Perhaps the better question is “should you wear your racing flats for regular base building runs ?" Most injuries are based on a volume of impact miles across anatomy structures that are not appropriately protected or which have been encouraged into biomechanically challenged positions because of surrounding weakness or functional asymmetry.

In previous blog posts we have talked about the theory that more EVA foam is not always better and supported these ideas with research. However, the pendulum can swing to the opposite as well. It is also plausible that a tipping point of less foam also increases risk because of a lack of shock attenuation. The results of the study below demonstrated significant differences in peak pressure, maximum force, and contact area between the two shoe conditions of racing flat and regular training shoes (see study for specifics). There was a significantly higher maximum force measured in the lateral midfoot in the racing flats while an increased maximum force was observed beneath the rearfoot in the training shoe,

What the study did not go into was the foot type and the running form from what we could tell. Heck, it is even possible that the small "n” of the study could have included a bolus of cross over runners with forefoot varus for all we know. the study did not delve that deep. We have all learned that often it is not what you do but how you do it and additionally, although not entirely pertinent here, that what we see is often not the problem (translation: just because the peak pressures measured high in an area does not necessarily mean that the adjacent anatomical structure to the peak pressure will suffer the impact and trauma of said pressures. This is a dynamic load sharing organism, where things break down is rarely where the problem exists)

Bottom line from our standpoint, and this does not hold true for everyone but it is a fairly safe statement, if your foot type is not pristine and your running form could stand some perfecting then perhaps running flats for anything than race day is not the most sane and cerebral decision. This may be especially true if you are milking some subtle injuries or asymmetries that speak to you from time to time on a run. But to each his own. Human’s are inherently risk takers and subject to cognitive dissonance, especially when things are going well. And who knows, runners may fall even deeper into this profile for all we know.

Here is the study for your perusal.

If you want to get better at this game of assessment, shoe fitting and foot type matching you might want to consider our National Shoe Fit Program. Email us at thegaitguys@gmail.com if you want us to send you some information on our program.

Shawn and Ivo, The Gait Guys

Differences in plantar loading between training shoes and racing flats at a self-selected running speed.

Wiegerinck JI et al. Gait Posture. 2009 Apr;29(3):514-9. Epub 2009 Jan 14.

Summarized Abstract:

The purpose of this study was to examine the difference in plantar loading between two different running shoe types. We hypothesized that a higher maximum force, peak pressure, and contact area would exist beneath the entire foot while running in a racing flat when compared to a training shoe. Peak pressure, maximum force, and contact area beneath eight different anatomical regions of the foot as well as beneath the total foot were obtained. The results of this study demonstrated a significant difference between training shoes and racing flats in terms of peak pressure, maximum force, and contact area. The significant differences measured between the two shoes can be of importance when examining the influence of shoe type on the occurrence of stress fractures in runners.

January 09, 2013

Gait Guys, What is the truth when it comes time to buying/rotating new shoes ?

January 09, 2013/ The Gait Guys

A few moons ago an awesome Facebook reader asked us about changing shoes and the validity of the “press test”. Here was Eve’s link to the press test and here is what it said:

Do the Press Test

“To determine if the midsoles of your shoes are compressed and are no longer providing cushioning, do the press test. Using your thumb, push on the outsole upward into the midsole. With new shoes, it should be easy to see the midsole compress into lines or wrinkles. As the shoe wears down, the midsole compresses less with the same amount of pressure. When the midsole shows heavy compression lines and the press test reveals a minimal amount of compression, there is little or no cushioning left.”

There is a valid point to this test, but it might be considered too rudimentary by many purists. But most purists rarely can offer us a better solution. Here is the issue, EVA foam has a lifespan in terms of maintaining its initial shock absorption. EVA foam cells compress and deform over time, most foam in this world does whether it is your Tempurpedic mattress, the foam base for your rugs or your car seat. And with areas of greater wear and compression the foam accelerates its deformation. This is why certain areas of your car seats, your rugs and your bed get softer. The same thing goes with your shoes. But they really do not get softer, the areas get compressed and the foam changes its density and its integrity. It no longer performs. Resistance, compressibility and resilience changes. This is the problem with shoe foam as well, no matter what foam a company is using. However, the bigger problem if you really think about it is that the foot type you have and the biomechanics (good or bad) that you drive your foam into will be the direction future foot loadings deviate into. Can this be good ? Rarely. Can this be bad ? Usually. EVA simply has a given number of cycles, and that number is variable with many factors in place such as weight, running form, foot strike, foot type, weathering of the foam, wet foam, dry foam, outer sole glue, foot bed components and attachment, number of miles. So, degrading shoe foam is a fact of life for a walker or runner.

The “press test” gives the user some idea of how much the foam is compressed and how much resilience it has left. But it is a test limited very much by the subjective assessment. We wouldn’t hold a torch to the test and make it a solitary assessment factor, in fact we rarely do it ourselves. But every little test and assessment has some perks and information that can be gleaned from it.

For the record, we like to play it cautious because injuries cost money and time to a runner. So we error on the side of caution always and go for lower numbers for the life span of shoes. Each shoe is different and we will not leave you with actual numbers here because the algorithm gets a bit large and convoluted but the bottom line is that cheaper shoes usually use cheaper materials and more expensive shoes usually use better materials (yes, this does not always line up as truth, we know this). But shoes like Newtons and Altras from our experience seem to survive the trials of running a bit better (at least in our athletes) and so we allow more miles in them. But for those looking for some harder numbers here are our loose rules:

400-500 miles per pair of shoes. At 200 miles begin a second pair of shoes and start alternating the shoes every run (old shoe one day, next day use the new shoe). This will reduce the successive days in a shoe in which the foam is driving deeper and deeper into deformity and thus you are only a day away from a reprieve from the deforming shoe. This will reduce injury risk. This will also give you a dry shoe on a run the day after a shoe got soaked or caked with mud. Water and mud add shoe weight and change biomechanics. Once the older shoe his the end lifespan mark you have the second shoe at 200-250 and you are ready for a new shoe. So you are never in a shoe until its death, when it is completely deformed and driving pathomechanics and possible injury only to the very next day step into a new shoe with entirely different (albeit neutral and unbiased) mechanics in the foam. Injuries occur much of the time with change. Be smarter with your shoe rotation and reduce change.

VITAL NOTE:

Running and walking use different biomechanics and loading styles. Walking has heel strike as a norm, running for the most part shouldn’t include heavy or any heel strike depending on the athlete and who’s “pulpit of running form” that athlete chooses to pray at the foot of. Like religion, there is no one right way … we each need to find what is best for us. And thus, since running and walking biomechanics are so different you should keep your running shoes for running and have another pair for walking and your other workouts. Remember though, running shoes are build mostly for sagittal (forward) movement and not for lateral sports. This is why you should never, never ever, use your running shoes for tennis, racquet ball, basketball or many forms of cross fit. Get a court shoe that is build for lateral movement. Not only will the shoe last longer but it is built on a platform that is more suited for such activity.

Shawn and Ivo

The Gait Guys…….