When the Windlass is lost.

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When the Windlass is lost.
Here, this case again (hallux amputation), when the Windlass is lost or at the very least, impaired, what holds up the arch?
Without the winding of the plantar fascia through hallux dorsiflexion (toe extension) and without the FHL (flexor hallucis longus) we lose major engineering advantages to lift/support the arch and control pronation variables.
So what is left ?
Tibialis posterior, tibialis anterior, peroneus longus, mostly, are what is left. So when these guys are suffering (ie, tendinopathy etc) it could be due to the other previously mentioned engineering marvels being impaired.

It is a team effort to keep the foot healthy and functioning without expressible pathology.

*note the heavy flexion attempts of the 2nd toe, the next soldier in line, no surprise there.
Now you should realize why you see this 2nd toe over-flexion attempts when even an existing, yet incompetent, hallux is present.

This slide is part of a new presentation, one we will be doing a WEBEX on that you can all join in on, and it will be a new presentation for our onlineCE Wednesday night seminars.

Now, go read this dudes blog, inspirational journey through big toe cancer. Thanks for sharing your story Kevin, and your case photos. (PS: presentation is almost done, so i will be in touch soon so we can go over it and collaborate).
https://www.theagecoach.com/

#gait, #gaitanalysis, #gaitproblems, #thegaitguys, #gaitcompensations, #halluxamputation, #windlassmechanism, #halluxdorsiflexion, #pronation, #FHB, #FHL, #hammertoes, #theagecoach

Toe extension matters.

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The season to pathologize our feet is upon us. Toe extension matters.

I blew out my flip flop,
Stepped on a pop top;
Cut my heel, had to cruise on back home.
But there's booze in the blender,
And soon it will render
That frozen concoction that helps me hang on. - Jimmy Buffett

I continue to see more and more people with inadequate toe extension. It is complicated. I see those who do not even have the awareness of toe extension, loss of strength of toe extension, loss of endurance of toe extension, loss of global range of toe extension (dorsiflexion at the MTP joint), more failure of long toe extensor (EHL) strength and more prominence of increased short toe extensor strength (EDB) and more frightening, a lack of disassociation of toe extension (MTP dorsiflexion) and ankle dorsiflexion. Many clients when asked to life their toes, will drive into ankle mortise dorsiflexion; ask them to just purely toe dorsiflex and the mental games begin, a wrinkled brow, intense concentration. If you cannot extended the toes sitting, how are you going to find them in swing phase of gait when balance, and other things, are more important?
Stand and lift your toes. The arch should go up, you have engaged the Windlass Mechanism, that winds up the plantar fascia and raised the arch. If you do not have competent, unconsciously competent, toe extension, your arch is not all that it can, and should, be. If you cannot raise your toes, thus raise the arch, thus plantarflex the first metatarsal, then in gait, when the foot is on the ground, you cannot properly position the sesamoids, properly get safe terminal ranges of hallux dorsiflexion at toe off, properly position the foot for loading and unloading, adequately achieve ankle dorsiflexion, adequately offer the hip a chance for ample hip extension, offer the glutes optimal chance to work in all phases to help control spin of the limb during loading and unloading, and the list goes on and on. I am sure I left much out there, this was written in a few minutes and unedited, just a short rant for the weekend. But if you have not championed toe extension, both in an unloaded and loaded foot (on the ground), achieved control of both long and short extensor muscles to the toes (and paired them well with the long and short toe flexors), disassociated toe extension from ankle dorsiflexion, and then figured out how to properly, timely, engage all these processes into your gait unconsciously, you are working on less of an optimal system than you should be. So, if your feet hurt, hips hurt, or a plethora of other problems that you are trying to fix with orthotics or other toys, maybe start with, "can you lift your toes?". It is a piece of the puzzle, trust me.
Or, you can just stay in your flip flops and perpetuate your toe flexion and wait for bad things to take root After all, tis the season soon !
Yes, toe extension in flip flops (we must flex our toes to keep them on) is as rare as a good multi-tasking man.

Shawn Allen, one of the gait guys.


" "Stand and lift your toes. The arch should go up, you have engaged the Windlass Mechanism, which winds up the plantar fascia and raises the arch. If you do not have competent, unconsciously competent for that matter, toe extension, your arch is not all that it can, and should, be. If you cannot raise your toes, thus raise the arch, thus plantarflex the first metatarsal, then in gait, when the foot is on the ground, you cannot properly position the sesamoids, properly get safe terminal ranges of hallux dorsiflexion at toe off, properly position the foot for loading and unloading, adequately achieve ankle dorsiflexion, adequately offer the hip a chance for ample hip extension, offer the glutes optimal chance to work in all phases to help control spin of the limb during loading and unloading, and the list goes on and on."

Podcast 137: Running: Limitations in thoracic spine function matter

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We cover many aspects of human movement on this podcast, the topics are broad ranging on today's show, but they are worthy of your time in our opinion.

direct download: http://traffic.libsyn.com/thegaitguys/pod_138f.mp3

Permalink: http://thegaitguys.libsyn.com/podcast-137-running-limitations-in-thoracic-spine-function-matter

Libsyn: http://directory.libsyn.com/episode/index/id/6866653


Key words:
arm swing, thoracic extension, scapular retraction, arch height, rear foot posting, forefoot loading, ankle dorsiflexion, ankle rocker, shoulder extension, SSEP, F-wave, EMG/NCV testing, gait ataxia
 
Here are some key quotes from today's show:

You may have the range of motion, but are you actually able to use it?
You haven't truly injured yourself, you've just lost your ability to compensate.

And we discuss a case study today, where the following paragraph is germane.

"Abnormal gait changes might be the first signs of an early slow cooking neurologic disorder. Most, not all, pathology is afferent, yet most (not all) EMG/NCV testing is geared towards the efferent pathology (motor end organ disease, not sensory compromise), hence, testing can miss your client's pathology.  We discuss a classic case where the client clearly had the beginnings of a neurologic disorder on our exam (clonus and joint position sense changes and clear ataxic gait) yet the testing "that was done" showed a normal study of this client.  Much pathology is afferent, the input is the problem, so you need to consider requesting Sensory nerve action potentials, SSEP and F-wave testing, because they are difficult to elicit and good technique is paramount. Hence these extra components of the test are not done, and you need to ask for this in your testing.  "Maybe it's not there because you are not looking".  We have much more on this topic, come listen to Podcast 138 and get the full monty."

Our Websites:
www.thegaitguys.com

summitchiroandrehab.com doctorallen.co shawnallen.net

Our website is all you need to remember. Everything you want, need and wish for is right there on the site.
Interested in our stuff ? Want to buy some of our lectures or our National Shoe Fit program? Click here (thegaitguys.com or thegaitguys.tumblr.com) and you will come to our websites. In the tabs, you will find tabs for STORE, SEMINARS, BOOK etc. We also lecture every 3rd Wednesday of the month on onlineCE.com. We have an extensive catalogued library of our courses there, you can take them any time for a nominal fee (~$20).

Our podcast is on iTunes and just about every other podcast harbor site, just google "the gait guys podcast", you will find us.

You need toe extension, more than you might think.

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Screen Shot 2018-07-20 at 9.24.08 AM.png

There is a major difference in these 2 photos.One foot is ready for foot loading, the other has one foot over the starting line, and is going to possibly have the risks related to inappropriate loading.

In clients with one of several possible issues related to poor control of the arch during weight bearing loading, it is not all too uncommon for us to bring to their attention that not only do they NOT utilize toe extension appropriately, and at the right time, they just simply have poor strength and endurance of the toe extensors (we will not be bringing up the complicated orchestration of the long and short toe extensors today, lets just keep it loosely as looking at them as a whole for today).

We know we say it an awful lot, that clients need more toe extension endurance and strength. But more often than not, they need more awareness of how little they are actually using their toe extensors during foot loading. This is why we despise flip flops and foot wear without a back strap on them, the flexors have to dominate to keep the footwear on the foot.  And, if you are into your toe flexors, you are definitely not into your toe extensors.

Screen Shot 2018-07-20 at 9.23.54 AM.png

You can easily see in this photo that there is a major difference in the integrity and preparation of the foot arch prior to foot loading in these 2 sample photos. One the toes are up in extension, the other the toes are lazy and neutral.  The toe up photo demonstrates well that when the toes are extended, the Windlass mechanism draws the forefoot and rearfoot together and raises the arch. Go ahead, lift your toes, it will happen on you as well (unless your arch is so collapsed that the first metatarsal actually dorsiflexes during toe extension, in this case, you are a whole different management tier). From this arch raised position, the first metatarsal is adequately plantarflexed, this means the joint complexes proximal and distal to the metatarsals are all in the right position to load and cope with loads. In the toe neutral picture, these components are not prepared, the arch is already getting ready to weight bear load from a half-baked position. One cannot expect the foot complex to load well when it is starting from a position of "half way there". One should start the loading of the foot from the starting line, not 3 steps over the line and not 3 steps before the starting line.  There is no athletic or mechanical endeavor that does well when we start the challenge too soon or too late, timing is everything.

How you choose to prep your foot for contact loading, and yes, there is some conscious choice  here, one is lazy the other is optimal, can determine to a large degree if you or your client is about to fall into the long list of problems related to poorly controlled pronation (too much, too soon, too often, too fast). Any of those bracketed problems lead to improper loading and strains during time under tension.

We will almost always start our clients on our progressing protocol of arch awareness and we will loosely say arch restoration, and attempts at better optimizing the anatomy they have, with toe up awareness.  Many clients will have poor awareness of this component issue, on top of poor endurance and frank weakness. The arch is to a great degree build from a lifting mechanical windlass effect, from the extensors and foot dorslflexors, not from the foot flexors. This is one of our primary beefs with the short foot exercise of Janda, there needs to be a toe extensor component in that exercise (search our blog for why the short foot exercise is dead). The short foot exercise is not actually dead, all exercises have some value when placed and performed properly, but the short foot exercise is based off of the toes being down and utilizing the plantar intrinsics to push the arch up and shorten the foot, this is a retrograde motion and it is not how we load the foot, but, it does have value if you understand this and place it into your clients repertoire appropriately.  This is also why we have some conceptual problems in stuffing an orthotic under someones arch to "lift it up", ie. slow its fall/pronation.  There are times for this, but why not rebuild the proper pathways, patterns and mechanics ?

Teach your clients about toe extension awareness. TEach them that they need to relearn the skill that when the toes drop down to the ground that the arch does NOT have to follow them down, that the client can relearn, "toe up, arch up . . . . . then toes down, but keep the arch up".  IT is a mantra in our office, "don't let your arch play follow the leader".  Reteach the proper neurologic disassociation between the toes and arch.

Perhaps the first place you should be starting your clients with foot and ankle issues, is regaining awareness of proper toe extension from the moment of toe off, maintaining it through swing, and then keeping it until the forefoot has purchase on the ground again, and not any time sooner than that ! If their toes are coming down prior to foot contact, it is quite likely their arch is following the leader.

So, if your client comes in with any of the following, to name just a few:  tibialis posterior tendonitis, plantar fascitis, heel pain, forefoot pain, painful bunions, arch pain, hallux limitus, turf toe, . . . . and the list goes on. Perhaps this will help you get your client to the starting line.

Shawn & Ivo, thegaitguys.com

 

The season to pathologize our feet is upon us. Toe extension matters.

/
Screen Shot 2018-04-06 at 8.05.18 AM.png

I blew out my flip flop,
Stepped on a pop top;
Cut my heel, had to cruise on back home.
But there's booze in the blender,
And soon it will render
That frozen concoction that helps me hang on. - Jimmy Buffett

I continue to see more and more people with inadequate toe extension. It is complicated. I see those who do not even have the awareness of toe extension, loss of strength of toe extension, loss of endurance of toe extension, loss of global range of toe extension (dorsiflexion at the MTP joint), more failure of long toe extensor (EHL) strength and more prominence of increased short toe extensor strength (EDB) and more frightening, a lack of disassociation of toe extension (MTP dorsiflexion) and ankle dorsiflexion. Many clients when asked to life their toes, will drive into ankle mortise dorsiflexion; ask them to just purely toe dorsiflex and the mental games begin, a wrinkled brow, intense concentration. If you cannot extended the toes sitting, how are you going to find them in swing phase of gait when balance, and other things, are more important?
Stand and lift your toes. The arch should go up, you have engaged the Windlass Mechanism, that winds up the plantar fascia and raised the arch. If you do not have competent, unconsciously competent, toe extension, your arch is not all that it can, and should, be. If you cannot raise your toes, thus raise the arch, thus plantarflex the first metatarsal, then in gait, when the foot is on the ground, you cannot properly position the sesamoids, properly get safe terminal ranges of hallux dorsiflexion at toe off, properly position the foot for loading and unloading, adequately achieve ankle dorsiflexion, adequately offer the hip a chance for ample hip extension, offer the glutes optimal chance to work in all phases to help control spin of the limb during loading and unloading, and the list goes on and on. I am sure I left much out there, this was written in a few minutes and unedited, just a short rant for the weekend. But if you have not championed toe extension, both in an unloaded and loaded foot (on the ground), achieved control of both long and short extensor muscles to the toes (and paired them well with the long and short toe flexors), disassociated toe extension from ankle dorsiflexion, and then figured out how to properly, timely, engage all these processes into your gait unconsciously, you are working on less of an optimal system than you should be. So, if your feet hurt, hips hurt, or a plethora of other problems that you are trying to fix with orthotics or other toys, maybe start with, "can you lift your toes?". It is a piece of the puzzle, trust me.
Or, you can just stay in your flip flops and perpetuate your toe flexion and wait for bad things to take root After all, tis the season soon !
Yes, toe extension in flip flops (we must flex our toes to keep them on) is as rare as a good multi-tasking man.

Shawn Allen, one of the gait guys.

The Circle of Durability.

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The article below for some reason inspired today's soft rant. I hope you feel this is worth your time. 
Yesterday I talked about arch height and ankle mortise dorsiflexion and how we can obtain more global dorsiflexion range through some pronation, loosely meaning, some arch compression/drop and splaying apart of the tripod legs of the foot. Global arch flexibility is a piece of that puzzle.  This action of arch compression/drop/tripod splay moves the tibia forward in the sagittal plane and this is global dorsiflexion. Let me be clear however, a reduced ankle mortise dorsiflexion range of sagittal motion which is met by more arch height reduction/prontation/tripod splay, is still dorsiflexion however it is less sagittal dorsiflexion and a little more adduction and medial drift. This can bring the knee into the medial plane and it does promote more internal spin of the limb, this can be a problem.  None the less, it is still global dorsiflexion. It is something we see at the bottom of a squat, we see it because to get there most of us do not have all that dorsiflexion at the mortise. It is not abnormal, the question is, "is it safe for you? Can you do it repeatedly, safely?" It is where we go when we need more sagittal motion, but it may not be ideal, and is often what creates functional pathology. We see it all the time, someone says in an email, "I have plenty of ankle dorsiflexion, that is not my issue".  Do you have plenty? Is it not really your problem? This is fine tuning stuff, it takes a skillful eye and assessment hand. It takes experience to see the whole picture. You cannot get this full 4k experience and understanding from a 2 dimensional youtube video. This arch compression and pronation is normal to occur, it should occur, it must occur. But, how much is too much, for you ? I like to explain it this way, 


"there is a point at which sound, economical, durable, biomechanics becomes a liability. And, at that point where the liabilities begin is in fact where we begin to skirt the edges of that durable skilled movement. Where we begin juggling our liabilities is where the risks begin to mount and begin to whittle away or trump our S.E.S.P (skill, endurance, strength, power). This is where injury often occurs, at that intersection where the gas tank of our S.E.S.P. begins to run low and our liabilities begin to run high." 


Sidebar: 
I have explained this concept many times before when talking about the cross over gait. Moving towards a narrower step width is fine if you have the durability to be there. The question is, how long are you going to be there ? A cross over gait tendency is more economical but you begin to risk liabilities toward injury if that durability becomes challenged. As a runner you must know where your safe zone exists and know how much durability you have at those fringes of your movement. It is when you are there too long, too often, or too much that you empty that durability gas tank which then increases your liabilities towards injury. This is why I give high volume and strength work once a problem is solved, to make sure that they can keep that circle of durability high. It is when we stop keeping our gas tanks large and full that we run on fumes and our risks increase. You might be able to run economically for 5 miles with a narrow step width cross over style running gait. But, can you do it safely at 10 miles ? How about 15?  Is it any wonder why people get injured as they fatigue their safe motor patterns ?  If they have worked hard to keep that circle of durability large (S.E.S.P.) they are bound to be safer and less injured. Injuries occur because we exit our circle of durability, its gas tank has run too low, liabilities now trump economy and durability.

- Dr. Shawn Allen, the gait guys

http://www.japmaonline.org/doi/abs/10.7547/8750-7315-2016.1.Song
 

Medial longitudinal Arch age stablization.

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It seems to depend on what source you read as to when the MLA (medial longitudinal arch) stabilizes, but here is a number, between 7-9 years old. 

Conclusions: The MLA of children remained stable from 7 to 9 years old. Gender and the type of footwear worn during childhood may influence MLA development.

Reference:

Medial Longitudinal Arch Development of Children Aged 7 to 9 Years: A Longitudinal Investigation.Jasper W.K. Tong, Pui W. Kong Journal of American Physical Therapy Assoc.   DOI: 10.2522/ptj.20150192 Published February 18, 2016

http://ptjournal.apta.org/content/early/2016/02/17/ptj.20150192

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Why alignment of the big toe is so critical to gait, posture, stabilization motor patterns and running.

There are two ways of thinking about the arch of the foot when it comes to competent height.  One perspective is to passively jack up the arch with a device such as an orthotic, a choice that we propose should always be your last option, or better yet to access the extrinsic and intrinsic muscles of the foot (as shown in this video) to compress the legs of the foot tripod and lift the arch dynamically.  Here today we DO NOT discuss the absolute critical second strategy of lifting the arch via the extensors as you have seen in our “tripod exercise video” (link here) but we assure you that regaining extensor skill is an absolute critical skill for normal arch integrity and function.  We like to say that there are two scenarios going on to regain a normal competent arch (and that does not necessarily mean a high arch, a low arch can also be competent….. it is about function and less about form): one scenario is to hydraulically lift the arch from below and the other scenario is to utilize a crane-like effect to lift the arch from above. When you combine the two, you restore the arch function.  In those with a flat flexible incompetent foot you can often regain normal alignment and function.  But remember, you have to get to the client before the deforming forces are significant enough and have been present long enough that the normal anatomical alignments are no longer possible. For example, a hallux valgus with a large bunion (this person will never get to the abductor hallucis sufficiently) or a progressively collapsed arch that is progressively becoming rigid or semi-rigid.

Think about these concepts today as you watch your clients walk, run or exercise.  And then consider this study below on the critical importance of the abductor hallucis muscle after watching our old video of Dr. Allen’s competent foot.  

CONCLUSIONS AND CLINICAL RELEVANCE:

The abductor hallucis muscle acts as a dynamic elevator of the arch. This muscle is often overlooked, poorly understood, and most certainly rarely addressed. Understanding this muscle and its mechanics may change the way we understand and treat pes planus, posterior tibial tendon dysfunction, hallux valgus, and many other issues that lead to a challenge of the arch, effective and efficient gait. Furthermore, its dysfunction and lead to many aberrant movement and stabilization strategies more proximally into the kinetic chains.

*From the article referenced below,  “Most studies of degenerative flatfoot have focused on the posterior tibial muscle, an extrinsic muscle of the foot. However, there is evidence that the intrinsic muscles, in particular the abductor hallucis (ABH), are active during late stance and toe-off phases of gait.“

We hope that this article, and the video above, will bring your focus back to the foot and to gait for when the foot and gait are aberrant most proximal dynamic stabilization patterns of the body are merely strategic compensations.

Study RESULTS:

All eight specimens showed an origin from the posteromedial calcaneus and an insertion at the tibial sesamoid. All specimens also demonstrated a fascial sling in the hindfoot, lifting the abductor hallucis muscle to give it an inverted ‘V’ shaped configuration. Simulated contraction of the abductor hallucis muscle caused flexion and supination of the first metatarsal, inversion of the calcaneus, and external rotation of the tibia, consistent with elevation of the arch.

http://www.ncbi.nlm.nih.gov/pubmed/17559771

Foot Ankle Int. 2007 May;28(5):617-20.

Influence of the abductor hallucis muscle on the medial arch of the foot: a kinematic and anatomical cadaver study.

Wong YS. Island Sports Medicine & Surgery, Island Orthopaedic Group, #02-16 Gleneagles Medical Centre, 6 Napier Road, Singapore, 258499, Singapore. 

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How to properly regain ankle rocker: A Prince of an Exercise

If you have been with us here at The Gait Guys you will know by now that we like to take Fridays and make them a blog post recycle.  This week we have a beauty and it parlays beautifully into our blog posts from the last 2 days on ankle rocker. We did this video about 3 years ago. We can tell because Dr. Allen hasn’t yet shaved his dome and he looks much younger.  Plus he stopped wearing sweater vests !  Ouch !

Today we show a staple in our in-office and home exercise programs. The Shuffle Walk and the Moon Walk.  We have altered these exercises in the last year or so, thus we really need to get that Foot Exercise DVD done that we have been promising for 2 years+.  

Anyhow, STOP passively stretching your calf muscles !!!!!!

Do the Shuffle walk instead.  We have a rule in our offices. If you are going to participate in a running sport, you must do 2 minutes of Shuffle Walks EVERY SINGLE DAY.  

The size of the anterior compartment muscles is much smaller than the bulbous large posterior compartment so the tug of war is always in the favor of the calf to become too dominant.  Drive some SES (Skill, Endurance and Strength) into the anterior compartment and you will see a stronger arch, control pronation better and very likely see shin splints disappear once and for all. 

Watch the video today and learn why some of our teams can be seen Shuffling around the outdoor track. It is pretty amazing to drive by a school and see an entire team shuffling and know that they are doing it because of The Gait Guys. It is comforting that we do not have to see many shin splint cases in our offices anymore because the teams are being proactive. Shin splints are SOOOOO boring and easy to fix.  

Enjoy gang, From the archives……..

Shawn and Ivo

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We could have easily made this a blog post about shoe sizes or how to use the Brannock device. And maybe we will in time. But this picture, if you are really thinking, can give you more insight into the entire biomechanical flaw of a client. If you …

We could have easily made this a blog post about shoe sizes or how to use the Brannock device. And maybe we will in time. But this picture, if you are really thinking, can give you more insight into the entire biomechanical flaw of a client. If you read our post today we bet you will forever look and compare the size of both feet of your clients … forever !

This is a picture of one of our patients. This person had a congenital “club foot” at birth also know as congenital talipes equinovarus (CTEV). It is a congenital deformity involving one or both feet. In this case it affected on the right foot (the smaller one). Multiple surgeries were performed at an infant to correct, and the correction is beautiful as these things go. TEV is classified into 2 groups: Postural TEV or Structural TEV.

That all aside, we have a smaller shorter right foot.

Where are we going with this ?

Foot size is often measured with the Brannock device in shoe stores, you know, the weird looking thing with the slider that measures foot length and width. In this case, the right heel:ball ratio, the length from the heel to the first metatarsal head, is shorter. The heel:toe length is also shorter, nothing like stating the obvious ! IF they are shorter then the plantar fascia is shorter, the bones are shorter, the muscles are smaller etc.

So, taking yesterday’s blog post in tow here (LINK to that posting), the maximal height of the arch on the right when the foot is fully supinated is less than that of the left side when also fully supinated (ie. during the second half of the stance phase of gait). Even with maximal strength of the toe extensors which we spoke of yesterday will not sufficiently raise the arch on the right to the degree of the left.

  1. Thus, this client is very likely to have a structural short leg. Certainly you must confirm it but you will likely see it in their gait if you look close enough.
  2. Also, you must remember that the shorter foot will also spend fractionally less time on the ground and will reach toe off quicker than the left. This may also play into a subtle limp.
  3. This client may have a mal-fitting shoe, the right foot will swim a little in a shoe that fits correctly on the left. You may be easily able to remedy all issues with a cork full length sole insert lifting both the heel and forefoot. This can negate the shoe size differential, change the toe off timing and remedy much of the short leg issue. * IMPORTANT: keep in mind, if you know your shoe anatomy (and you will if you get on board with our very soon to release “Shoe Fit Course”) you will know that the right foot at the metatarsal-phalangeal joint bending line will not be flexing where the shoe flexes on that right foot. The Right foot will be trying to bend proximal to the siping line where the shoe is supposed to naturally bend. This will place more stress into that foot. This brings up the rule for shoe fit: never size a persons shoe by pinching the toebox to see if there is ample room, the shoe should be fit to meet the great toe bend point to the flex point of the shoe.
  4. Strength of muscles is directly proportional to the cross sectional area of the muscle. With smaller muscles, this right limb is very likely to be underpowered when compared to the left.
  5. All of these issues can cause a failure of symmetrical hip rotation and pelvic distortion patterning.
  6. Altered arm swing (most likely on the contralateral side) is very likely to accommodate to the smaller weaker right lower limb. Do not be surprised to hear about low back pain or tightness or neck/shoulder issues.
  7. A shorter right leg, due to the issues we have discussed above, will place more impact load into the right hip ( from stepping down into the shorter leg) and more compressive load into the left hip (due to more demand on the left gluteus medius to attempt to lift the shorter leg during the right leg swing phase). This will also challenge the pelvic symmetry and can cause some minor frontal plane lumbar spine architecture changes (structural or functional scoliosis…… if you want to drop such a heavy term on it).

Gait plays deeply into everything. Never underestimate any asymmetry in the body. Some part as to take up the slack or take the hit.

Shawn and Ivo…….. far from symmetrical lads.