.

 

Like the quote at the beginning of this post, people believe that if they seek misery, they will find success.  But the objective is not to find misery.  The objective is to overcome.  The objective is – through integrity and discipline – to minimize the influence of distractions and rise above your present circumstances.  It’s not about choosing the hard way over the easy way; it’s about choosing the right way over the easy way.  And then executing it. 

 

Maybe you want to go across town.  Perhaps, after reading Sonnen’s quote, you consider running there, because that would really make it inconvenient.  After pausing to reflect, and acknowledging the absurdity of such an idea, you decide instead of running across town (the hard way), you might catch the train (the right way). After mapping out your plan, you need to be at the right station, and the right time, with the right fare.  Make intelligent choices, and have the discipline to follow through.  That’s mental toughness. 

 

We know great athletes are intentional about their nutrition.  Mental toughness is saying to yourself “in order to be a champion I need to eat right.”  Then you need a correct map of nutrition (…and that’s no easy task…).  Then you need the discipline to follow through.  That’s mental toughness.

 

Mental toughness is about resilience.  Like this video of Arthur, who one day decides to organize his life around a quest to walk again.  Yes, he falls down, but he gets back up, and says “Just because I can’t do it today doesn’t mean I can’t do it someday.”  That’s mental toughness.

 

Everything is trainable.  So how do you strengthen your mental muscle?  Start by evaluating your core beliefs – making sure the map you’re using matches the world that’s important to you. Otherwise, you might climb the ladder of success only to find it was leaning against the wrong wall. Replace excuses with solutions.  Once you identify what needs to be done, have the courage to do it.  As you practice tolerating purposeful discomfort, you will find that the courage you once needed to do the right thing is replaced by the daily discipline of being on time, approaching every drill with purpose and intensity, and working hard (even when no one is looking).  And when you fail, and fail you will (failure is not the opposite of success, failure is an ingredient of success), when you find the courage to get back up and start again – core beliefs, solution finding, daily discipline – then that’s mental toughness.

-Eric Dudley 

Nutrient Timing (Part 2)

In my previous article “Nutrient Timing (Part 1)” we walked through a step by step process of how to determine your protein and carbohydrate needs using the research we have available to us. For those of you who missed out, I would highly recommend going back to read it before continuing here. For those of you who may have forgotten your numbers check out my “cheat table” below to get an idea of what you need to be getting. Remember the top of the ranges are reserved for the truly elite athletes training intensely for more than 4 hours a day.

Weight	Weight in kg	Carbohydrate Range in grams	Protein Range in grams
160 lbs	72.7 kg	436-727 g	87-124 g
170 lbs	77.3 kg	464-772 g	93-131 g
180 lbs	81.8 kg	491-818 g	98-139 g
190 lbs	86.4 kg	518-864 g	104-147 g
200 lbs	90.9 kg	545-909 g	109-154 g

Now that you all know what you need; we need to discuss when and how to get it all in. To do this, we will use an example athlete and go through his training schedule.  Timing your nutrients appropriately can help maximize your recovery by replacing your muscle glycogen and suppling proteins to your muscles when your body needs them the most. Let’s call our example athlete Mr. Fartlek. Mr. Fartlek is a 20 year old, 160 pound long distance track runner at a large state university. It is spring time and Fartlek is gearing up for his season to begin with 2 a day practices to go along with his classes during the day. Fartlek’s pre-season training schedule is 2 weeks long and has him doing a long run in the morning that starts at 6 am and then a medium run in the afternoon along with an hour of track work starting at 4 pm.

First we get our numbers. Fartlek is on a fairly intense workout regimen at the moment and he will have to maintain this for 2 weeks without a break. Due to these factors, Fartlek will be on the higher end of our ranges that you see above. I would go with a range of 650-700 g of carbohydrates per day and 110-125 g of protein each day. In addition to the carbohydrates and protein, we will add enough calories from fat for a balanced diet.  To do this we assume carbohydrate intake will comprise of 65% of total calorie intake. Time for some quick math and then onward!

Calories from carbohydrates: 550 – 600 g x 4 calories/g = 2200 – 2400 calories from carbohydrates

Calories from protein: 110 – 125 g x 4 calories/g = 440 – 500 calories from protein

Total calories from carbohydrates and protein = 2640 – 2900 calories

Now to add the fat…

2200/0.65 = 3385 total calories (2200 calories from carbohydrates and 440 from protein, the rest is from fat)

2400/0.65 = 3692 total calories (2200 calories from carbohydrates and 440 from protein, the rest is from fat)

So, Fartlek will need 3385 – 3692 calories each day with 110-125 g of protein, and 550-600 g of carbohydrates. Almost ready to build our meal plan! A few goals to keep in mind as you start your planning:

1.       Unless it causes you stomach discomfort or other “bathroom issues” a pre-workout snack containing 30 g of carbohydrate and low in protein and fat can be beneficial

2.       Immediately post-workout (< 30 minutes) consume a snack containing 30 – 60 g of carbohydrate and 20 g of protein can help enhance recovery time

3.       After planning the snacks, divide the rest of your protein needed to hit your range between your 3 meals. Then do the same with your carbohydrates. If you are eating one of your meals immediately after your workout, just make sure you are hitting the minimum marks from goal 2.

4.       If your goal range is too high for you to be able to meet with pre-workout snacks, post-workout snacks, and meals then add a night time snack or other snacks throughout your day as needed.

Using these 3 goals draw up an outline like you see below:

Morning pre-workout snack (5 am) – 30 g carbohydrate

Morning post-workout snack (7 am) – 30-60 g carbohydrate and 20 g of protein

Breakfast (9 am) – 135 g carbohydrate, 30 g protein

Lunch (Noon) – 135 g carbohydrate, 30 g protein

Afternoon pre-workout snack (3 pm) – 30 g carbohydrate

Dinner (6:30 pm) – 135 g carbohydrate, 30 g protein

Night-time snack – 60 g carbohydrate,

Remember these numbers are rounded and there are plenty of times when each meal will not be perfectly even as shown below. Now you have to build a meal plan to meet these numbers you’ve developed. See the example below for to see how it all comes together (no brand names are included for pre-made items but most are similar).

Morning pre-workout snack – Oats and Honey Granola Bar

Morning post-workout snack – workout shake with bananas, strawberries, and vanilla protein powder

Breakfast – 2 pieces of toast with jam, hash browns, apple, egg omelet with spinach and cheddar, cup of chocolate milk, water

Lunch – Foot long roasted chicken sandwich with toppings, baked potato chips, 1 cup sports drink, water

Pre-workout snack – 1 large banana

Dinner – Pasta, meatballs, garlic bread, broccoli, and chocolate mouse

Night-time snack – Bowl of cereal/oatmeal with cut up fruit

Well, there it is. Sure, it is a long process, but it can help to optimize your recovery. I would recommend taking the time to set this up for the most demanding part of your season where optimal recovery is likely to be the hardest to achieve. That is where you will the biggest benefits of a plan such as the one we just went through. For the rest of you who are in the off-season or simply don’t like math, I would recommend the training plates I have below to guide your meal choices.

Michael Coseo MS, RD, LD

References:

Kerksick, C., Harvey, T., Stout, J., Campbell, B., Wilborn, C., Kreider, R., . . . Antonio, J. (2008). International Society of Sports Nutrition position stand: Nutrient timing. Journal of the International Society of Sports Nutrition, 5(1), 17. doi:10.1186/1550-2783-5-17

Prioritizing Your Training

You can do anything, but you can’t do everything.  So you need to get your priorities straight in training.

  

Physical performance is based on the unique expression of five fundamental physical qualities, or abilities.  They are often referred to as the Biomotor Abilities, and they are:

o Speed-how quickly you can fire your muscles to move

o Strength-your ability to produce task appropriate forces

o Skill-your coordination, postures, technique, form, and efficiency

o Stamina-endurance, fitness, that sort of thing

o Suppleness-it stands for flexibility and mobility.  (I guess that’s the closest we can get and still start with “S”.)

When you and your coach decide on training, it is these five abilities that you need to prioritize. You might ask yourself these questions:

What does the task demand?  

If it is a highly technical skill, like pole vault, you might spend most of your time practicing the event.  Indeed, many of the most successful high school vaulters relied on this model – vault a lot and don’t do much else.  On the other hand, if it’s an event like distance running, you might prioritize stamina and speed.  Indeed, many great runners got by on a lot of running, and not much else.

The demands of some tasks are so specific and straightforward that the answer should be obvious.  Sprinting, for example, requires a prioritization of speed above all else.  If the task is a measure of Speed, it better be your first priority!  (For you throwers thinking that for you it should be all about strength, pause for a moment and ask yourself “do they measure who can throw the heaviest implement, or a relatively light implement the furthest?”  Release velocity is the biggest factor affecting distance, by the way).

What is the next step in your development?  

I had the opportunity to work with an absolutely beautiful vaulter who had refined his skills with many hours of rehearsal.  Since his Skill ability was already strong, we prioritized Speed and Strength instead as a way to provide greater energy input into his vault. 

What do you respond well to? 

As a hurdler I had excellent Skill, good Stamina, fair Speed, and poor Strength. I broke down under the presence of heavy strength training, so I emphasized Speed and my favorite Skill components instead.  It allowed me to stay healthy, enjoy what I was doing, and improve my times.

Once you have your priorities straight, be objective in your evaluation of your training.  Does your actual training reflect your priorities?  Are you a sprinter doing interval workouts 4 out of 5 days?! Are you a thrower seeking the burn in the weight room?!  If so, it might be time for a course correction.

-Eric Dudley 

To Ice or Not to Ice? That is the Question

Most of us are familiar with the acronym RICE when it comes to athletic injuries: Rest, Ice, Compression, Elevation. This was an idea engrained in my mind as a method to best treat the acute stages of inflammation in an injury for as long as I can remember. One of the most common phrases heard in athletic training rooms around the country is “Throw some ice on it”. But what if this practice that has become such a standard in acute management of injuries isn’t actually beneficial?

Most individuals who have suffered a musculoskeletal injury have used cryotherapy in one form or another to manage the injury. If the reason you’re icing is for pain or soreness, ice has been repeatedly shown to be effective, no matter what form: ice bag, ice bath, cold whirpool, etc. Many of us have heard that we should put ice on injured areas to reduce inflammation. There is a large debate on whether or not this is actually effective. Some studies have shown that there’s actually not a change in blood flow to muscle after cryotherapy treatment even though there was a decrease in temperature¹, which would promote the idea that inflammation can’t be changed if there’s not a change in blood flow. This leads to another thought: even if cryotherapy was effective in reducing blood flow, would you want to reduce the inflammation that brings healing agents to body parts that need to begin the healing process? On the flip side, another recent study² in rats has shown that although icing reduced the inflammatory response, it did not inhibit the muscle regeneration that occurred afterwards.

For now, in my clinical practice, I will continue to use ice for this reason: 99% of individuals come to me because something hurts, and ice is very effective in pain management. I will, however, be more aware of my reasons for icing and look for alternative methods to treat symptoms that cryotherapy has long been believed to be effective treating.

-Chip

1.       Selkow NM Day C Liu Z Hart JM Hertel J Saliba SA. Microvascular perfusion and intramuscular temperature of the calf during cooling. Med Sci Sports Exerc. 2012;44(5):850-856.

2.       Vieria RG, Pinheiro CM,  Messa SP, Delfino GB, Marqueti Rde C, Salvini Tde F, Durigan JL. Cryotherapy Reduces Inflammatory Response Without Altering Muscle Regeneration Process and Extracellular Matrix Remodeling of Rat Muscle. Sci Rep. 2016 Jan 4;6:18525.

Nutrient Timing (Part 1)

              

            Of all the topics within sports nutrition, one topic seems to be far more popular than the rest. That is the topic of nutrient timing. Every athlete wants to know exactly how much to eat and exactly when to eat it. While, in my opinion, using the training plates presented in my previous article are the easiest and possibly best way for most athletes to determine their meals for the day, there is some more fine tuning that can be done if you’re ready to do a little math. So get your calculators out and let’s get going.

            With this article we are going to focus on estimating your overall daily needs of protein and carbohydrate. We will focus on these two because carbohydrates are our fuel source while protein is what repairs and builds our muscles. Our next article will focus on using your recovery window as the guiding principle to determine what times during your day you should be getting these nutrients.

            First, let’s talk about how many grams of carbohydrate and protein a typical high level athlete may need each day during training season. What is recommended by the Academy of Nutrition and Dietetics, Dietitians of Canada, and the American College of Sports Medicine is that an athlete consume 6-10 g/kg/day of carbohydrates and 1.2-1.7 g/kg/day of protein. Don’t let the numbers and metric units scare you off!!! Look below for a walk through of the calculations for a 175 lb athlete.

1.       175 lbs / 2.2 kg/lb = 79.5 kg

2.       79.5 kg x 6 g/kg/day of carbohydrate = 477 g of carbohydrates

3.       79.5 kg x 10 g/kg/day of carbohydrate = 795 g of carbohydrates

4.       79.5 kg x 1.2 g/day of protein = 95.4 g of protein

5.       79.5 kg x 1.7 g/day of protein = 135.15 g of protein

There you are! 5 simple calculations and you have your numbers! For our theoretical 175 lb athlete we got a carbohydrate range of 477-795 grams of carbohydrate per day and a protein range of 95-135 grams of protein per day. One more series of calculations!

1.       477 g of carbohydrate x 4 calories/g = 1908 calories

2.       795 g of carbohydrate x 4 calories/g = 3180 calories

3.       95 g of protein x 4 calories/g = 380 calories

4.       135 g of protein x 4 calories/g = 540 calories

So, our final count is 1908-3180 calories from carbohydrates and 380-540 calories from protein each day. What a range! How in the world do you know how much is right for you? The answer comes down to what level of training you are currently in. Let’s take our hypothetical athlete and say he is a swimmer doing 2-a-day practices with a weight lifting session in addition. They would be at the high end of our range. Now, let’s say our athlete is a distance runner having a normal practice during his season. He would be on the low end of this range.

Using these numbers as guides for planning your meals can help ensure that you as an athlete are properly refueling your body with important building blocks for energy replenishment, muscle repair, and muscle growth. Be warned however, if you cannot be honest with yourself about your level of training than you may end up eat way to much or too little food. Also, check out the reference table below for some pre-complete calculations!

Weight	Weight in kg	Carbohydrate Range in grams	Protein range in grams
160 lbs	72.7 kg	436-727 g	87-124 g
170 lbs	77.3 kg	464-772 g	93-131 g
180 lbs	81.8 kg	491-818 g	98-139 g
190 lbs	86.4 kg	518-864 g	104-147 g
200 lbs	90.9 kg	545-909 g	109-154 g

Michael Coseo MS, RD, LD

The Evolution of the Warm-up

If you have been around running for the past 10 years, you have seen a major shift in how to warm-up for a workout or race. When I first began running in the 1970’s, the typical warm-up was of a 2-3 minute jog then a series of static stretches consisting of hamstring, quad, and perhaps some calf stretches. The belief was that these stretches would prevent injury and prepare the body for peak performance. These stretches (we were told) should be held for 30 seconds and we were to increase the intensity of the stretch as the time elapsed. This seemed to make sense and was never really questioned until studies were done in the early 2000’s as to what these stretches actually did for performance. We now know from exercise physiologists that these stretches actually created worse results (various studies show a 3-5% performance decrease with pre-workout static stretching). Not only did the stretching not help performance, they did little to prevent injury.

Thirty years later the recommended warm-up consists of a series of dynamic/active warm-up exercises. Rather than using this space to explain individual dynamic drills (there are many), I’ll instead speak in more general terms. (Google “dynamic stretches for distance runners” for specific drills and videos that address a full body active warm-up.)

Today the warm-up routine for our athletes is very active. (We no longer even use the term “stretching” when speaking of pre-workout or pre-race activity.) In fact, when I implement these warm-up drills at the start of the spring track season, many unconditioned athletes find the warm-up to be nearly taxing as the actual workout. Dynamic warm-up has many benefits beyond just warming up. These drills if done correctly will help reinforce good running posture and mechanics, strengthen muscles, and serve as a great general prep for any race or workout. They have also been shown to decrease the likelihood of muscle pulls and tears.

So fight the urge to static stretch before your next race or workout. Instead get that heart rate up and get dynamic. Running is about motion, dynamic warm-ups will get you moving.

-Coach Rechtin

The Warm-up: Why is it always so hard?

Do you ever start a run feeling sluggish and out of breath? A slow pace is difficult and you're uncomfortable even though you think you should feel great because you just started your run?

This happens to me almost every time I go out. I always knew that after I warmed up I would feel better, but I never really knew why I felt so crappy at first. This post actually explains WHY that happens and what is going on inside your body during this warm-up phase of your workout. So the next time you want to turn around and forget the run all together you can remember you’re not having a bad day, your body just needs a little more time to catch up!

The Warm-up Process: Physiologically

When you first start physical activity, your body is utilizing the phosphogen system and anaerobic glycolysis to generate energy rather than the aerobic system. These systems are used because they generate energy more quickly and they do not require the presence of oxygen to create energy. This is good because when you first begin exercising, your body is in oxygen deficit, which is why many people (myself included) find the beginning of their warm-ups to be very uncomfortable.

During this beginning phase of exercise, your body’s sympathetic (“fight or flight”) stimulation increases having widespread effects on your heart rate, blood pressure, and metabolism. Even though many people think this “fight or flight” response only happens when you’re scared, it is actually what causes your body to adjust to the increased demands of exercise. So now your body begins delivering more blood to your active muscles and less to other parts of your body, while simultaneously increasing overall blood flow by increasing your heart rate and stroke volume (the amount of blood pushed out of your heart to your body). These bodily responses mean more blood; and more blood means more oxygen, and more oxygen means more energy!

Once your cardiorespiratory system has fully responded to the fact that you’re now exercising, a level of oxygen consumption high enough to meet the demands of your working muscles is achieved, and you reach a comfortable steady-state of exercise that can be sustained for 30 minutes or more.

So now you know! Don’t stop when you feel like crap at first, give your body 5-10 minutes to catch up with your ambitions and keep on running.

Cedric X.Bryant - Daniel J.Green - American Council on Exercise – 2010

 Fox E, Bowers R, Foss M. The physiological basis for exercise and sport. 5th edition, chapter 3 https://www.cdc.gov/nccdphp/sgr/pdf/chap3.pdf 

Flat Tires and Bad Postures

So I woke up this morning to go to the gym to work out and wouldn’t you know it…I had a flat tire. So I shrugged my shoulders and got in the car and drove to the gym, the tire flopping and the car pulling left the whole way.  I felt like I was going to roll the tire right off the rim as I rounded the corners.  When I got there I decided I’d warm up by shooting some hoops, you know.  But wouldn’t you know it…the basketball was flat! As I dribbled down the court – pflump, splat, ppttthh – I found myself stooping lower and lower to reach the ball…

 

Flaccid, floppy structures demolish performance, leak energy, risk injury, and demand undesirable compensations.  On the other hand, structures with good integrity, alignment, and firmness are responsive and efficient foundations for performance.  This all begins with postural alignment and strength.

 

On a basic level, posture is pretty simple: straight lines transfer forces more effectively.  For example, you can stand on an empty aluminum soda can as long as the can is in perfect alignment – no bends or dents.  If you indent the side of the can you break the alignment, the can will crush. The key to this is keeping a tall, neutral alignment of your hips and spine.  Hip alignment should be midway between twerking and bad-dog-tail-between-your-legs.  Draw in your waistline in a slimming fashion and feel yourself stand up taller.  The best way I’ve found to set this automatically is to stand up (yes, really, get out of your chair) and reach your hands overhead as high as you can. Now drop your arms and relax your shoulders, keeping the strength in your torso intact.  Nice posture!  Now you’re ready to run, jump, or throw!

 

As we continue our exploration of strong posture lines, in sprinting the goal is to land on a nearly extended leg.  Landing in a bent position will crush you.  Especially in the hurdles.  The same is true when you setup good or bad takeoffs in the jumps.

 

The throws follow the same principles too!  You want to make sure your lines of force are being directed through – not away – from the implement to maximize your performances.

 

How do we develop enhanced postures?  Three ways come to mind: 1) Attention!  Yes, pay attention to standing, sitting, and moving maintaining long postures. 2) Train it.  Just like we can pump up a tire or ball, pumping iron can strengthen our postural muscles.  Especially exercises like squat, overhead press, step-up, and other posturally demanding exercises. 3) Get comfortable in the air.  Too often we are in a rush to get back to the ground in running, hurdling, and the lead up movements to throwing.  The air time is your opportunity to put yourself in position to receive the loads association with ground reaction forces!  In many cases this can be caused by stability issues.

 

So pump up your tires, puff out your chest, stand tall, and be amazing!

-Eric Dudley