It’s time to understand what training for an athlete is all about. Parents and athletes are seeking out training services in great numbers and are confronted with more options year after year.

A real problem for people is that they see stuff like P90X, Crossfit, bodybuilding style training, or any kind of general fitness training and they get confused into believing that it is good training for an athlete. What they need to understand is that these training styles do not necessarily give you high performance. Many times adults and their young athletes fall into the trap of pursuing training without truly understanding if it will be beneficial or detrimental to their athletic development. What we have compiled below are some common FAQs or Frequently Avoided Questions that should be answered before you begin an organized training program aimed at developing a young athlete.

1) What are the demands of the sport?
Does your strength coach/personal trainer actually account for the sport you participate in, understanding the biodynamics and bioenergetics of the sport and adjusting your training accordingly? Or do they simply plug you into their system and make you workout based on what they know how to do, not what you need as an athlete? Understanding the anatomy and physiology of sport is highly critical in the design of athletic and sport performance training. If you’re coach or trainer does not understand these concepts as they relate to your young athlete’s sport(s) of participation, they will fail to produce significant results.

Don't buy into "functional training" hype. Simply ask them, how exactly is this functional for my young athlete? You'll be surprised at the sales pitch you may hear.

Read more:

What is Functional Exercise?
Training for Elite Athletes
Identifying Strength Needs for Athletes
Guidelines for Selecting a Strength Coach or Personal Trainer
2) How does training impact a young athlete’s muscle fiber typing?
Muscle fiber typing is specific to slow and fast twitch muscle fibers. Understand that slow twitch muscle fibers are highly resistance to fatigue and do not produce much force, making them more favorable for use during distance/endurance training and lighter resistance training workouts. Fast twitch muscle fibers are more easily fatigued but they produce a great deal of force and are needed to be fast, explosive, and strong.

Coaches and trainers can run the risk of any transitional muscle fibers being pushed to low threshold, high endurance-based muscle fibers when they make power-speed athletes do far too much distance endurance training or high rep weight training. Power-speed athletes make up the bulk of team sports such as football, hockey, baseball, basketball, and track & field events such as sprinters, throwers, and jumpers. This is not a comprehensive list, but none the less provides you with an understanding of just how many sports are highly dependent on power-speed qualities.

Athletes need to utilize training methods that push transitional muscle fibers to a more high-threshold, fast-twitch muscle fibers.  Transitional muscle fibers are highly sensitive in the young athlete, especially in the teenage years.  If improper training methods are utilize, you will lower their ceiling of athletic potential.

Read more:

Common Mistakes in Developing Young Athletes
Success or Failure: What Are You Setting Your Young Athlete Up For?
Two Common Misconceptions in Endurance Training
3) Does quick feet training make sense for an athlete?
The majority of quick feet training involves the use of dot drills and speed ladders. These drills do nothing to reinforce proper mechanics of sprinting or ice skating. Just watch for yourself. When these drills are performed, kids are standing upright with minimal hip and knee bend utilizing short, choppy strides that impart very little force into the ground. This is completely contradictory to what any sprint or skating coach would demand from their athletes. The fastest guys are the strongest guys because they put more force into the ground. Quick feet training makes no sense.

Read more:

Don't Fall for the Speed Trap
Choose Consistency and Intelligence in Training, Forget the Rest
4) Does high rep weight training for time make sense?
The whole point of strength training is to improve the efficiency of how your nervous system works. The heavier the weight, the more motor units and muscle fibers your brain needs to call upon to execute the movement. The more motor units and muscle fibers in use, the more force you produce. But we just don't need force, but athletes need to produce force quickly. The faster they produce high amounts of force, the faster and more explosive they become. Pretty simple.

Your brain will not call upon a lot of muscle fibers to execute a movement against light weights. This process of selection exists on a continuum and you don’t get to high-threshold, fast-twitch muscle fibers until you start hitting close to 80% of your 1RM (rep max) or higher. It doesn’t matter how many reps you can do against light resistance. So while the P90X and Crossfit people are doing tons of reps with light weights and little to no rest intervals, you’ll never tap into those muscle fibers that power-speed athletes thrive on for success in their sport.

It’s the complete opposite training you want to do for athletics like football, baseball, hockey, basketball, and just about every power-speed track & field event. Especially for teenagers because you can influence the muscle fiber make-up and the ratio of slow twitch to fast twitch fibers of young athletes. This will have tremendous impact of the athletic development or destruction.  Again, high rep weight training with little to no rest serves no purpose for a young athlete and contradicts the demands of athletics.

Read more:

Drop the Confusion, Athletes Need Consistency for Efficiency
Have You Mastered Your Movement?
3 Reasons You Should Train for Maximal Strength
Why Athletes Should Avoid HIIT Programs
 

Had a couple quick thoughts on sports performance training that I wanted to share, so here it goes….

1. Advanced athletes don't always need Special Developmental Exercises (SDE)
One of the more popular trends in the fitness industry is “sport specific training”. While the training of advanced athletes must always consider the specifics of their sport, this does not always mean they need advanced exercises. For the young athlete and athletes with minimal training experience, there is no need for advanced exercises or the “Train like the Pros” mentality. This is generally well understood. However, when it comes to high-level athletes or athletes with several yeasrs of training experience, coaches/trainers may assume that they need highly innovative, cutting edge training. Parents can also fall into this trap as well due to marketing tactics. The truth is that they need the basics too. They need the basics just like everyone else. In some cases, they may need a lot of the basics. It can be surprising how poorly some high-level athletes move when they are removed from sport.

With that said, keep in mind that high-level athletes generally have the ability to adapt very quickly to repeated exposure to a given stimulus.  They have the ability to make dramatic improvements from week to week in terms of quality of movement, strength, and power development. This ability is a huge reason as to why they are such gifted athletes. The value of Special Developmental Exercises (SDE) in the preparation of high-level athletes for sport competition cannot be understated, but nothing can take the place of sound coaching that utilizes effective program variations and additions to meet the ever-changing complexities of the individual. When it comes to high-level athletes, programs may need to be updated at higher frequencies to promote continual development of the desired physical attributes the athlete needs. These updates should never be random, but applied with purpose and intent to promote continual development.

At the end of the day, some high-level athletes may be better served by training that focuses on the basics and laying a foundation for continual development through proper periodization rather than concentrating their training on fancy, innovative training methods.

2. Where you “feel " the exercise is just as important as how the exercise “looks”
We all know therapists, trainers, and gym gurus who preach “technique, technique, technique”. The importance of technique does not need repeated, but the idea of textbook technique may be more of a myth than fact. Technique, like exercise programming, should not be handled "one-size fits all" fashion. How an exercise "looks" is important, but what is too often forgotten in regards to exercise is where that individual "feels" the movement. For example, you observe an athlete performing a movement with what appears to be “perfect technique”, yet they do not “feel” the movement activating muscles in the right places. This example also highlights why feedback from an athlete can be extremely valuable. It is extremely valuable to know where your client/athlete “feels” the exercise. Don't just assume they are feeling proper muscle activation all because the exercise “looked good” from a technique viewpoint. Helping the client/athlete to "feel" the exercise while maintaining proper technique simply comes down to coaching, tweaking technique, and/or finding the right cues to promote the visual imagery necessary for them to connect their brain to the movement.
More related reading:

https://gallagherperformance.com/quotes-and-insights-from-buddy-morris-strength-coach-of-the-arizona-cardinals/

We get asked quite often about our training philosophy when it comes to athletes. Many parents want to know if the training their child will receive at GP is going to be sport-specific. While specificity in training matters, many of our athletes and their parents are surprised to learn how general or fundamental their training must be in the early phases. What needs to be clarified is understanding how much training experience the athlete has and the physical traits that must be developed. The vast majority of athletes we work with are involved in the sports of football, hockey, baseball, and basketball. Success in these sports are highly dependent upon power-speed qualities. We must train these athletes to develop the abilities that allow them to jump, sprint, cut, and dominate their opponents with brute strength. It's our job to make them bigger, faster, stronger, and more durable. It's our job to physical prepare them for the demands of their sport.

Aspiring young athletes are in need of building a broad foundation rooted in movements that will develop strength, speed, flexibility, and body awareness. For the evidence-based fans out there, we use movements and exercises that all have been proven through research to work. But more importantly, the exercises used have stood the test of time and have served as the backbone to athletic development programs for decades. Sprints, jumps, throws, compound strength exercises, Olympic weightlifting movements when appropriate, and general calisthenics have all play a role in the training of some of the greatest athletes in the world.

But the exercises are not simply enough. Almost every single one of our athletes must be exposed to a high volume of training without a high degree of variation. It's important to respect the neural adaptations young athletes or novice trainees undergo during the training process. High volumes of training will help ensure motor learning and skill acquisition while developing the connective tissue strength needed for more intensive training down the road.

This template serves to lay the foundation for the neuromuscular qualities required to meet the increasing needs for speed and power development. It's simple math really. If an athlete improves relative strength, that athlete will be faster and more explosive. Keep in mind that that other factors can be at play too. For instance, that same athlete must also maintain or improve movement quality to improve speed and explosiveness.

However, these are only portions of what goes into a quality athletic development program. It's much more than simple "strength and speed". This is why we feel the value of a qualified strength and conditioning coach or athletic development coach is severely under appreciated. Unfortunately, far too many people have been misinformed by either poorly educated trainers or by the internet. They haven't experienced the difference guided athletic development can make in their performance. Having a coach to guide young athletes not only in their development, but also in areas such as nutrition and cultivating the mind set needed to achieve their goals can give them a huge advantage over their competition.

That's why we love what we do at GP. Not only do we get to work with clients and athletes that have big dreams and big goals, but we also help them develop habits that create a healthier lifestyle. When we have them giving us their best, they deserve nothing less than our best!

More related reading:

https://gallagherperformance.com/understanding-the-benefits-and-concerns-of-youth-strength-training-programs/

https://gallagherperformance.com/periodization-keep-athletes-track-fo-success/

https://gallagherperformance.com/the-essentials-of-speed-training/

In the attempt to improve athletic performance or prevent sports-related injuries, it is common to read that muscles in the body should be balanced. At times, what “balanced” means is never fully explained and is often assumed to mean that muscles on both sides of a joint should be equal in qualities such as endurance or strength. As a result, trainers and coaches may advise athletes to perform equal training for musculature on all sides of a joint to ensure balance.

The intent is to achieve symmetry. Not just at one particular joint, but often throughout the body. The goal is to see symmetrical movement on both sides of the body. Consider how therapists and coaches will use movement-screening systems to evaluate movement and then apply correctives with the goal to ‘balance’ the body or to reduce the risk of injury.

However, one must question if this the most intelligent thing to do in relation to high-level athletic performance. 
From the few studies done on this topic and from observation, symmetry may not be an effective means of improving performance. Rather, It appears that the majority of high-level athletes are asymmetrical.

This should not be surprising if you have been looking closely at high-level athletes. I recently attended the ACA Rehabilitation Symposium in Las Vegas over this past weekend. Professor Stuart McGill was one of the featured speakers and he has extensively researched the factors which make great athletes great. Professor McGill provided numerous examples from cases he has seen over of the years of athletes being ruined by someone attempting to 'balance' their body. The intent was on improving their performance or ‘correcting’ movement, yet the end result was making that athlete a patient. Essentially, he cautioned us all as chiropractors, therapists, and trainers to be very wise in what we do with our athletes.

One example he provided was Olympic sprinters and how many of them have very stiff, tight ankles. He stated how this is necessary for their performance and ultimately their success as elite level sprinters. Their ankles must be stiff to serve as ‘springs’ for explosive running. Yet, as he stated, many therapists would want to ‘mobilize’ their ankles and ‘release’ or ‘stretch’ the musculature surrounding the ankle to improve range of motion. However, now you have robbed them of the very thing that makes them a great athlete in their sport.

His example brought to mind a high school football player who trains at GP. He is our fastest athlete and his ankles are incredibly stiff. This stood out immediately upon his initial assessment. Did we do anything to mobilize his ankles? No. We didn’t touch his ankles, understanding that his ankle stiffness is what made him fast. Made him incredibly agile and quick.

If you try to balance muscular development or joint function, it can potentially interfere greatly with an athlete’s performance. It’s important to remember that what makes athletes asymmetrical also makes them great. It is not only a consequence of their training, but often what their sport demands. To take time out of their training to balance their body arguably interferes with more productive training.

This does not mean that they do not do exercises to keep their body healthy and prevent injury. We have our athletes perform many exercises for this purpose, but they are typically done during the general preparatory period, not in the competitive or precompetitive periods.

Former Soviet Union sport scientists studied this concept. The Soviets understood that asymmetry appears to be a key to athletic success. Asymmetry that is produced appears to allow athletes to go above and beyond what other ”well-balanced” athletes are capable of doing. It seems that the asymmetry allows the athlete to perform on a higher level.

There appears to be enough evidence to indicate that perhaps we should not be anxious to 'balance' every athlete’s physical development. Keep in mind that this does not mean that you ignore development of antagonistic muscles. But you do not emphasize them to the same extent as you do with the main muscles and joints involved in the execution of the athlete's competitive sports skill.

More related reading:

https://gallagherperformance.com/athletic-development-will-your-child-be-a-success-or-burn-out/

https://gallagherperformance.com/does-practice-make-permanent-how-practice-rewires-your-nervous-system/

https://gallagherperformance.com/commonmistakesindevelopingyoungathletes/

When it comes to athleticism, there is a sad misconception among far too many individuals that athletes are "born not made". People that believe this will often say, “You can’t teach speed” or “That’s just a gifted athlete”. While genetics can play a role in athleticism, arguably the greatest impact on an athlete’s development (or lack thereof) is the training system that is implemented. This would include all elements from its organization to exercise selection and other variables.

While all sports have their own unique considerations, ice hockey demands high levels of athleticism. The transfer of training from off-ice preparation to on-ice performance presents a host of challenges. With the nature of today’s game, proper off-ice training can provide youth and elite level hockey players with the advantage they need to elevate their game.

Here are some tips: 
1. WARM-UP PROPERLY 
In preparation for exercise, the body should be moved through large ranges in all three planes of motion (sagittal, frontal and transverse). Movement prepares the brain and body for exercise by activating the nervous system, warming tissues such as muscles and tendons, and lubricates joints. Movements performed in all planes of motion on a consistent basis will improve stabilization patterns, mobility, coordination, balance, and movement efficiency. Making the time to properly warm-up with allow you to get more out of your training. Simply put, it makes training more productive and will reduce the risk of injury.

2. TRAIN MOVEMENTS, NOT MUSCLES 
The human body operates as an integrated system. Joints and muscles are all coordinated by the central nervous system to produce movement. Muscles never work in isolation, meaning that there is always a pattern of muscle recruitment that occurs with every movement we make. Depending on how we recruit muscles, movement will occur in efficient or inefficient ways. Athletes require mastery of movement. Unlike those who train to for basic fitness or simply to ‘look better’, athletic development and performance-based training programs aim to improve how an athlete moves. Goals focus on strength, stability, mobility, speed, and skill execution with a high degree of movement efficiency.  Sure many athletes look good, but this is often a by-product of their training, not the primary goal.

There can be a mistake in young athletes simply go to the gym and “working out”, either by themselves or with their friends. Especially when they have no plan. If most young athletes are honest, they don’t know what to do during the off-season. Even some trainers have no idea what they are doing with athletes and just “make-up” a training session as they go or select a random workout off the Internet. As the saying goes, “One program on a dry erase board for your group of clients/athletes isn’t training, it’s babysitting.” Higher quality strength and athletic development programs are becoming more available to young athletes; those athletes not involved in those programs will be left behind.

This concept was detailed in our article on Training for Elite Athletes.

3. GET IN TOUCH WITH THE GROUND
This point builds off the previous one. The majority of sport movements and skill execution are initiated by applying force to the ground with the feet/legs. As with land-based sports, the more force a hockey player applies to the ice, the greater acceleration and speed they generate. Strength and power development exercises should be selected based on their ability to enhance ground-force reaction. The same can be said for both speed and conditioning drills.

Utilizing squat and deadlift variations, Olympic lifts, medicine ball throws, jumps, plyometrics, sprints, and hockey-specific agility/change of direction drills would be the most beneficial in developing ground-force reaction. Unilateral movements such as single-leg squats and jumps, lateral bounds, split squats, and lunge variations will also help to develop the movement proficiency need for a powerful skating stride.

4. TRAIN THE CORE FOR FUNCTION, NOT LOOKS
The core is the body’s center of force transfer and movement control. The core is not simply your abs. It includes almost 30 muscles that attach to the spine, shoulders and hips, which function to stabilize the areas during movement. When the function of the core is compromised, inefficient movement results and risk of injury is increased. Hockey and its movement skills require high levels of core stabilization, endurance, strength and power transfer. The demands of athletics on the core will never be met by performing thousands of crunches. Your core training needs a more specific, specialized focus.

Stabilization exercises should focus on things such as maintaining proper lumbo-pelvic posture and the ability to resist or control movement in all planes of motion. Once proper stabilization is achieved, greater attention can be given to rotational power and force generation exercises for increased transfer of training into sport.

5. BE SMART ABOUT YOUR CONDITIONING
The sport of ice hockey places demands on both the anaerobic (alactic and lactic) and aerobic energy systems of the body. For the most part, hockey is an anaerobic game, characterized by intense bursts followed by periods of rest. The anaerobic system is challenged during these intense bursts while the aerobic system is utilized during the recovery period between shifts. This illustrates the need for both systems to be well developed for optimal performance.

Thus conditioning for hockey should focus on an interval-based approach to meet the energy system demand of the sport. Place a priority on developing the capacity and power of the anaerobic-alactic system along with the use of tempo runs/bike sessions to develop the aerobic system. Anaerobic-lactic training is extremely taxing on the body and difficult to recover from. This form of exhaustive conditioning should be used less frequently in the training program.

Remember, conditioning does not mean the same thing as speed training. For more information of developing hockey speed, read this article.

6. RECOVER, RECOVER, RECOVER
Recovery from exercise can be accelerated with proper attention to flexibility, mobility, massage, chiropractic treatment, nutrition and sleep. These approaches facilitate the body’s ability to recover from exercise. Nutritionally, ingesting the proper amounts of whole foods and supplements at the appropriate times during the day can prove to be a huge part of the recovery process. Replenishing energy stores (i.e. muscle glycogen) and providing the building blocks (i.e. protein, fats, vitamins, minerals) for tissue repair and regeneration are just some of the primary goals of proper nutrition. Self-management strategies such as foam rolling and stretching/flexibility work are valuable components in the recovery process. Maintaining proper muscle function and joint range of motion is critically important to minimize injury risk and ensure that you get the most out of your training.

Conclusion
Keep in mind the above tips serve as guidelines. Individual considerations cannot be met in an article of this nature. However, if applied correctly, these guidelines can serve to provide aspiring hockey players with a better understanding of how to go about their off-ice training. For those interested, GP specializes in the training and preparation of hockey players. Contact us for more information.

Matt Fisch (6'5", 190lbs) is a starting power forward for Franklin Regional HS and plays his AAU basketball for the FCA Tar Heels. He will have specialized attention given to adding quality size to his frame while improving overall strength/power in preparation for the upcoming season.

Matt has terrific abilities and difficult to contain when he is on his game. He has already demonstrated the motivation and determination it takes to succeed. We are excited to have him part of GP. Time to go to work!

Welcome to GP, Matt!

Paul Emanuele (RB/DB, Franklin Regional HS) is currently in training with specific attention provided to strength/explosive power and speed in preparation for a number of combines this summer, with the most recent being this weekend at the University of Pittsburgh.

Like all athletes who see consistent improvements, Paul has been a hard worker since day one. Tremendous athletic ability and hard work are always a dangerous combo. Paul has the speed, quickness, and power to break open a game at any moment.

Welcome to GP, Paul!

 

Driven by Business
Speed, Agility, Quickness (SAQ) training has a unique ability to draw larger amounts of young athletes with promises of becoming a faster, more agile version of themselves. These facilities or individual coaches commonly use methods such as high speed treadmills and ladder drills. The SAQ system is terrific for business because they appear to provide athletes with what they need. However, these systems often fail to produce sustainable, long-term adaptations to improve speed.

When you consider what true speed development is all about, you begin to see why these methods do not work. And even why they may carry a high injury risk with them. Sure these methods will work for some athletes, but they are typically athletes that are already slow. Does this justify using less efficient means? Let's take a look.

# 1 -  High Speed Treadmills
The mechanics needed for ground based speed are entirely different from the mechanics utilized on a treadmill. On a treadmill, the surface moves underneath you whereas on land, you must move over the surface. Training on a treadmill does nothing to develop an athlete's acceleration or drive phase, arguably the most important element of speed in sports. High speed treadmill training becomes about who can pick up their feet and put them down the fastest instead of how much force is being applied to the ground. Furthermore, at high speeds it becomes easy for form to breakdown and ingrain poor mechanics.

#2 - Ladder Drills for Foot Quickness
Ladder drills simply make you good at ladder drills. There is no correlation to actual speed development and developing one's ability to have 'quick feet'. Any benefit to speed can be negated by teaching athletes to chop or shorten their strides. These drills are best suited for a dynamic warmup, but if you think you are going to develop Robert Griffin III agility you are only fooling yourself. Agility is developed from improving relative strength and the practice of sport skills.

How True Speed is Developed
The science behind the world's fastest man, Usian Bolt, gives insight into what true speed development is all about. More important than how fast an athlete moves their legs is the power in their stride. An average runner's stride applies about 250kg (550 lbs) of force to the ground in roughly 0.12 seconds of contact. Bolt's stride applies over 1000 lbs of force to the ground in roughly 0.08 seconds of contact. That's a significant difference. High speed treadmills and ladder drills will not develop high level speed because they ultimately fail to train the physical abilities that enable an athlete to realize their true speed potential.

Speed and acceleration should be train through proper technique instruction and developing power-speed qualities such as limit/maximal strength, explosive strength, ground reactive forces, and rate of force production. These abilities train athletes to develop high amounts of force in a brief amount of time, developing the power that enables them to accelerate quickly and achieve top end speed faster.

The process of speed development must also take into consideration the concepts of Long-Term Athlete Development (LTAD).  Young athletes, both male and female, have unique time periods during which their speed development is very sensitive. These "windows of optimal trainability" must be capitalized on or else the athlete's true speed potential will never be realized. For the vast majority of youth athletes, they miss these windows of opportunity because of over-competition and under-training that is often seen during the ages of 8-13.

Final Thoughts
As with any physical quality, the critical periods for speed development will vary between each child due to his or her genetic makeup. Each critical period respects the stages of human growth and maturation as scientific evidence demonstrates that children vary considerably in their rate of response to different training stimuli. Some children may show potential for speed at age 10, while others may not display the same potential until years later. Consequently, a long-term approach to speed development is needed to ensure that athletes who respond slowly to training stimuli are not ‘shortchanged’ in their development.

This is why a knowledgable coach who understands LTAD models and is skilled in recognizing "windows of optimal trainability" for speed, strength, stamina, suppleness (flexibility), and skill development should be sought out. If the the trainer or coach who is responsible for training your child does not understand LTAD models, I would think critically about the services you are paying for.

"People are incredibly innovative in their efforts to screw up training."

- Charlie Francis, Canadian Speed Coach