Performance Edge

By MIKE ROJAS, Aug 24, 2010

Nowadays, speed training is all the rage in almost every sport. You can find “coaches” marketing weekend camps or group training at schools and parks everywhere. Because it’s so heavily marketed to teams and groups, you feel like you’ll be left in the dust if you don’t do it.

I think we can all agree that teaching the mechanics of running is essential for beginners because technique and form are necessary for achieving maximal speed. But with so much emphasis placed on getting faster, what is a parent or athlete to do?

In my opinion, “speed training” is the latest fad to squeeze money out of misinformed coaches, parents, and athletes. Some parents are usually torn between choosing to pay for speed training or strength training. Well, I’m pretty sure you can guess my answer to this dilemma! The biggest bang for your buck is achieved through strength training. The stronger you are, the more force you’ll be able to apply to the ground, which will make you faster.

To get faster, strength training is paramount because:

1. Force = mass x acceleration
2. Power = force x velocity

You’ll also get better triple extension (locking of the ankle, knee, and hip). We all want to develop more force and power, but what does triple extension have to do with all this? Without locking at the hip, knee, and ankle, maximal jumping and sprinting can’t be accomplished. Triple extension is the key to a faster athlete.

Let’s take a look at the NFL combine. The combine is made up of a series of tests—the 40-yard dash, vertical jump, broad jump, bench press, three-cone drill, and shuttle run. Five out of these six events are lower body dominant, and they test the athlete’s ability to explode from a static position to an all out sprint, jump, or lateral shuffle. Guys running a 40-yard dash under 4.25 seconds are very hard to come by. If you can achieve this type of speed at a combine, you can pretty much assure yourself a very lucrative contract. Tenths of a second can mean the difference between thousands or millions of dollars for certain athletes.

Each position player is looked at as a whole, but the hips and legs are highly scrutinized so separating yourself from the pack is very important. With that being said, quickness is brought about by explosive movements such as cleans, snatches, squats, deadlifts, tire flips, and other movements. I’m willing to bet that the guys who stand out on these tests put in a lot of time performing these types of lifts!

Take a look at a basketball player going up for a blocked shot or a slam dunk. He explodes off the ground by applying as much pressure as possible in order to get as high as possible. Triple extension is very important for all jumping movements. With a proper weight training program, athletes can increase their vertical jump and speed and decrease their chances of injury.

Most people wouldn’t think that swimmers need to lift weights let alone incorporate triple extension exercises. But they have to start somewhere and usually it’s on land. If they’re competing in the backstroke, they push away from the wall with an explosive jump. The weights don’t have to be heavy in order to increase the power derived from triple extension. Jumping or deadlifting with light weight can make a big difference in a swimmer’s starting strength.

Wrestlers definitely need to utilize strength training because they are constantly battling an opponent’s weight and strength. However, do they need to encompass triple extension exercises? Of course. They’re creating tremendous power and force with every throwing movement. For this, we use different types of cleans with dumbbells, kettlebells, and sandbags in order to strengthen their hips. The tremendous grip work involved is an added bonus of performing cleans.

Being a coach, my ultimate goal is to get my clients stronger and faster than their opponents. I teach them technique first, and as they improve, I increase the resistance and workload specific to the demands of their sport. Running around cones and ladders won’t increase their speed nearly as well as a quality strength training program. Time invested in a weight room will yield better results than running with a parachute strapped to your back. It doesn’t matter what surface they compete on—by achieving powerful triple extension through the ankle, knee, and hip, we can create explosive and powerful athletes!

A note from Dave:

As the owner and CEO of Performance Edge I constantly strive to educate my athletes, clientele and those in my community about the necessity and importance of a well-rounded training and/or exercise program. The following article provides some insight as to what the staff and I at Performance Edge work to provide daily…Balance!

Two Sides of the Coin- Mobility and Stability

To start, let’s first give mobility credit where credit is due. Mobility is (almost) everything. If you lack range of motion, no amount of muscle strength will power you through that restricted movement, at least not without serious repercussions – for example, pain. Restricted movements will force the body to compensate, creating further dysfunction. Additionally, if a muscle cannot achieve its optimal length, it cannot generate sufficient force.

In short, good mobility is a basic requirement of quality, safe, and efficient human performance. I am a fan. I’m psyched that the masses are aware that restricted mobility causes trouble and they are ready to take charge and do something about it.

As amazing (and necessary) as mobility is, if it’s “almost” everything, then the other side of the coin is – you guessed it – stability. Stability can exist without mobility, but you wouldn’t get too far. If everything locked down to stabilize, you would have a lot in common with a tree stump. On the other hand, if you had amazing mobility without stability, movement would be next to impossible and sloppy at best.

Thankfully, most of us fall somewhere just off to one side of the correct proportions of each. In other words, we are likely either walking around with a bit too much mobility without sufficient stability, or a bit too much stability without enough mobility.

The Problem of Excess Stability

The first scenario – excessive mobility while lacking stability – is an easy fix. Strength training. Stability work. Get control of all that movement. It would make sense then that in the case of the latter – mobility deficits with excessive stability – the same approach would help. Increase mobility. Stretch, roll, and release. Achieve unrestricted range of motion.

This approach focuses on deficits and increasing what is missing. For my gangly, mobile, Bambi-on-ice patients I want to focus on increasing stability. However, by only trying to increase what is missing, we fail to look at the whole picture. While my goal is not typically to decrease available movement, sometimes, somewhere along the process of increasing stability we might get a reduction in (hyper)mobility. Not necessarily a bad thing.

On the flipside, those with insufficient mobility need to consider the role stability plays in their dysfunction. It is quite easy to come to the conclusion that you have a limited range of motion, but how in the world would you assess that you have an excess of stability? Simple. They are one and the same. Yep, Finkle is Einhorn.

That tight muscle you assault on a regular basis is likely an overworked scapegoat, providing stability to keep you going. In the presence of instability, muscles and joints lock up to hold you together. You’ve always known you’ve had tight hamstrings, but you blame it on not stretching enough, too many posterior chain workouts, or perhaps genetics is your excuse. Haven’t you ever wondered the real reason your muscles were tight?

Did you ever consider that maybe those muscles can’t let go because they are holding on for a reason? When muscles start doing more work than they were designed to do, we have a problem. Tendinitis, muscle strains, decreased mobility. If you can teach a muscle to relax, not by pounding it into submission, but rather by turning on the correct muscles to create stability, the tight, limiting offender might just be able to let go.

The Best Application for Mobility Work

So here we are, in the middle of this mobility craze, borderline epidemic. As I approach the end of my first decade working as a physical therapist, I can say with absolute certainty that the number of people suffering from self-proclaimed mobility problems is an all-time high. Just a few years ago, I’m pretty sure I never heard the word mobility used by anyone outside of the health and fitness fields. At this point, it’s a tossup between selfie and mobility for most overused words.

Worse yet, mobility is not just an overused part of our lexicon but it is now becoming the sole approach to address movement dysfunction. Over-prescribing mobility drills for poor movement patterns is not all that different than a physician doling out antibiotics for every ailment. Just like medication, when the right drills are applied for the right condition, mobility work will be successful.

“Normal” mobility, without question, is a requirement to perform safe, efficient, and quality movement. Mobility drills such as stretching, foam rolling, and the like are all good ways to increase soft tissue pliability and increase range of motion. But for those of you consistently chipping away at these drills without yielding the desired change, perhaps it is time to step back and see what else may be going on. It’s time to ask where immobility stems from. If mobility work hasn’t helped yet, I’m not
sure more suffering will get you the results you are looking for.

So, is mobility just a fad? No. It’s a real thing. But it’s not the only thing.

Lauren Beasley, MS, PT, OCS, NKT – Total Physical Therapy

by DEAN SOMERSET

Agility ladders. Speed ladders. Quick feet ladders.

They’re venerated among trainers looking to add athleticism to their clients, believed to result in more speed, agility, and faster feet. They’re available for sale in any fitness equipment retailer, with dozens of books of drills, games and patterns you can use to get the best benefit from them. 

But do they do what we think they do? 


Ladder training typically involves following a set pattern through a ladder that lays flat (or relatively flat) on the floor. By moving your feet inside and outside of the rungs of the ladder, the goal is to increase speed while still maintaining the pattern. American football typically uses tires or hurdles to encourage getting the knees up, but the mechanism are somewhat similar.

Before we get into the meat and potatoes of the article, I know I’ll probably get some hate mail from those who just skim through this and don’t read the entire context, so let me make a couple of statements to start.
When it comes to beginners, youth, and deconditioned, everything works to improve their strength, endurance, power, etc. EVERYTHING. I don’t doubt there are coaches who use ladder drills with their 12 year olds and see fantastic results, as there are also trainers who use them with their elderly and see balance and gait improvements, but it could be said that just doing body weight squats for an hour once a week would also produce the same or similar benefits, especially if their relative training age is low. The ladder is meant for the upper end of athletic performance in the definition of speed and agility, so let’s focus here.

Speed involves covering more ground in a shorter time frame. The basic formula is increasing stride frequency and stride length to increase speed. If you can run a 40 yard dash in less time, then you increased your speed
Agility is the ability to change direction rapidly through applying more horizontal force into the ground at an angle different than your current momentum. In order to do this effectively, your legs have to be well outside of the vertical position of your center of mass. If your center of mass doesn’t move, you haven’t changed direction, you’ve just moved your legs and not fallen over.

Everything done in the gym is merely general physical preparation for sports not performed in the gym. As a result, attempting to correlate athletic performance to any drill is futile due to the lack of specificity to the activities and chaotic nature of sports, as well as the processing of multiple variables in any instant of gameplay.
Speed and agility are products of the rate of force application, which means if you go slowly through the ladder, you’re not improving anything other than conditioning. If your rest periods are less than a 1:10 work to rest ratio (and in most instances more like a 1:30), you will not be maxing out power production, you will be working on cardio (GASP!!!)

For any training modality to work, it has to replicate or produce fundamentally similar benefits as the end goal. This means the given exercise or tool should closely replicate the  speed, force quantity, force direction, rate of force application, and metabolic & neural demands of the activity. If it doesn’t, then it will not produce the desired benefits. This is a universal concept known as Specific Adaptation to Imposed Demands. It will rear its’ head throughout this article.
Now that that’s out of the way and the people who barely read the article will comment like they read the article, let’s discuss the specifics.

Speed
Speed is a function of power, and the basic formula for power is (force x distance) / time. You apply a greater amount of force into the ground at a more horizontal angle in a smaller time, you run faster. As mentioned earlier, for running speed the basic formula is stride rate x stride frequency. You take more steps that are longer for each step and you outrun your opponent. An example of this is how in the last Olympics Usain Bolt completed the 100 m sprint with a stride count of 42 while everyone else did it in closer to 46-48 strides. His stride length was much higher and his stride frequency was roughly the same.

For a speed ladder to produce speed benefits, the individual doing it has to be moving at maximum possible speed, hitting the floor with maximum force, and at an angle that produces the best horizontal force as possible. If you hit the ground with a vertical force, you get a vertical force back.

To develop speed, especially horizontal run speed, a ladder may not be sufficient. Foot speed (the ability to move your feet) and linear speed (the ability to haul ass) are two different and quantitatively different things. To increase speed, you could do like this Keith Williams does and just run like you’re being chased by a grizzly.
True speed training requires a much longer recovery period than most other types of training as it’s highly demanding of the nervous system as well as requires much more utilization of creatine phosphate, both of which take a while to recover. As a result, true max speed training requires an all-out effort for 1-10 seconds, followed by recovery for at least 5 minutes in many instances. This means a work to rest ratio of 1:30 up to 1:300, and possibly longer. If you do an all-out sprint and then only recover for a minute, you’re only working with a 1:5 or 6 ratio, and won’t be able to put out the same resultant efforts.

Speed training is something that does tend to beat someone up with volume though, so most speed phases in training should be relatively small with more work done at lower intensities and only cycling up to max once in a while. For most elite guys, they can work at max for only a very short period due to their crazy high power output, but for more novice and intermediate athletes, they can use slightly longer cycles to work on technique and the development of neural efficiency as long as they’re not getting injured. It’s not an all-the-time thing.

Ladder drills could be very effective to work as a warm up for true speed training. The repetitive action of loading and unloading the legs can be a great warm up for the muscles, tendon elasticity, and also the cardio component of sprinting. However technique is very important, and focus has to be paid to speed above all else. Most people tend to go too slowly while also trying to make it too fancy.

Agility
Agility training involves a rapid change of direction from the initial direction of momentum. Essentially, if you’re running straight forward and someone jumps out of the bushes, you want to turn either away and run or turn towards them and drop the hammer. The most effective way to change direction involves having the legs move well outside of the vertical alignment of the center of mass, and driving into the ground at as horizontal of an angle as possible to create a strong impulse against the pull of momentum. Momentum could also be inertia if the person isn’t moving, and a rapid change from no movement to movement could be considered their “first step,” which isn’t classically speed training.

To train agility effectively, there has to be a large change of direction impulse, where the body has to absorb momentum and press out against it in an altered direction.
While ladder drills involve a rapid change of direction force from one position to the next, the direction of application is more vertical in nature compared to horizontal, and the extension out from under the center of mass is usually pretty small compared to more conventional agility training.

Ladder drills would work well as a warm up for the same reasons as for speed, but in terms of developing higher levels of agility, it may not be as beneficial. It could be incorporated more in lower threshold workouts to involve some change of direction with low loads, much like when doing deadlifts or Olympic lifts with less than maximal weight to work on technique and stay sharp.

Reaction Time
Improving reaction time involves decreasing the amount of time it takes to process a stimulus and create a decision and action to respond. Essentially, think if someone was to throw a ball at your head when you weren’t ready. The time it would take for you to recognize you’re going to get beaned and either move or make a spectacular catch would be the difference between getting onto the ESPN highlight reel or winding up on America’s Funniest Home Videos.
With any set pattern devoid of external forces acting on the body or randomness, there is nothing to react to. Therefore, typical ladder drills are more repetitive in nature in a set pattern and don’t involve reaction time. One way to work on reaction time with ladders is have blind signals to produce a change in the pattern. For instance, have the person go forward in the ladder and when you clap, they have to turn and sprint back the way they came or sprint forward. Another way is to have them go through a pattern then yell out either LEFT or RIGHT and they have to process the direction and make an action.

Now given the previous information, I probably came across as hating on the ladder. I don’t, and routinely use it in training my clients. It’s very beneficial for developing coordination, general conditioning, and also as a warm up for speed and agility training. I also use it as a precursor for agility and reaction drills, as mentioned previously, and I’ve found it’s very good for rehabbing ankle, knee and hip injuries for people looking to get back into running and chaotic movement sports like football and soccer. The lower force application and elastic recoil effect from the foot hitting the floor and responding back helps to improve the tendon response and also build up conditioning to impact-based activities.

Every device is a tool to use in the gym, and it has a specific application to provide the specific results you want. The ladder is a great tool when used appropriately, but much like a screw driver isn’t a hammer, it doesn’t help to build top end speed, agility or quickness compared to conventional training, and relying on it could potentially make athletes slower. It’s very beneficial for conditioning, rehabbing lower body injuries, and as a warm up for higher level demands, but on its’ own it’s not going to help build a better athlete.

Dean Somerset
BSc – Univ. of Alberta,
Certified Exercise Physiologist – Canadian Society of Exercise Physiologists
Certified Strength & Conditioning Specialist – National Strength & Conditioning Association
Medical Exercise Specialist – American Academy of Health, Rehabilitation & Fitness Professionals