Podcast 45: Spock, Ankle Syndesmosis injuries and Subways.

4.Scanadu scores $10.5M and paves the way for FDA trials
5 . National Shoe Fit Program
Knee Surg Sports Traumatol Arthrosc. 2010 Oct;18(10):1379-84. doi: 10.1007/s00167-009-1010-y. Epub 2009 Dec 18.

Rotational laxity greater in patients with contralateral anterior cruciate ligament injury than healthy volunteers. Branch TP, 

 7.from a blog reader:
schwad01 asked you:
Guys. I am a Parkinson’s patient … 
 
8. FAcebook reader:
9. In the News:
Russian Subways Now Accept Squats for Payment
10.In the research:
11.GAME:
Heads up!

Remember that song “Hold Your Head Up” by the British  band “Argent” in 1972? Ok, maybe not, but the principle is very important to runners and sprinters, so lets talk about it a bit.  We are wired to maintain our …

Heads up!

Remember that song “Hold Your Head Up” by the British  band “Argent” in 1972? Ok, maybe not, but the principle is very important to runners and sprinters, so lets talk about it a bit. 

We are wired to maintain our visual axes parallel to the horizon. This involves a series of joint and muscle mechanoreceptors in the neck (for a review of joint mechanoreceptors, click here, muscle mechanoreceptors, click here). These muscle and joint mecanoreceptors receptors, through connections in the midbrain (or mesencephalon as we neuro geeks like to call it) and pons, interact with the vestibular system to keep our head (and our bodies) upright, by firing our extensor muscles.

Berta Bobath, physiotherapist, wrote a great book in 1965 entitled “Abnormal Postural Reflex Activity Caused By Brain Lesions”. In it she describes, among many things, reflexes involving the cervical spine and correlating them to motor function. One of these is the cervical extensor reflex.

To explain this reflex, think of a dog sitting to get a treat. As he looks up while sitting down he has to extend his head, extend his front legs and fires all the axial extensor muscles associated with performing this action. The opposite would also happen, but with the flexors, if he were to bend forward to take a drink; fire front flexors and rear extensors to bend down. There are many more reflexes (tonic neck, cervcio ocular, etc) that could be the subject of another post.

As we have learned from the principle of facilitation (see recent post here), when we fire pur extensors, we fire into the extensor pool, and as a result, ALL extensors get to benefit. The advantage of the receptors in the cervial spine is that the upper four fire DIRECTLY into the flocculo nodular lobe of the cerebellum, and thus have a PROFOUND EFFECT on extensor tone in general.

So, if you want to go faster, why not hold your head up and FIRE YOUR EXTENSORS MORE? Hmmm….Where have you heard this before?

Another magic bullet, courtesy of your built in neurology, we are sharing with you so you and your clients, patients and friends can be better at what they do

The Gait Guys. Stretching your neurology on a daily basis.

 Master of your own physiology
You don’t need perfect mechanics to win. Look at these fine gents and take note.
On the left we have Kenensia “Canny” Bekele, world and Olympic 5,000m and 10,000m world record holder, who sat back as …

 Master of your own physiology

You don’t need perfect mechanics to win. Look at these fine gents and take note.

On the left we have Kenensia “Canny” Bekele, world and Olympic 5,000m and 10,000m world record holder, who sat back as Mo Farah and Haile Gebrselassie set the pace for most of the race, and then sprinted at the end and won by 1 second. Note the crossover and lack of space between his thighs. Note also the internal tibial torsion of the left tibia and slight head tilt to the right.

In the middle is Mo Farah, the current 10,000 meter Olympic and World champion and 5000 meter Olympic, World and European champion. look at the pelvic dip on the right..and the valgus angle of the left knee…and external tibail torsion of the left tibia…and the differing arm swing (right side abducted).

Finally, on the right,  we have Haile Gebrselassie, an Ethiopian like Bekele, who won two Olympic gold medals over 10,000 meters and four Wld Championship titles in the event. He won the Berlin Marathon four times consecutively and also had three straight wins at the Dubai Marathon.  At 40, he is the eldest of the group, with his right lower extremity external tibial torsion and subtle dip of the left pelvis on right sided weight bearing.

So What? All these great athletes have mastered their own physiology and overcome any biomechanical faults they may appear to have. Could they be faster? Maybe. We think so.

Your body will find a way to compensate. That does not mean you will be slower. It means, like each of these men, that you will probably be injured at some point.

In the words of Big Z from Surf’s Up “Winners find a way”. You can too and so can your clients and athletes. Skill, endurance and strength. The big 3. Make sure you an the folks you care for have them.

We are The Gait Guys. Teaching you more with each post we write and helping you sort through the sea of information out there.

The One Cheek Sneak and Your Gait.

Yup. You know what we are talking about.  Out gassing. Passing gas. Trouser coughing. Flatulating (is that a word?) Tooting. Farting.. Call it what you like. Exemplified by Shinta Cho’s classic “The Gas We Pass”. …

The One Cheek Sneak and Your Gait.

Yup. You know what we are talking about.  Out gassing. Passing gas. Trouser coughing. Flatulating (is that a word?) Tooting. Farting.. Call it what you like. Exemplified by Shinta Cho’s classic “The Gas We Pass”. The question is, why is it relevant to gait?

If you have followed us for any length of time, you know how important we think the glutes are.  We have many posts and blog articles on their importance and exercises to strengthen them.  The problem is, when most people do them, they THINK they are contracting their glutes (and some are) BUT they are ALSO contracting their (external anal) sphincter (for you neuro nerds,  the internal sphincter is not under voluntary control). This results in gas retention, which may cause a stomach ache, or in rare instances, distention of the bowel. Chances are, when  you relax, it will come out then (yes, you fart in your sleep, as your bedfellow for an honest answer !).

Try this. Sit down and and contract your glutes and your external sphincter. Now try and contract your external sphincter, ONLY. Contracting the external sphincter also engages the pelvic floor. Not necessarily something you need to do (unless you are treating an incontinence issue but then again that more recently under hot debate, here read our blog post here for some truths and myths on this topic) when running. OK, now just the glutes. You can palpate them (glutes only please) to make sure they are contracting. You are now experiencing isolation of the individual muscles. You should be able to access them individually, as well as together. For an added challenge in your powers of isolation, you can then try this exercise after consuming beans (as you flog your gut with their poisonous lectins) , to test your true abilities.

There are other related issues here to consider, one is the Kegal exercise. As we mentioned in another blog post (link here):

“A Kegel attempts to strengthen the pelvic floor, but it really only continues to pull the sacrum inward promoting even more weakness, and more PF (pelvic floor) gripping. The muscles that balance out the anterior pull on the sacrum are the glutes. A lack of glutes (having no butt) is what makes this group so much more susceptible to pelvic floor disorder (PFD). Zero lumbar curvature (missing the little curve at the small of the back) is the most [we would chose to say a nicely speculative] telling sign that the pelvic floor is beginning to weaken. An easier way to say this is: Weak glutes + too many Kegels = PFD.”-Nicole Crawford (1)

Many exercises are designed to help train your nervous system and create a new motor pattern, in addition to strengthening and or creating endurance in the targeted muscles.  Your external sphincter probably has plenty of strength and endurance.

The Gait Guys.  Bringing you the relevance in the seemingly irrelevant. All Gait; All the time…

 1. Here is Crawford’s article link.

http://breakingmuscle.com/womens-fitness/stop-doing-kegels-real-pelvic-floor-advice-women-and-men

All material copyright 2013 The Gait Guys/ The Homunculus Group. All rights reserved. We have Lee and know how to use him

Podcast 44: New knee ligaments and Ankle Rocker

The newly discovered knee ligament, ankle rocker, hammer toes, yoga, joint flexibility and more ! Download Podcast # 44 today !

A. Link to our server:

http://thegaitguys.libsyn.com/podcast-44-new-knee-ligaments-and-ankle-rocker

B. iTunes link:

https://itunes.apple.com/us/podcast/the-gait-guys-podcast/id559864138

C. Gait Guys online /download store (National Shoe Fit Certification and more !) :

http://store.payloadz.com/results/results.aspx?m=80204

D. other web based Gait Guys lectures:

www.onlinece.com   type in Dr. Waerlop or Dr. Allen,  ”Biomechanics”

________________________________________

* Today’s show notes:

Neuroscience:
New ligament discovered in the human knee
http://www.sciencedaily.com/releases/2013/11/131105081352.htm
3. Brain and Motion
‘Anklebot’ Helps Determine Ankle Stiffness
8. Blog reader:
richies77 asked a questionHi, Incredible source of information. I have severe arthritis in the 2nd toe of my left foot. I have very little dorsiflexion and this has caused my hip flexor to become chronically, extremely tight. This has twisted my entire spine and made me pretty much disabled. I’ve been offered orthotics and perhaps rocker shoes but do you think surgery is the only way to bring back correct balance to my spine? Does anything else actually work? Thank you!
9. In the News:
Yoga and the Brain:
11. another blog reader:
What should I start doing for early cerebellar atrophy symptoms? I’m 6'5 195 and an athlete
 
12. CADENCE and BAREFOOT

Soccer/Football cleats: Do you know all you should in making the best choice of shoe ?

Is a flexible forefoot varus foot type going to safely perform in a bladed soccer shoe or would it do better in a studded shoe ? 

Recently an independent send us several pairs of revolutionary soccer cleats to get our opinion on them since we have somewhat of a history looking at and modifying cleats for NFL players.  

Soccer is a unique game.  During any one game players are expected to jog, sprint, run backwards, sideways, quick cut, cross over and many other variations.  The soccer cleat is supposed to be designed to help the foot engage the ground to maximize and optimize these gait variations.  A good cleat will enable and not disable or increase risk of injury. Accourding to some sources, a 90 minute professional soccer match can ask a player to run anywhere from 8000 to 11000 meters. One source suggested that two thirds of the game is walking or light jogging, One thirds is cruising, backing or sprinting and of the sprinting, 800meters requires maximal bursts of 10-40 meters over a total of approximately 800 meters.  Obviously, it is these 800 meters that are the critical ones that can make a game and it is at these times that the player is likely to need a good reliable cleat-ground interface to perform.  

It has previously been thought that the cleat cannot be too deep and ground-engaging otherwise torsional forces from the body will not play out into the turf and will rather move up into the ankle and knee and can lead to devastating injuries. However, one can make the case that a cleat could in some instances help to block excessive motion that could lead to injury. There are many grey areas when it comes to these kinds of issues.  Cleat choice for the ground type and playing conditions seems to be important. However, a small study in 2007 (1)  in the American Journal of Sports Medicine author Rajiv Kaila investigated knee loading patterns during various sidestep, cutting maneuvers and found no differences in the amount of force, stress or the degree of unwanted knee movement wearing any of the four styles of shoe. The study results were also backed by another similar study in the International Journal of Sports Medicine (2). The Gait Guys still remain somewhat skeptical however as these were unfatigued players and female players were not included in the studies as was suggested by this nice brief review article by Jay Williams.  That being said, there are studies that recently exist that discuss landing mechanics based upon gender, footwear, and the mode of landing as notable issues in injury incidence so not only do we need to consider the shoe, but also the person in the shoe and how they land as additionally relevant parameters.(3) When we speak of loading and landing patterns there are many issues to consider, and foot type and cleat pattern are variables to consider.  According to Queen (4) significant differences in forefoot loading patterns existed between cleat types. And when you put a forefoot varus or valgus forefoot type (and, one must know if that forefoot type is rigid or flexible, compensated or uncompensated) into a cleated shoe there are many variables that can play out. A forefoot varus is less likely to inversion sprain than a forefoot valgus foot type. Again, this is why we strongly recommend everyone take the National Shoe Fit Certification Program so that all of these variables can be taken into account.

When it comes to soccer shoes, comfort and fit are critical for performance.  (One must also realize that just like in hockey, soccer (we prefer to say FOOTBALL but it is not the preferred name here in the USA) players like to drop a half to full size in the shoes so that there is less foot-shoe interface slide and give. Players like the foot and shoe to perform as one because of the precision foot work and sudden pivoting that is often necessary.)  The issues of last shape are always critical depending on foot types. Just like in running shoes, a more straight, semi-curved and curve lasted shoes need to be matched to the appropriate foot types. We have talked about these issues many times before in previous blog posts here on our blog. Generically, a more pronated foot will get more control from a more straight lasted shoe and a more rigid-supinated foot will like a more curve lasted shoe.  This is why you MUST know the foot types and how to determine what foot type your client presents with. This is why everyone should take the National Shoe Fit Certification Program.  In this program we talk about the other shoe parameters like heel counter, sock liner, uppers, last patterns, vamp etc. 

There are basically three types of cleat types, blade, stud. The choice of which to use is based on the surface of play and the conditions.  The surfaces are broken down into 4 basic conditions: Soft ground, hard ground, firm ground (these are in decreasing order of ground “forgiveness”) and finally turf.

Turf fields generally dictate smaller more grippy finely studded cleats that enable maneuverability.

Hard ground fields will require shorter studs with generally a more uniform pattern and they are softer to react with the firm surface. 

Firm ground fields require a longer more rigid cleat or blade. This is the most common cleat used. They can range from 10-15 cleats protruding from the outsole and can vary in depth and size. Pivot-mobility points, stability points are generally considered in determining number, size, depth and location of the cleats or blades.

In soft ground or wet conditions longer cleats are often necessary and they can range anywhere from 10mm to 20mm in depth. Some types of higher end shoes (usually professional level) allow cleat selection by screwing them into the shoes and this allows size and depth specificity. Cleat numbers can vary but are often much fewer (6-8) in number and location to offer even weight distribution.  A more circular forefoot cleat/blade pattern supposedly optimize directional acceleration while more laterally and linearly arranged patterns supposedly provide more laterally oriented movements. This type of cleat should not be used on other surfaces as injury risk can increase. 

There is much to consider when choosing a cleated football/soccer shoe. There is the foot type, the shoe last, the playing conditions, the cleat pattern etc.  The more you know, the safer you may be.

Shawn and Ivo, The Gait (and shoe) Guys.

references:

1. http://ajs.sagepub.com/content/35/9/1528.abstract

Influence of Modern Studded and Bladed Soccer Boots and Sidestep Cutting on Knee Loading During Match Play Conditions. Rajiv Kaila, MBBCh, MRCS, MSc*

2.https://www.thieme-connect.com/DOI/DOI?10.1055/s-2007-965000

Effect of Soccer Shoe Cleats on Knee Joint Loads. D. Gehring1\

3. Scand J Med Sci Sports. 2012 Apr 20. doi: 10.1111/j.1600-0838.2012.01468.x. [Epub ahead of print]

Effect of soccer footwear on landing mechanics.

4.
Br J Sports Med. 2008 Apr;42(4):278-84; discussion 284. Epub 2007 Aug 23.

A comparison of cleat types during two football-specific tasks on FieldTurf.

“… knowing this will not mistakenly leave one with the interpretation that the joint is suffering restriction, that the joint is merely showing its limitation because of the return shift of the eccentric axis to a less mobile position.” - The Gait Guys  

This video is just the kind of stuff that drives us nuts.  We do not have a personal problem with the good doctor, he may know (and most likely does know) far more than he is letting on here but is merely simplifying things for some reason. We merely have a problem with the information that is missing that could make this a valuable addition, or omission, to someone’s care. There are times to simplify things, but when we put out a video on the web where the world can see it, we try to be as thorough as possible even if this means that something will come across seemingly overcomplicated. The fact of the matter is that human biomechanics are in fact complicated and simplifying something, when it is just not possible to do so, really doesn’t help anyone. People, and maybe some medical professionals, who do not know better will see this and not see what is missing, importantly so, here.

In this video there is no regard to the pre-positioning of the metatarsal to that big toe. This is a very unique joint, it has an eccentric axis that changes with metatarsal plantarflexion and dorsiflexion. This eccentric axis is shifted by the shifting position of the relationship of the metatarsal head with the base of the hallux. Here, at this joint, we have a concave-convex joint interface which with all said joint types, has a roll-glide biomechanical rule.  This rule at this joint is unique in that the axis of roll-glide is eccentric meaning that the joint has a shifting axis during the motion of dorsi and plantarflexion.  This is dictated and dependent upon the posturing of the sesamoid bones properly beneath the metatarsal head.  You can hear more about this premise here, in a video we did a few years ago. It is long, but it is all encompassing.  What is important, that which is not noted here, is that with more metatarsal plantarflexion there is opportunistically more dorsiflexion at the joint.  (This is precisely the joint range loss that occurs in “turf toe”, hallux limitus.)  Thus, in the above video, to properly mobilize the big toe into dorsiflexion, the foot must be taken into full metatarsal plantarflexion (pointing the foot) where greater amounts of joint dorsiflexion will be found (because of the eccentric axis shift) and the joint should be also mobilized in full ankle and metatarsal dorsiflexion, but the therapy giver must know, and be expected to find, that less toe/joint dorsiflexion will ALWAYS be found in this position.  Knowing this will not mistakenly leave one with the interpretation that the joint is suffering restriction, that the joint is merely showing its limitation because of the return shift of the eccentric axis to a less mobile position.   

* Here is a little experiment you can do to teach yourself this principle. It should also help you to realize the gait cycle.

Sit in a chair, cross one ankle over the opposite knee and see what happens to the joint ranges as you proceed.  

  • dorsiflex the ankle and big toe. With your muscles only, not your hands, actively pull back the ankle and toe striving to get the most amount possible of dorsiflexion at both joints.  You should see that there is some toe dorsiflexion of the big toe.  
  • now keeping that big toe dorsiflexed as strongly as possible, begin to plantarflex the foot, thus moving the 1st metatarsal into plantarflexion as well. You should note that the relative amount of toe-metatarsal dorsiflexion DRAMATICALLY increases !
  • you can also do this passively. This time start at full foot plantarflexion (foot pointed) and passively pull that big toe back into dorsiflexion.  A huge range is likely to be found if you have a cleanly functioning foot.  Now, try to hold that significant range while you push the ankle into dorsifleixon.  At the end of the metatarsal and ankle dorsiflexion range you should feel the big toe start to resist this range you are trying to maintain, the big toe will forcibly start to  unwind the dorsiflexion. This is because of the eccentric shift of the joint and tension building in the passive tissues in the bottom of the foot. 
  • You want, and need, these relationships to occur properly and timely in the gait cycle and there are milliseconds to get it right and that means the entire kinetic chain must be clean of flaws, otherwise compensation will occur. (Note: Blocking or trying to control these issues with a foot bed, shoe type or orthotic can either be helpful therapeutically, or harmful to the chain.)

This is precisely what happens in the gait cycle. During swing phase the foot/ankle is in dorsiflexion to create foot clearance and to prepare the foot tripod for the contact phase with the ground.  There is some big toe (hallux) dorsiflexion represented in this swing phase, but it is not a significant amount you likely learned from your own self-demo above, mainly because it is not possible, nor warranted.  But, once the foot is on the ground and moving through the late stance phase of gait into heel rise, the ankle is plantarflexing. Thus, the metatarsals are plantarflexing, and this is causing the slide and climb of the metatarsal head up onto the sesamoids.  This causes the requisite shift of the axis of the 1st MTP joint (metatarsophalangeal) and affording the greater degree of toe dorsiflexion to occur to allow full foot supination, foot rigidity to sustain propulsive loading and also, never to forget, sufficient hip extension for gluteal propulsion. At this point, the range of the big toe in dorsiflexion is far greater than the dorsiflexion of the joint at ankle dorsiflexion. Impairment of this series of events is what leads to turf toe, hallux limitus as it is called. And when that becomes more permanent, even mobilizing the joint, as seen in the video above or otherwise, is not likely to get you or your client very far in terms of normal gait restoration.  And forcing it, won’t made it so either.

Remember this, the kinetic chain exists and functions in both directions. If you are starting with a hip problem that limits hip extension, and thus full range toe off during gait, in time you will lose the end range of the toe-off dorsiflexion range. And any attempts to try and regain it at the foot will fail long term if you do not remedy the hip.  "If you don’t use it, you will lose it". So to gain it back actively, sometimes you have to restore all of the functional losses of the entire kinetic chain to get what you are hoping for.  And for all you people doing “activation” to the glutes on your athletes, finding you are having to do it over and over and over again…….day after day after day, well … . . we hope you take this blog article to heart and put this thought process into action.

Remember, if you do not have the requisite strength, skill and endurance of the 2 toe extensors and 2 toe flexors as well as sufficient strength of the tibialis anterior (as well as many other components) you are likely to see impairment of this joint.  In this environment, do not expect joint mobilizations to offer you anything functionally lasting.  

We are not saying that joint mobilizations are useless and unnecessary, not by any means.  We are saying that you have to know what you are doing when you do them, so you can get the results you desire or, to realize why you are not getting the results you desire.  

Treat your clients with clear biomechanical knowledge and you will get the results you desire. If you go in with limited knowledge, results may speak for themselves. 

Gait analysis and understanding movement of the human body is a difficult task. It takes many years to learn the fundamental parameters and then many decades to implement the understanding wisely and with effectiveness.  Here at the gait guys, we hope to someday get to this point. We too, are students of gait and gait pathology. It is a journey.

“Once you understand the way broadly, you can see it in all things.”  -Miyamoto Musashi

 

Shawn and Ivo, The Gait Guys

Pod 43. Achilles problems, Neurology of watching sports, PEDS, hip joint centration.

Pod 43. Achilles problems, Neurology of watching sports, PEDS, hip joint centration, risks of swaddling babies and so much more. Join us today for this great podcast !

A. Link to our server:

http://thegaitguys.libsyn.com/podcast-43-achilles-problems-neurology-of-watching-sports-peds-hip-joint-centration-risks-of-swaddling-babies-and-so-much-more-join-us-today-for-this-great-podcastB.

iTunes link:

https://itunes.apple.com/us/podcast/the-gait-guys-podcast/id559864138

C. Gait Guys online /download store (National Shoe Fit Certification and more !) :

http://store.payloadz.com/results/results.aspx?m=80204

D. other web based Gait Guys lectures:

www.onlinece.com   type in Dr. Waerlop or Dr. Allen,  ”Biomechanics”

________________________________________

* Today’s show notes:

Neuroscience pieces:
1. Brief Exposure to Performance-Enhancing Drugs May Be Permanently ‘Remembered’ by Muscles
 
 Brief exposure to anabolic steroids may have long lasting, possibly permanent, performance-enhancing effects, shows  … .

2- Watching is like doing http://www.theglobeandmail.com/technology/science/go-neurons-go-science-explains-why-it-hurts-to-be-a-leafs-fan-sports-diehards-are-wired-that-way/article15214848/

This summer, Australian researchers at the University of Western Sydney published a study in which volunteers lounged comfortably in reclining chairs and watched a bland video of someone walking and running. The faster the person on the screen ran, the higher the pulse and breathing rates of the spectators rose, along with  … .

3. Economy and rate of carbohydrate oxidation during running with rearfoot and forefoot strike patterns.
4. Radiolab.org    
5. Neuromuscular strategies for lumbopelvic control during frontal and sagittal plane movement challenges differ between people with and without low back pain.
6. Achilles: How Much Energy Does Your Achilles Tendon Store? Stiffer tendons help you run more efficiently, but it’s not clear how.
7. Ivo: blog post on toe extensors, the neuromechanics behind it
8. From onlineCE.com, last weeks course
9. Hip centration principles……. principles of accessory motions
from a blog reader
11 Q: can metatarsalgia be caused by ITband tighness ?
 
12. Disclaimer
13. National Shoe Fit program and our Payloadz store
14. Take a monthly course from us at www.OnlineCe.com
 
15. Blog reader:
Guys I feel a little ridiculous asking this ? considering the amount of time I’ve spent reading your info but here goes: I understand the concept of the foot tripod and it’s importance for stabilization and balance when static or during single leg with eg squats, but when should the tripod be utilized during the normal gait cycle?
16 .From a blog reader:
Hello Gentlemen, I was wondering if you could point me in the right direction in terms of addressing a Tailor’s bunion on the 5th met. Thank you!!

Video case: The King’s Preference: Short and Sweet. A quick and easy case demonstrating the patellar tracking struggles with external tibial torsion.

Our favorite functional evaluation piece of equipment as well as our favorite piece of therapy equipment is the Total Gym.  Here we clearly demonstrate, to us and the client, in partial weight bearing load, the effects of external tibial torsion.  

Remember, the knee is sort of the King of all joints when it comes to the lower extremity.  The knee is a sagittal plane hinge, and so all it wants to do is hinge forward, freely without binding from deficits at the hip or knee. But we cannot ignore the simple fact that pre-pubescent kids the long bone derotation process is still undergoing, and in adults the process may have been corrupted or insufficient.  

In this case it should be obvious that the knee is sagittal and free to hinge when the foot is at a large foot progression angle.  This allows the knee to hinge cleanly. But when the foot is corrected to the sagittal plane, as you see in the second half of the video, the knee tracks inward and this can cause patellofemoral pain syndromes, swelling, challenges to the menisci (and possible eventual tears) and challenges to the ACL and other accessory restraints.  Additionally, this medial drift is a longer and more difficult challenge to the eccentric phase external rotators such as the gluteus maximius not to mention many of the other muscles and their optimal function.  

So, the next time you see a large foot progression angle in a client or in their walk (duck footed if you will) try to resist the natural urge to tell them to corrrect the foot angle. They are likely doing it to keep the King happy.  And furthermore, be careful on your coaching recommendations during squats, olympic lifts, lunges and running.  Just because you do not like the way the foot looks doesn’t mean you should antagonize the King of joints.  

External tibial torsion, its not something you want to see, but when you do see it, you have to know its degree, its effects at the knee, hip and foot as well as how it might impact hip extension, pelvic neutrality, foot strike, foot type, toe off and so many other aspects.

Whoever said gait analysis was easy was a liar. And if all they use is a video camera and fancy analysis software they have show up with only part of the team. And if they said they were an expert  in gait only a few years into practice, you had better also look for a jester’s hat somewhere hiding in the corner. After all, the King would want to know !

Shawn and Ivo, your court jesters for the last 3+ years.  Maybe we will get a promotion from the King someday soon !

Podcast 42: Rhabdo, Bionics and Turf Toe

Rhabdomyolysis, Bionics, Turf Toe, Low vs High threshold and a whole lot more in today’s show !

A. Link to our server:

http://thegaitguys.libsyn.com/podcast-42-rhabdo-bionics-and-turf-toe

B. iTunes link:

https://itunes.apple.com/us/podcast/the-gait-guys-podcast/id559864138

C. Gait Guys online /download store (National Shoe Fit Certification and more !) :

http://store.payloadz.com/results/results.aspx?m=80204

D. other web based Gait Guys lectures:

www.onlinece.com   type in Dr. Waerlop or Dr. Allen,  ”Biomechanics”

________________________________________

* Today’s show notes:

Neuroscience pieces:
 
1.  a tiny chip in the new iPhone called the M7 “motion coprocessor.” is designed to track your movement and automatically figure out  … . 
 
 
2. Bionic Leg
3. Dying young.
By altering water temperature and day length to influence the growth rates of fish, researchers have provided the first empirical evidence that if you grow fast, you die young. 
http://pulse.me/s/q1TnO
4. Low vs high threshold strategies
 
5. Rhabdomyolysis 
6. In the media:
Why runners don’t get knee arthritis
 
7. Disclaimer

8. National Shoe Fit program and our Payloadz store

9. Online CE October 30th

10. Blog reader
 I’m a soccer player and suffered a “turf toe” type injury 2 years ago … 

11. Hi guys. Thanks for the great material. Are there any good exercises for helping correct fully compensated forefoot varus (I have it in both my feet). Orthotics have not helped at all in the past, and I have feeling that this is something I acquired. I am almost certain that this is the root cause of the horrible hip-back-neck pain I have experienced for the last 8 years. Thanks!

According to the CDC, falls are the number one reason for death and injury among people age 65 and older. More than two million older people went to an emergency room in 2010 because of a fall.

From the article “The Science of Trips and Falls” (link)

After a fall, older people often say they tripped or slipped. Researchers at Simon Fraser University, in Burnaby, British Columbia, wanted to observe what really happens. The team outfitted a long-term-care facility with video cameras and recorded residents going about their daily lives. They recorded 227 falls from 130 individuals over about three years. Tripping caused just 1 out of 5 of the incidents. The biggest reason for falling—accounting for 41% of the total—was due to incorrect weight shifting, like leaning over too far, says Stephen Robinovitch, a professor in the biomedical physiology and kinesiology and engineering science departments. Other, less frequent reasons for falling included loss of support with an external object, like a walker, or bumping into something.”

Using Tai Chi in the gait retraining process. Watch the attached video above.

This is particularly useful in reteaching weight transfer in the elderly or in the post operative hip, knee or foot clients. It is most useful in post operative total hip or total knee replacements. Note the slow loading responses which focus on effective weight transfer and loading as well as forcing safe balance challenges because the other foot is always skimming across the floor if  needed. 

Also, note that the transfers are always facilitating ankle dorsiflexion, just make sure you are not teaching this with knee extension lockout because it will cheat the amount of effort and wanted challenge to the anterior compartment.

We use the tai chi transfers as shown in our rehab in specific cases, but if you are dealing with the elderly, this is a great part of a daily program to reduce the fall statistics we listed earlier.  It helps the post operative cases and elderly where exactly are the limits of their safe weight shifting and where the risk zone of excessive weight shift begins.  

If you are looking for a good soft gentle way to:

1- improve balance

2- increase awareness of weight shifts that are not beyond the frontal plane stability of the hip (ie. improve awareness of the gluteus medius and lateral hip stabilizers)

3- improve the awareness of the back leg hip extension and gluteus maximus use during the forward weight transfer

4- improving anterior compartment awareness, skill and strength

5- improve weight bearing ankle rocker motion

… . then the basic tai chi walking weight transfer is an excellent start. I have taught my 80 year old parents this simple daily challenge and I think it will reduce their falls. We have used this in post operative knees and hips and it is a nice gentle start for many clients.  And when done super slow in a deep knee bend the challenges as described by our upper level athletes are surprising to both us and them.  Do tai chi for 30 minutes and learn its secret values. Millions of people around the world all can’t be wrong.

Shawn and Ivo, taking gait to new dimensions.

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Hip Abduction moment?

This was a great question we received, so we thought we would make a post of it, so everyone could benefit.

“@GregLehman: @KineticRev @TheGaitGuys do you guys have a link to your thoughts on how an ER leg allows the quads to create a hip abductor moment? Thanks”

First of all, What IS a hip abduction moment?

In posts, we often refer to a “moment”, meaning almost literally, a few seconds where a certain motion occurs. When are watching someone from behind and see their heel adduct as they get to terminal stance and pre swing (just before they toe off), you are seeing an “adductory moment” of the heel, sometimes referred to as an “adductory twist”.

Now lets think about the hip. Have you ever seen a framing square used by a carpenter? It is an “L” shaped device to make sure things are square (like hanging a door). The hip is kind of like this. It is shaped like an “L” with the neck and head forming the shorter side of the “L” and the femoral shaft forming the longer side. If you imagine the short side of the square attached to the pelvis and now hinging that away from the body, you have abduction of the hip. Normally, this task is tended to (primarily) by the middle fibers of the gluteus medius and posterior fibers of the gluteus minimus, assisted by the quadratus lumborum on the opposite side.

How can the quad be involved?

We remember that the quadriceps has four parts, the vastus lateralis, vastus intermedius and vastis medialis (collectively called “the vasti’) and the rectus femoris.

The rectus femoris proximal attachments are at the anterior inferior iliac spine (this is called the straight or anterior head) and the superior lip of the acetabulum (called the reflected or posterior head) Please see the top of the 2nd picture above, you can see the 2 heads. The distal attachment, after blending with the vasti, is into the patellar tendon and ultimately the tibial tuberosity.

The rectus is an accessory hip flexor and knee extensor, though it not normally a prime mover for either of these motions. It’s amount of action depends on the position of both the knee and hip.  When the knee is flexed, the rectus has less mechanical advantage, because it is placed in a lengthened position; same goes if the hip is extended.  It will be shortened if the hip is flexed and if the knee is extended at the same time, will have a mechanical disadvantage.

Now think about the direction of travel of each of the heads.

The “straight” head actually runs more obliquely from lateral to medial from its proximal attachment (AIIS) to the distal attachment (blending with vasti and patellar tendon); the refelected head runs a similar course, but not as oblique. If you were to externally rotate the thigh (remember, some folks may have an externally rotated foot due to external tibial torsion), it would actually give these heads more mechanical advantage (when the knee is relatively extended, such as at heel strike/ initial contact and toe off/ preswing) as abductors (remember to think from the ground up, closed chain, so the distal attachments are acting more like the origin); thus, the abductor moment we have talked about.

 

There you have it @Greglehman. Thanks for the great question.

 

The Gait Guys. Uber Gait Aficionado’s Extraordinaire. Come and learn with us. Watch us on Youtube; follow us on Facebook and Twitter, see many of our downloads on our payloadz site by clicking here.

 

All material copyright 2013 the Gait guys/ The Homunculus Group. All rights reserved; don’t make us call Lee.

The Power of Facilitation: How to supercharge your run.

While running intervals this crisp, cool 19 degree morning, something dawned on me. My left knee was hurting from some patellar tracking issues, but only on initial contact and toe off. I gene…

The Power of Facilitation: How to supercharge your run.

While running intervals this crisp, cool 19 degree morning, something dawned on me. My left knee was hurting from some patellar tracking issues, but only on initial contact and toe off. I generally run with a midfoot strike. I began concentrating on my feet, lifted and spread my toes and voila! my knee pain instantly improved. Very cool, and that is why I am writing this today. 

Without getting bogged down in the mire of quad/hamstring facilitation patterns, lets look at what happened.

I contracted the long extensors of the toes: the extensor digitorum longus and the extensor hallicus longus; the short extensors of my toes: the extensor digitorum brevis, the extensor hallucis brevis: as well as the dorsal interossei.the peroneus longus, brevis and tertius were probably involved as well.

Do you note a central theme here? They are all extensors. So what, you say. Hmmm… 

Lets think about this from a neurological perspective:

In the nervous system, we have 2 principles called convergence and divergence. Convergence is when many neurons synapse on one (or a group of fewer) neuron(s). It takes information and “simplifies” it, making information processing easier or more streamlined. Divergence is the opposite, where one(or a few) neurons synapse on a larger group. It takes information and makes it more complicated, or offers it more options.

In the spinal cord, motor neurons are arranged in sections or “pools” as we like to call them in the gray matter of the cord. These pools receive afferent information  and perform segmental processing (all the info coming in at that spinal cord segment) before the information travels up to higher centers (like the cerebellum and cortex). One of these pools fires the extensor muscles and another fires the flexor muscles.. 

If someone in the movie theater keeps kicking the back of our seat, after a while, you will say (or do) something to try and get them to stop. You have reached the threshold of your patience. Neurons also have a threshold for firing.  If they don’t reach threshold, they don’t fire; to them it is black and white. Stimuli applied to the neuron either takes them closer to or farther from threshold.  When a stimulus takes them closer to firing, we say they are “facilitating” the neuron. If it affects a “pool” of neurons, then that neuronal pool is facilitated. If that pool of neurons happens to fire extensor muscles, then that “extensor pool” is facilitated.

When I consciously fired my extensor muscles, two things happened: 1. Through divergence, I sent information from my brain (fewer neurons in the cortico spinal pathway) to the motor neuron pools of my extensor muscles (larger groups of motor neurons) facilitating them and bringing them closer to threshold for firing and 2. When my extensor muscles fired, they sent that information (via muscle spindles, golgi tendon organs, joint mechnoreceptors, etc) back to my cerebellum, brain stem and cortex (convergence) to monitor and modulate the response.

When I fired my extensor muscles, I facilitated ALL the neuronal pools of ALL the extensors of the foot and lower kinetic chain. This was enough to create balance between my flexors and extensors and normalize my knee mechanics.

If you have followed us for any amount of time, you know that it is often “all about the extensors” and this post exemplifies that fact.

 Next time you are running, have a consciousness of your extensors. Think about lifting and spreading our toes, or consciously not clenching them. Attempt to dorsiflex your ankles and engage your glutes. It just may make your knees feel better!

The Gait Guys. Facilitating your neuronal pools with each and every post.

All material copyright 2013 The Gait Guys/ The Homunculus Group. All rights reserved. If you rip off our stuff, we will send Lee after you!

Podcast 41: The Ankle Dorsiflexion Podcast.

Today we talk about many things affecting, impairing, and relating to ankle dorsiflexion, and so much more ! Join us today on The Gait Guys podcast !

A. Link to our server:

http://thegaitguys.libsyn.com/podcast-41-the-ankle-dorsiflexion-podcast

B. iTunes link:

https://itunes.apple.com/us/podcast/the-gait-guys-podcast/id559864138

C. Gait Guys online /download store (National Shoe Fit Certification and more !) :

http://store.payloadz.com/results/results.aspx?m=80204

D. other web based Gait Guys lectures:

www.onlinece.com   type in Dr. Waerlop or Dr. Allen,  ”Biomechanics”

________________________________________

* Today’s show notes:

Neuroscience:

2. Harvard creates cyborg skin
 
3. Wearable tech
 
4. Walking energy audio clip
5. Int J Sports Phys Ther. 2013 Apr;8(2):121-8.

Ankle dorsiflexion range of motion influences dynamic balance in individuals with chronic ankle instability.

 
6. Lower limb biomechanics in individuals with knee osteoarthritis before and after total knee arthroplasty surgery.
7. From a Facebook follower:

Hello there, I’ve been following your stuff for a while now after searching far and wide for solutions to issues I have with my feet/ankles (and the fact I have an interest in what you guys do, I’m going to University in two weeks to study Sports Therapy).
Why I decided to message you now though is because … 

8. Disclaimer

9. National Shoe Fit program and our Payloadz store

10. Online CE October 30th

11. In the media:

Achilles pain and glute control

12. J Strength Cond Res. 2013 Oct 11. [Epub ahead of print]

The influence of load and speed on individuals’ movement behavior.

Look at these kids running …  all but one shows poor form, but remember, these kids are still undergoing neurodevelopment and are learning to control their body parts. Remember, the maturation/myelination of the nervous system usually lags be…

Look at these kids running …  all but one shows poor form, but remember, these kids are still undergoing neurodevelopment and are learning to control their body parts. Remember, the maturation/myelination of the nervous system usually lags behind the development of the musculoskeletal system. 

In the photo, lets first focus on the happy lad in the green shirt. He sure looks like he is having fun, which is what running should be about in kids. If you try to make running a chore for kids you just might lose their love of it in the process. But our point here at The Gait Guys is to teach. So here in this photo are some good teaching points. You should see:

1- the stance phase leg (right leg) is spun out into external rotation. Not too much of a big deal because we do not know if he has finished the normal derotation process of the limb, sometimes this can carry into the puberty years even though for most kids the process is largely completed by his predicted age.

2- The pelvis has drifted laterally in the frontal plane past a perpendicular line up from his foot. This could mean alot of things including gluteus medius or abdominal weakness but the point here is that he has broken through the lateral line (frontal plane) of support up through the hip-pelvis-core chain. This is going to set up what the the left knee (swing leg) is doing and will set up #3.

3. Cross over gait is virtually guaranteed because of the lateral pelvis drift as noted in #2. It is virtually guaranteed as well because the swlng leg knee coming inwards is dictating it. IF the knee is coming inwards toward the midline the thing attached to it , the foot, is going to follow. The swing leg is a pendulum, if you shift the pivot point of the pendulum (in this case to his right) the pendulum will swing to the right. This is a self-perpetuating cycle and it will not correct without strengthening, awareness and drilling positive feedback changes.

4. Dr. Allen’s current thought experiment on Ballasts (see podcast 38) is playing out here with the left arm of this fella. If the pelvis drifts far to the right, the arm will move away from the body to move some of the left side body weight outwards to negate the right shift. This is pure balance physics.  Arm swing most of the time cannot be corrected without correcting the thing that causes the aberrant arm swing, and that is often (but not exclusively) aberrant lower limb and pelvis-hip-core or foot mechanics. There are exceptions, but often if you fix the lower limb and pelvis-hip mechanics  you will see an immediate change in the arm swing. If you force changes in arm swing without fixing the problem (and that is not to say there are not local arm swing etiologies) you may be  driving strength into a compensation pattern that you may not want or like.

5. The girl in the pink tights  … . she might have been modelling the boy in the green shirt. Same issues, same concerns.

6. The form we love the most ? The boy in the dark blue shirt and black shorts on the far right. Great form, no major issues here. We bet he didn’t hear the starters gun go off.

On a side note, the fella in the green shirt with that form he would be a champion race walker. He already has the hip action right, the cross over that is loved in that sport and the arm swing.  Maybe some exposure to an alternate sport is a better solution here ? Although we are always an advocate for correcting flawed biomechanics.

It is often painful for us to watch kids run. We know that much of the things we hate are temporary because of the neuro-developmental process. But sometimes, if kids run too much at a young age, and are pressed into long running miles or cross country at too young an age, these aberrant mechanics can become their new norm. This is the danger of plasticity in the nervous system. Repeated stimulation of a pattern engrains that pattern and the extent of a brain’s plasticity is dependent on the stage of neuro-development and the brain region affected.  When an aberrant running form is allowed to perpetuate into the mid-teenage years, when the majority of the synapses are already formed and neurologic “pruning” and myelination are ramping up, then the repeated exposure to the aberrant pattern can get the myelination. This is the most frustrating thing for us. We would rather see some intervention early on with the creation, strengthening and myelinating of correct motor patterns through skill development training rather than mileage training, rather than discarding the more appropriate synapses that could have, might have, should have, been formed. Our bodies and brain will develop depending on the exposures and demands put upon it. And here is the big key, if you do not clean up someone’s gait aberrancy(s) early on, one should not wonder down the road why they developed flat feet, bunions, early degenerative knees and the like. This is a fairly predictable machine, but you have to try to intervene early to prevent the slings and arrows of outrageous misfortune later on.

Both the brain and the body will adapt to their environment, whether that is an optimal one or a compensatory one. It can myelinate either pathway. Which one will you choose for your kids ?

Shawn and Ivo, The Gait Guys

Do you kick or scrape the inside of your ankle with the other foot ?
We are moving into the final throws of cross country season now and we are seeing the pathologies creep in and the miles go up. Some of you who have been with us for 3 years  have …

Do you kick or scrape the inside of your ankle with the other foot ?

We are moving into the final throws of cross country season now and we are seeing the pathologies creep in and the miles go up. Some of you who have been with us for 3 years  have seen this picture but we realized we did not have a blog post on the problem represented by this photo.  This young runner had these scuff marks on the inside of the right lower leg and ankle after a cross country meet.  So what is going on here and what does it tell you ?

Some runners notice that they repeatedly will scuff in the inside ankle or inner calf with the opposite shoe when running. This can happen on both sides but it is more often present unilaterally than bilaterally. 

This problem, typically, but not always represents one of two things:

1- cross over gait (if you are new to our blog in the SEARCH box type in “cross over” and “cross over gait” and be sure to see our 3 part video on the cross over on our youtube channel found here).

2- negative foot progression angle which may or may not be combined with a degree of internal tibial torsion.  Said easier, the runner is “in-toed” or “pigeon toed” but if you have been here with us awhile on The Gait Guys we expect a diagnosis of a higher order so use the former terms, please.

Lets discuss both.

1- Cross over.  When the runner is standing on the right leg, right stance phase of gait, the frontal plane is not properly engaged and the pelvis can drift further over the right foot. This drift to the right will drop the pelvis on the left side. This will alter the pendulum movement of the left leg. Since the global pelvis is moving to the right the left swing leg pendulum moves to the right as well and as it swings past the stance leg it strikes a glancing blow to the inside of the right ankle or calf. This is simple biomechanics and physics. To fix this problem, which is clearly inefficient, one has to determine what is causing the right pelvis drift (there are many causes, the most often thought of cause is a weak gluteus medius on the right but if you have been here with us awhile you will know there are other causes) and then fix the drift. Do not assume it is the gluteus medius all the time, for if it is not, and you employ more glute medius exercises you could be ignoring the source and building a deeper compensation pattern.  Fix the problem, not what you see.

2- Negative foot progression angle and/or internal tibial torsion.  In order to fix this you have to know first if you are dealing with a fixed/rigid anatomic tibial or femoral torsion issue which cannot be fixed or if you are dealing with a flexible progression angle issue. Often, “in-toeing” is accompanied with internal tibial torsion, this is because the knee has to progress forward to keep its tracking mechanics clean, if you correct someone’s foot progression back to neutral and they have internal tibial torsion then you have dragged the patellar tracking outside the normal sagittal progression angle, knee pain will ensue. In fact, the foot progression on the ankle is normal, but the tibia or femur are merely torsioned in a manner that drags the foot inwards with the long bone orientation, again, this is driven by a higher order/demand, to normally track the patella sagittally (forward).  However, if this is a pre-puberty individual you have time because the long bone derotation process is still occuring. Give homework to encourage a good foot tripod and work to strengthen the external hip rotators and encourage sagittal knee tracking mechanics. This is a delicate balancing act, but it can be done, but it is a monster of a project for a blog post because each case is different, variable and always changing depending on the client progress. Remember, you can only encourage more appropriate mechanics and hope that the body will embrace some of the change and encourage some of the de-rotation process to occur from the long bone growth plates. 

The “inside scuff”, to identify its solution you have to know the cause. After all, if it was as easy a fix as “stop doing that” no one would be doing it and we would be out of a job.

Shawn and Ivo …… The Gait Guys 

Podcast 40: Trips, Falls and NFL Shoe Injuries

Today we talk about trip and fall incidence, the NFL shoe injury epidemic and so much more ! Join us today on The Gait Guys podcast !

A. Link to our server:

http://thegaitguys.libsyn.com/podcast-40-trips-falls-and-nfl-shoe-injuries

B. iTunes link:

https://itunes.apple.com/us/podcast/the-gait-guys-podcast/id559864138

C. Gait Guys online /download store (National Shoe Fit Certification and more !) :

http://store.payloadz.com/results/results.aspx?m=80204

D. other web based Gait Guys lectures:

www.onlinece.com   type in Dr. Waerlop or Dr. Allen,  ”Biomechanics”

* Today’s show notes:

Neuroscience:
 
1. Foramen magnum position in erect ambulation
 
1b: Scientists Identify Protein Linking Exercise to Brain Health
REDDIT TOP NEWS | OCTOBER 12, 2013
http://pulse.me/s/s2PNS 

2.  More on Cannabinoids
 
5.  NFL shoes and injuries
6. From a Blog reader:
Hi guys,
I have been having major leg issues sine my ACL reconstruction  … .
Our DISCLAIMER !, hear it on the podcast. We are NOT your doctor !
7.  From a Blog reader:
Hello, I’m a 19 year old runner trying to get rid of my crossover gait … 
 
8. Another one from a blog reader
Hi, I have a question about externally rotated hip. When i bring my knee up to my chest, my leg turns outward … 
 
9.  Blog
Im really confused with GaitGguys, I follow but this time mixed messages. Recent video showed was varus/lateral boarder push off gait, girl in tennis shoes … 
 
Hi, my name is Paige. I have been working in a sports medicine outpatient clinic for about 2 months now. I love your podcast and recommend it to as many clinicians as possible. I watched your youtube videos on the shuffle gait and have been implementing them into a patient’s home program. They are working great and the patient loves them as well! Just wanted to let you know! I love the videos and hope to take your shoe fit program at some point! You are geniuses and excellent instructors. I’ve learned so much already that we just don’t get enough of in school!
Thanks so much!
Paige
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The power to bend bones.

What have we here? Hmmm. This little girl was brought in by her mother because of intermittent knee pain and “collapsing” of the knees while walking, for no apparent reason.

The ankle dorsi flexion (or ankle rocker; see last 2 pictures; we are fully dorsiflexing the ankles)  needs to occur somewhere, how about the knees? Or in this case, the tibia. Wow!

You are looking at a 4 year year with a condition called genu (and tibial) recurvatum. Genu recurvatum is operationally defined as knee hyperextension greater than 5 degrees. The knee is hyperextended, and in this case, the tibia is literally “bent backward”. Look at the 2 pictures of her tibia.

Generally speaking, the tibial plateau usually has a slight posterior inclination (as it does in this case; look carefully at the 1st picture) causing the knee to flex slightly when standing. Sometimes, if it is parallel with the ground and the center of gravity is forward of the knees, the knee will hyperextend (or in this case, the tibia will bend) to compensate.

In this particular case, the tibia has compensated more, rather than the knee itself. The knee joint is stable and there is no ligamentous laxity as of yet. She does not have a neurological disorder, neuromuscular disease or connective tissue disorder. She has congenitally tight calves.

As you can imagine, her step length is abbreviated and ankle rocker is impaired.

So what did we tell her Mom?

  • keep her barefoot as much as possible (incidentally, she loves to be barefoot most of the time, gee, go figure!)
  • have her walk on her heels (she’s a kid, make a game of it)
  • showed her how to do calf stretches
  • balance on 1 leg with her eyes open and closed
  • keep her out of backless shoes (like the clogs she came in with)
  • keep her out of flip flops and sandals where she would have to “scrunch” her toes to keep them on.
  • follow back in 3 months to reassess

There you have it. Next time you don’t think Wolff’s (or Davis’s) law* is real, think about this case. Want to know more? Consider taking our National Shoe Fit Program, available by clicking here.

The Gait Guys. Making you gait IQ higher with each post.

*Wolff’s law: Bone will be deposited in areas of stress and removed in areas of strain. or put another way: bone in a healthy person or animal will adapt to the loads under which it is placed

Davis’s law: soft tissue will adapt to the loads that are placed on it

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You create your own gait problems.

Just a simple reminder. Most shoes have EVA foam between the hard outsole rubber. EVA foam compresses but it also has memory. If you have a running form issue or a foot type that drives abnormal biomechanics into the shoe then over time the shoe’s EVA foam will break down into that pattern. Not only does this then support the problem, but it enables you to engrain the pattern (which means you are not engraining a cleaner pattern) meaining that every other joint and muscle then assumes that this is the norm and begins to alter their function based on the premise. A sign issue can drive many issues and many other complaints.  This client had a rigid rear foot varus , obviously as you can see by the wear pattern (yes, we gently and lovingly flogged this running for wearing the shoes this long into this pattern) but it was made worse by letting the shoe entrench this pattern so deeply. You see, their rear foot varus was no where nearly as bad as the wear into this shoe. But they continued to wear it and the foam continued to break down further and deeper into this varus wedged pattern. They came into see us for lateral knee pain and a tight IT band that was not responding to foam rolling (we immediately began to whimper and then proceeded to thump our forehead into our desk, repeatedly).  Some things should be obvious, but even we are far from perfect or wise at times.  

Key point, you have heard this here over and over again from us, have 2 or 3 pairs of shoes. Introduce the new shoe into your running repertoire at the 200 mile mark. At that point start rotating your shoes so that you are only a day away from a newer shoe that his not broken down into a faulty pattern and thus deformed EVA foam.  Even by the time the one shoe is dead and done, you have not been in it every run.  You should never kill a shoe to the 500 mile mark and then buy a new shoe. The pattern you have worn into your shoe will suddenly disappear when you put on the new shoe. Injuries occur from repeated events or sudden changes. Reduce your risk and rotated at least 2 pairs of shoes, one newer and one older.  

We talk about alot of these issues, and so much more, in the National Shoe Fit Certification Program. Email us if you think you might be interested.   thegaitguys@gmail.com

And ……when it comes to your feet and shoes, use your head.

Shawn and Ivo, The Gait Guys