Podcast 77: Gait analysis, Forefoot Running & more.

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Plus, the 5 neurologic gait compensation expressions.

*Show sponsor: www.newbalancechicago.com

A. Link to our server: 

http://traffic.libsyn.com/thegaitguys/pod_77final.mp3

Direct Download: 

http://thegaitguys.libsyn.com/podcast-77

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”

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Today’s Show notes:

Google X acquires ‘tremor-canceling spoon’ startup
http://venturebeat.com/2014/09/10/google-x-acquires-tremor-canceling-spoon-startup/

The 5 expressions of neurologic gait decomposition,
Last week we did an online teleseminar … . .
An acoustic startle alters knee joint stiffness and neuromuscular control
http://onlinelibrary.wiley.com/doi/10.1111/sms.12315/abstract
Effectiveness of Off-the-Shelf, Extra-Depth Footwear in Reducing Foot Pain in Older People: A Randomized Controlled Trial
http://biomedgerontology.oxfordjournals.org/content/early/2014/09/08/gerona.glu169.abstract
reader:
I really appreciate learning from you!! I have a bit of a loaded question that I will try to explain clearly to the best of my ability. About 2 years ago, I broke my left shin (hairline-fibula) in a MMA fight. After it healed, a few things have been happening that I assume are connected but can’t quite put my finger on. My ankle mobility on my left ankle is worse than my left. I seem to have permanent turf toe as well. My right glute, ham, and erector are hyperactive.
Additionally, many times when sprinting, pushing a sled, etc, my right quad will become fatigued much more than my left. I believe it’s because I’m not fully extending my left ankle, and relying on my right leg more. Whenever I squat or deadlift, I feel similar too. The right glute and erectors get much more of a “pump” than my left. With all of this, is there anything you would recommend? I truly appreciate it!! It is very frustrating. Thank you again!

Podcast 76: The FMS™ screen and Injuries, Impact Loading & more.

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Podcast 76: Association of Functional Movement Screen™ With Injuries, Wool workout gear, landing softly and more !

*Show sponsor: www.newbalancechicago.com

A. Link to our server: 

http://traffic.libsyn.com/thegaitguys/pod_77.1_76final.mp3

Direct Download: 

http://thegaitguys.libsyn.com/podcast-76

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:

 
Last week on our social media sites we posted this article that garnered 9000+ hits:
Runner? LONG DISTANCE runner? Better be careful out there!
http://www.sciencedaily.com/releases/2012/06/120604093108.htm
 
then this news this week:
Well-Regarded Endurance Athlete Chad Denning Dies While Running Appalachian Trail | Valley News
 
Association of Functional Movement Screen™ With Injuries in Division I Athletes
 
from a reader:
Hey guys, great site, sometimes a bit more than I know at this point. Just graduated from massage school in april. I have been diagnosed with tendonosis of the Achilles heel. Also finding that my leg doesn’t fully extend while walking, anything I can do besides hamstring and calf stretches. It really happened after a 30 mile hike with a 40 lb backpack, Help 
Thanks, sincerely Hector
Synthetic Workout Gear Smells Worse Than Cotton Gear
 
 Land Softly And Carry Less Injury Risk

http://running.competitor.com/2014/07/injury-prevention/land-softly-and-carry-less-injury-risk_11174

 
 
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Steppage gait ? Or just a runway model ?  Take the thinking farther.
Today we have a short blog post for you. You may take the topic simply on the surface or cogitate over it and find some deeper epiphanies from the well of knowledge we have tried to present here on our blog for the past 4+ years.  
It is clear that in this video that the model has a consciously driven steppage gait. Meaning, she is lifting her limb/foot via exaggerated hip flexion and knee flexion to clear the foot.  This is often seen unilaterally in a foot drop case where the client has a neurologic lesion that for one reason or another has impaired the client’s ability to extend the toes or dorsiflex the ankle sufficiently to clear the foot (so they do not drag toes and trip/fall).  
But, why is she doing this steppage gait ? It is highly unlikely that she has bilateral lesions.  Sure, she was asked to walk this way by her mentor but again, take it further.  Is there a factor making this gait necessary regardless of the coaching ? 
Obviously the answer is yes or we wouldn’t be doing a blog post on this topic.  She is wearing ridiculously high heels. This is forcing her into an extreme plantarflexed foot and ankle posture. IF she were to swing her leg normally during the swing phase she would drive the foot and ankle into dorsiflexion (a normal gait event) and the long pointed heel would be made more prominent as it was driven forward and downward. This would surely catch on the ground, immediately driving the foot into sudden violent forefoot loading and pitch her into a forward fall.  Yes, you have seen this on the run way videos on youtube, and yes we know you laughed too ! You see, when wearing heels this high, one must deploy a certain degree of steppage gait to clear the heel because ankle plantarflexion is fraught with the risk we just discussed above, the heel is too prominent and will catch. How much steppage (knee flexion and hip flexion to clear the foot) is necessary ? Well, to a large degree it depends on how much of a heel is present.  If you are wearing a small heeled shoe, lets say 1 inch, then a small steppage is necessary.
None the less, there is a bigger problem lurking and brewing underneath when heels are a regular occurrence. Slowly and gradually the disuse of the anterior compartment muscles (Extensor dig., Ext. hallucis, peroneus tertius, tibialis anterior) will weaken and the posterior compartment will shorten respectively. IF left too long, it will result in tightness (yes, there is a difference between tightness and shortness, one is a neurlogical protective mechanism, the other is a more permanent change.) We have said this many times here and in our videos, much of posterior compartment problems (ie achilles tendonitis, Sever’s, Hagglunds etc) are related to a degree of anterior compartment weakness, skill deficits or endurance challenges.  Wearing high heels often will often, but not always, increase this risk. 
If you are an athlete, but someone who wears high heels often, you may have to do extra work to keep your anterior compartment competent on several levels.  Eccentric strength is just as important as concentric in this region. Remember, many gait problems come on slowly, a slow simmering smoldering fire. And remember this last point about heeled shoes, your forefoot is always being loaded initially in ankle plantarflexion, this is not normal and in time this will have a cost in many people.  
One last thing. We are not necessarily talking about dress shoes, although they are a greater culprit.  Many running shoes still have accentuated rear foot stack heights where the heel will be many millimeters above the plane of the forefoot.  Do not discount these shoes as a possible contributor of your problem, remember, physiological adaptation takes time to express into a biomechanical symptom creating problem, and it may take quite some time to resolve your compensations and adaptations.
PS: drive that “cross over gait” lady.  Fools.
Shawn and Ivo
the gait guys

Podcast 75: Joint Symmetry, Clinical Pearls & Random Thoughts

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Lots of good random topics on today’s podcast, including possible causes of leg length discrepancies.

*Show sponsor: www.newbalancechicago.com

A. Link to our server: 

http://traffic.libsyn.com/thegaitguys/pod_true76f.mp3

Direct Download: 

http://thegaitguys.libsyn.com/podcast-75-joint-symmetry-cases-stuff

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:


Neurons in human skin perform advanced calculations
http://medicalxpress.com/news/2014-09-neurons-human-skin-advanced.html

RunScribe Is A Wearable For Granular Gait Analysis
Free dialogue on leg length discrepancies.

Evidence for joint moment asymmetry in healthy populations during gait.

Gait Posture. 2014 Jul 1. pii: S0966-6362(14)00610-9. doi: 10.1016/j.gaitpost.2014.06.010. [Epub ahead of print]
The contralateral foot in children with unilateral clubfoot, is the unaffected side normal?

http://www.gaitposture.com/article/S0966-6362(14)00523-2/abstract

Gait guys case on Club foot:

http://thegaitguys.tumblr.com/post/23230149195/we-could-have-easily-made-this-a-blog-post-about

How injury and pain reorganize the brain.

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Gait, Arm Swing and Reorganizing the Brain

When we injure a body part there is a price to pay, how expensive it will be is entirely up to you. Upon injury, the brain takes note and typically dives into a backup plan of neurologic inhibition, neuro-protective tightness and alteration of motor patterns to protect that injured area and allow it to heal. Moderating and altering the forces and demands upon said tissues is the goal to enable healing, if we as humans, don’t get in the way first (“I have to get that run in, I am behind in my training with all these injuries !” or “Ah, its still not that bad, the pain wasn’t worse on Tuesday’s run, I will be ok.”). The bigger question for most folks is, will you listen to what your body is asking of you? Heed the warnings and messages, and your injury will come and go in a timely manner, ignore the messages and welcome to a chronic festering problem.

These protective mechanisms need to be in place, we just have to listen to them.  Failure to heed their warnings to dial things back and rest, recover and heal, the brain will make alternative changes out of necessity.

In the medpage today article in the references below, the authors discuss several important things.

“Getting a cast or splint causes the brain to rapidly shift its resources to make righties function better as lefties, researchers found.
Right-handed individuals whose dominant arm had to be immobilized after an injury showed a drop in (brain) cortical thickness in the area that controls primary motor and sensory areas for the hand, Nicolas Langer, MSc, of the University of Zurich in Switzerland, and colleagues reported.
Over the same two-week period, white and gray matter increased in the areas that controlled the uninjured left hand, suggesting “skill transfer from the right to the left hand,” the group reported in the Jan. 17 issue of Neurology.
The findings highlight the plasticity of the brain in rapidly adapting to changing demands, but also hold implications for clinical practice, they noted.”

This article highlights the rapid changes in motor programs that occur. It does not take long for the body to begin to develop not only functional adaptations but neurologic changes at the brain level within days and certainly less than 2 weeks.

So how long have you been in this pain ? If someone has to ask you this question, the process has already begun.

We tell our patients, if pain does not go away fairly quickly, that we need to get on top of the injury quickly. That is not to say you need to reach for the phone every time you have pain but you need to heighten your awareness of the injury’s status and  you need to make sure you are not driving session after session of training into a festering injury. If you do not let something heal and recover, the brain will find a way around it.  And it will imprint that new motor pattern into hard wiring, and into the hard wiring of other patterns, if you do not heed the warning signs.  This new wiring is a compensation pattern. And the longer it is there the more the neurologic pattern becomes embedded by layerings of myelin coating.  Which means that in the future, if you fatigue or injury another local tissue, this old compensation pattern is waiting in the shadows looking for an opening to rear its ugly head for old times sake.

Furthermore, on the topic of asymmetry, the above concept holds strongly true. In our clinics, we recognize asymmetry as a strong clinical finding. Despite the  Lathrop-Lambach study below, mentioning that they feel a 10% baseline asymmetry is the norm, if you do not rehab and correct both an injury and its new neurologic hardwiring changes, you have enabled and welcomed asymmetry. We feel, as many others do, that asymmetry can be a major component and predictor to injury. Logically, restoring as much symmetry as possible, both biomechanically and neurologically, is restorative and protective.

Don’t be a stoic knucklehead. Get your stuff fixed by someone who knows what they are doing. And remember, watching your gait on a treadmill or through some high tech gait analysis software and making recommendations from that information is just plain idiotic. Go see someone smart who can correlated it to examination findings. 

This article pertains to athletes and non-athletes of all walks of life. From 5 to 105 years of age, we are all susceptible to the brain’s overriding mechanisms. 

Shawn and Ivo

references:

1. Broken arm can reorganize the brain.

http://www.medpagetoday.com/Neurology/GeneralNeurology/30686

Gait Posture. 2014 Jul 1. pii: S0966-6362(14)00610-9. doi: 10.1016/j.gaitpost.2014.06.010. [Epub ahead of print]
Evidence for joint moment asymmetry in  healthy populations during gait.
"We found a high amount of asymmetry between the limbs in healthy populations. More than half of our overall population exceeded 10% asymmetry in peak hip and knee flexion and adduction moments. Group medians exceeded 10% asymmetry for all variables in all populations. This may have important implications on gait evaluations, particularly clinical evaluations or research studies where asymmetry is used as an outcome. Additional research is necessary to determine acceptable levels of joint moment asymmetry during gait and to determine whether asymmetrical joint moments influence the development of symptomatic pathology or success of lower extremity rehabilitation.”

Podcast 74: Cross Fit: More on Squatting and Hip Torsions, Part 2

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Lots of great hip, squatting and biomechanics in this weeks show !

*Show sponsor: www.newbalancechicago.com

A. Link to our server: 

http://traffic.libsyn.com/thegaitguys/pod_75.f_74.mp3

Direct Download: 

http://thegaitguys.libsyn.com/podcast-74

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:

Diving deeper into crossfit’s squatting, lunges, leg press.

 Walking in sync makes enemies seem less scary

 
 

The Next Big Thing In Sports Data: Predicting (And Avoiding) Injuries

http://m.fastcompany.com/3034655/healthware/the-next-big-thing-in-sports-data-predicting-and-avoiding-injuries

“LER editor’s pick: Hip internal and external rotation are associated with shoulder mechanics in collegiate baseball pitchers. http://ow.ly/zULpO

Michael August 27 at 7:49pm I’m curious to hear some thoughts on this, too. I listened to the podcast and read the blog post by the Gait Guys. I’ve coached CrossFit since 2009 and have owned my own affiliate for the last three years and follow Starrett closely. The cue “knees out” originated in powerlifting and the purpose is to keep people from ending up compensating with a valgus knee position during a squat, which is the most common compensation. Also, CrossFit did a special “Offline Episode” with Starrett, Kilgore, Russel Berger (he represented CrossFit) and two other coaches in which the sole topic was the “knees out” cue. It’s very illuminating for this topic. One interesting thing is that CrossFit does not tell people who go through the level 1 to tell others as a law, knees out. It’s merely a cue to fix a common compensation.
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You can only “borrow” so much before you need to “pay it back”

How can feet relate to golf swing?

This 52 year old right handed gentleman presented with pain at the thoracolumbar junction after playing golf. He noticed he had a limited amount of “back swing” and pain at the end of his “follow through”.

Take a look a these pix and think about why.

Hopefully, in addition to he having hairy and scarred legs (he is a contractor by trade), you noted the following

  • Top left: note the normal internal rotation of the right hip; You need 4 degrees to walk normally and most folks have close to 40 degrees. He also has internal tibial torsion.
  • Top right: loss of external rotation of the right hip. Again, you need 4 degrees (from neutral) of external rotation of the hip to supinate and walk normally.
  • Top center:normal internal rotation of the left hip; internal tibial torsion
  • 3rd photo down: limited external rotation of the left hip, especially with respect ti the amount of internal rotation present; this is to a greater degree than the right
  • 4th and 5th photos down: note the amount of tibial varum and tibial torsion. Yes, with this much varum, he has a forefoot varus.

The brain is wired so that it will (generally) not allow you to walk with your toes pointing in (pigeon toed), so you rotate them out to somewhat of a normal progression angle (for more on progression angles, click here). If you have internal tibial torsion, this places the knees outside the saggital plane. (For more on tibial torsion, click here.) If you rotate your extremity outward, and already have a limited amount of range of motion available, you will take up some of that range of motion, making less available for normal physiological function. If the motion cannot occur at the knee or hip, it will usually occur at the next available joint cephalad, in this case the spine.

The lumbar spine has a limited amount of rotation available, ranging from 1.2-1.7 degrees per segment in a normal spine (1). This is generally less in degenerative conditions (2).

Place your feet on the ground with your feet pointing straight ahead. Now simulate a right handed golf swing, bending slightly at the waist and  rotating your body backward to the right. Now slowly swing and follow through from right to left. Note what happens to your hips: as you wind back to the right, the left hip is externally rotating and the right hip is internally rotating. As you follow through to the left, your right, your hip must externally rotate and your left hip must externally rotate. Can you see how his left hip is inhibiting his back swing and his right hip is limiting  his follow through? Can you see that because of his internal tibial torsion, he has already “used up” some of his external rotation range of motion?

If he does not have enough range of motion in the hip, where will it come from?

he will “borrow it” from a joint more north of the hip, in this case, his spine. More motion will occur at the thoracolumbar junction, since most likely (because of degenerative change) the most is available there; but you can only “borrow” so much before you need to “Pay it back”. In this case, he over rotated and injured the joint.

What did we do?

  • we treated the injured joint locally, with manipulation of the pathomechanical segments
  • we reduced inflammation and muscle spasm with acupuncture
  • we gave him some lumbar and throacolumbar stabilization exercises: founders exercise, extension holds, non tripod, cross crawl, pull ups
  • we gave him foot exercises to reduce his forefoot varus: tripod standing, EHB, lift-spread-reach
  • we had him externally rotate both feet (duck) when playing golf

The Gait Guys. Helping you to store up lots “in your bank” of foot and gait literacy, so you can help people when they need to “pay it back”, one case at a time.

(1) http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2223353/

(2) http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3705911/

Podcast 66: Stem Cells, Running Form, Dartfish & Case Studes

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A. Link to our server:

Direct Download: http://traffic.libsyn.com/thegaitguys/pod_66final.mp3

Permalink: http://thegaitguys.libsyn.com/podcast-66-stem-cells-running-form-dartfish-case-studes-0

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:

Duke researchers have found a new type of neuron in the adult brain that is capable of telling stem cells to make more new neurons.

 
2. A closer look at iOS 8′s Health app (video)http://9to5mac.com/2014/06/02/a-closer-look-at-ios-8s-health-app-video/
new HealthKit platform aggregator will allow developers of various health and fitness apps to have all related data populate within the Health app in iOS 8.
 
3. something fun bc it is from the onion……but there is some truth to the placebo right ?
American Medical Association Introduces New Highly Effective Placebo Doctors
American Medical Association announced Thursday the introduction of new placebo doctors to administer general practice medical care to the American public. 
4. a beautiful example from our blog post today June 4th on what you see isnt always the problem
The Right Form For Running - Dartfish
“The video showed that his right foot was … .
 
some random talk we can do on asymetries and symmetry– 
 
6. Case studies on posture, pronation, osteitis pubis and more.
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The 5 Point Turn (in a human).  Do you know this gait problem ?

Here is a video link for the full video case study with diagnosis and more details on this client’s gait but our point here today is to look at the uniquely pathologic turning motor pattern deployed by this patient.

Gait analysis is so much more than watching someone move on a treadmill. Forward momentum at a normal speed can blur out many of a person’s gait pathologies.  We discussed this in detail in this blog post on slowing things down with the “3 second gait challenge”.  Furthermore, most gait analysis assessments do not start seated, then watching the client progress to standing, and then initiating movement.  Watching these intervals can show things that simple “gait analysis” will not.  Finding stability over one’s feet and then initiating forward motion can be a problem for many.  Those first moments after attaining the standing position afford momentum to carry the person sideways just as easily as carrying them forward. In other words, once momentum forward begins, a normal paced gait can make it difficult to see frontal plane deficits.  Our point here, transitional movements can show clues to gait problems and turning to change direction is no different.

Typically when we turn we use a classic “plant and pivot” strategy.  We step forward on a foot (right foot for example here), transfer a majority load on that forward right foot, we then pivot the left foot in the next anticipated direction of movement, and then push off the right foot directionally while spinning our body mass onto that left foot before initiating the right limb swing through to continue in the new direction.  This is not what this patient does. Go ahead, stand up and feel these transitions, if you are healthy and normal they are subconscious weight bearing transitions but for some one who is old and losing strength and proprioception/balance or some one with neurologic decline for one reason or another, these directional changes can be extremely difficult as you see in this video here. A full 180 degree progression is often the most difficult when things get really bad.  And more so, if one leg is more compromised than the other, turning one way a quarter turn (a 90 degree directional change) might be met with an alternative 270 degree multiple-point turn in the opposite direction over the more trusted limb to get to the same directional change. When there is posterior column disease or damage this seemingly simple “plant/weight shift/ pivot and push off” cannot be trusted. So a 5 point (or more) turn is deployed to be sure that small choppy steps maximize minimal loss of feel and maximal ground contact feel. This can be seen clearly in this video above.

Full video case link here:https://www.youtube.com/watch?v=AYmzQL_NSeI

Just some more things to think about in  your gait education.  Watch your clients move from sit to stand, from stand to initiating gait, and then watch closely their turning strategies. At the very least, have them make several passes making their about-face turns both to the right and the left. You will often see a difference.  Watch for unsteadiness, arm swing changes, cross over steps, reaching for stability (walls, furniture etc), moving of the arms into abduction for a ballast effect and the like. Then correlate your examination findings to your gait analysis.  Then, intervene with treatment and rehab, and review their gait again. Remember, explaining their deficiencies is a huge part of the learning process. Make them aware of their 5 point turns, troubles pivoting to the right or the left, and make them understand why they are doing the goofy one-sided rehab exercises. Understanding what is wrong is a huge part of fixing your client’s problems.

* Remember: if your client is having troubles on a stable surface (ie. the ground) then they should engage some rehab challenges on the ground. Giving them a tilt board or bosu or foam pad (ie. making the ground more unstable) will make things near impossible.  This is not a logical progression, we like to say, “if you can’t juggle one chainsaw we won’t give you 3”. Improve their function on a stable surface first, then once improvements are seen, then progress them to unstable surfaces.  

Shawn and Ivo

The gait guys.  

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What’s up, Doc? Nothing like a little Monday morning brain stretching and a little Pedograph action. This person had 2nd metatarsal head pain on the left. Can you figure out why? Let’s start at the rear foot: limited calcaneal eversion (…

What’s up, Doc?

Nothing like a little Monday morning brain stretching and a little Pedograph action.

This person had 2nd metatarsal head pain on the left. Can you figure out why?

Let’s start at the rear foot:

  • limited calcaneal eversion (pronation) L > R. The teardrop shape is more rounded on the left. This indicates some rigidity here.
  • note the increased pressure at the  medial calcaneal facets on each side with the increased printing
  • very little fat pad displacement overall

Now let’s look at the mid foot:

  • decreased mid foot pronation on the L. See how thin the line is going from the rear foot to the forefoot along the lateral column? This indicates a high lateral longitudinal arch

Now how about the fore foot?

  • increased printing under the met heads bilaterally; L >> R
  • increased printing of 1st met head L >> R
  • increased printing at medial proximal phalynx of hallux  L >> R
  • increased printing of distal phalanges of all toes L >> R

 Figure it out?

What would cause increased supination on the L?

  • short leg on L
  • more rigid foot on L
  • increased pronation on the R

Did you notice the elongated 2nd metatarsals (ie: Morton’s toe) on each foot?

Here is what is going on:

  • there is no appreciable leg length deformity, functional or anatomical
  • The Left foot is more rigid than the Right, thus less rear, mid and fore foot pronation, thus it is in relative supination compared to the right foot

do this: stand and make your L foot more rigid than the right; take a step forward with your right foot, what do you notice?

  • Can you feel how when your foot is supinated
  • can you see how difficult it is to have ankle rocker at this point? remember: supination is plantar flexion, inversion and adduction
  • Can you feel the weight of the body shift to the outside of the foot and your toes curl to make the foot more stable, so you do not tip to the left?
  • now, how are you going to get your center of mass forward from here? You need to press off from your big toe (hallux)

Wow, does that make sense now?

What’s the fix?

  • create a more supple foot with manipulation, massage, muscle work
  • increase ankle rocker by training the anterior compartment (shuffle walks, lift/spread/reach exercise, heel walking, Texas walk exercise, etc)
  • have them walk with their toes slightly elevated
  • we are sure you can think of more ways as well!

The Gait Guys. Increasing your gait literacy with each and every post. If you liked this post, tell others and spread the word. If you didn’t like this post, tell us! We value your constructive feedback.

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The turned out foot. How far ahead (and how fast) can you think ?  There are many causes of the turned out foot. The above slide is just one of many logical and possible chain of events.   There are also reasons above the neck that cannot be ignored…

The turned out foot. How far ahead (and how fast) can you think ? 

There are many causes of the turned out foot. The above slide is just one of many logical and possible chain of events.  

There are also reasons above the neck that cannot be ignored in creating the externally rotated foot (and in resolving it). Things are not always biomechanical in origin so remember this when you are continually doing activation and rehab interventions to get more glute or drive more internal limb spin and your results are met with a non-response.  

Most of us like a biomechanical line of thinking when it comes to apparent biomechanical aberrancies from the norm.  However, more often than you probably think (go back and listen to podcast 58 on Cortical Brain Mapping of injuries), several more purely neurologic reasons are plausible.  For example, changes in input/output in unilateral activity within the pontomedullary reticular formation (PMRF) of the brain can lead to inhibition of the posterior chain muscles below the T6 spinal level (And anterior muscles above T6. And what is awesome is that there are ways to test this kinda stuff on a physical exam !  However, this blog post is not the place to teach these neurologic examination procedures.  But, if this sounds like Janda’s Upper and Lower Crossed Syndromes you are thinking soundly. Just remember though, if you are fixing what you see, you may not be fixing the problem, fix the cause that drove what you are seeing.  If you know your functional neurology you will know where these things come from, they are a cortical phenomenon).  

Of the posterior compartment muscles below T6, the gluteus maximus is probably the largest of this group and when it is inhibited there is loss of control of its ability to stabilize single leg stance.  One strategy around a stability challenge would be to turn the foot/leg into the frontal plane (toe out) via external limb rotation.  Now we can use the remaining muscles in both the sagittal and frontal planes ! We are always more stable when we can engage two or more cardinal planes at the same time.

There are  many more reasons for the externally rotated limb/foot, for example vestibular dysfunction, cerebellar dysfunction, core dysfunction, impaired normal arm swing and the list goes on. We have talked about many of these reasons on many of our blog posts and podcasts.

Mental gymnastics when it comes to the brain are important, Keep your gait and human movement game sharp, work through scenarios in your head regularly because it is what is necessary when you are working up a client.  

Shawn and Ivo

the gait guys

Podcast 56: Crawling, Neurodevel. & Foot Strike

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A. Link to our server:

Direct Download: 

http://traffic.libsyn.com/thegaitguys/pod_57_final.mp3

Permalink: http://thegaitguys.libsyn.com/podcast-56-crawling-neurodevel-foot-strike

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”

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* Today’s show notes:

Neuroscience

Human quadrupedalism is not an epiphenomenon caused by neurodevelopmental malformation and ataxia.  

“ a re-emergence of the ancestral diagonal QL, and (3) it may spontaneously emerge in humans with entirely normal brains, by taking advantage of neural networks such as central pattern generators that have been preserved for about 400 million years.”

References:

Front Neurol. 2012 Oct 25;3:154. doi: 10.3389/fneur.2012.00154. eCollection 2012. Karaca S1, Tan MTan U. Human quadrupedalism is not an epiphenomenon caused by neurodevelopmental malformation and ataxia.
2)  selectively removing torsions ? bunions ?  
FDA Panel Mulls Technique That Creates Babies Using DNA of 3 People
http://foxnewsinsider.com/2014/02/25/fda-panel-mulls-technique-creates-babies-using-dna-3-people
3) A Crazy Oculus Rift Hack Lets Men and Women Swap Bodies

http://www.wired.com/design/2014/02/crazy-oculus-rift-experiment-lets-men-women-swap-bodies/

“Minimum effective dose: Why less is more” - via Farnam Street blog. True for manual therapy, for sure. Lighten up, hack nervous system instead of trying to force structure to comply.http://www.farnamstreetblog.com/2014/02/the-minimum-effective-dose-why-less-is-more/
6) Unpowered Treadmills
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A theory for bipedal gait ? Ipsilateral interference between the foot and hand in quadrupedal gait.

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Human quadrupedalism is not an epiphenomenon caused by neurodevelopmental malformation and ataxia: Uner Tan Syndrome, Part 3

* Alert: Before you read this blog post you will do yourself a great degree of mental service by reading our 2 prior blog posts on this video.  There is an important learning progression here. Here are the links:

http://thegaitguys.tumblr.com/post/28332726553/the-hand-walkers-the-family-that-walks-on-all

http://thegaitguys.tumblr.com/post/78470419988/the-hand-walkers-part-2-uner-tan-syndrome-the

Note that in this video there is ipsilateral interference between the foot and hand in this quadrupedal gait. In this diagonal quadrupedal locomotion (QL) the forward moving lower limb is impaired from further forward progression by the posting up (contact) hand of the same side. This would not occur if the QL gait was non-diagonal (ie. unilateral), the forward progression of the lower limb would be met with same time forward progression of the upper limb, allowing a larger striding out of both limbs.  This would enable faster locomotion without increasing cadence (which would be the only way of speeding up in the diagonal QL), at the possible limitation of necessitating greater unilateral truncal postural control (which is a typical problem in some of these Uner Tan Syndrome individuals who typically have profound truncal ataxia).  

As the video progresses one can see that bipedal locomotion IS IN FACT POSSIBLE in Uner Tan syndrome individuals. 

This is the excerpt from the embedded video:

“Two adult siblings from a consanguineous famiy in Kars, Turkey, exhibited Uner Tan syndrome with severe mental retardation, and no speech, but with some developmental differences.. 
There was no homozygocity in the genetic analysis, but the extremely low socio-economic status suggested epigenetic changes occurred during pre- and post-natal
development. 
Quadrupedal locomotion in cases with Uner Tan syndrome exhibit interference between the ipsilateral extremities, and this also occurred in all tetrapods with diagonal sequence QL since this form of locomotion appeared around 400 MYA. 
The ipsilateral limb interference might have been the triggering factor for bipedal locomotion in our ancestors, and walking upright would enhance their chances of survival, because of the benefits in the visual and manual domains. The ipsilateral interference theory is a novel theory for the evolution of bipedalism in human beings, and was first proposed by Uner Tan in 2014.”

As Karaca, Tan & Tan (1) discussed in their article:

“In discussions of the origins of the habitual QL observed in Uner Tan syndrome, it was argued that this quadrupedalism might be an epiphenomenon caused by neurodevelopmental malformation and severe truncal ataxia (Herz et al., 2008). The present work will show that this argument may be untenable, presenting two individuals with QL who do not exhibit ataxia, and who have entirely normal brain images and cognitive functions.”

As we mentioned in our last blog post,

“Tan and Ozcelik mentioned in their recent research, in UTS the obligate diagonal QL was associated with some genetic mutations and cerebellovermial hypoplasia, and was seen as an adaptive self-organizing response to limited balance. On the other  hand, the present work showed that human QL may spontaneously occur in humans with an unimpaired brain, probably using the ancestral locomotor networks for the diagonal sequence preserved for about the last 400 million years. (Shapiro and Raichien, 2005; Reilly et al., 2006)." (1)

Kind of brings some new "slap in the face” thoughts to the rehab “bird dog” exercise doesn’t it !  Driving a 400 million year old quadruped motor pattern (ya, ya, we know it is a early-window primitive cross crawl infant neurodevelopmental pattern, we have been to Pavel Kolar seminars. Don’t try to argue, just think past all this. Go get a beer or walk in the park and cogitate on this a bit, it is important.)

If you want to dive deeper into this kind of work,  you may want to go and look at some of our recent work on Arm Swing here. But don’t forget to watch this video above again and pay close attention to what we mentioned here.

We received this video on Monday (March 3, 2014) directly from Dr. Uner Tan himself in Turkey. We are very grateful for all that he has been sharing with us behind the scenes and we are grateful for his research and for this budding relationship.  Thank you Dr. Tan !  

Dr. Shawn Allen, one of The Gait Guys

Reference: 

1. http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3480821/

Podcast 55: Cold Joints, Gluten Brain & Toilets

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-The Neurophysiology of your Joint Pain and Problems

A. Link to our server:

Direct Download: http://traffic.libsyn.com/thegaitguys/pod_55final.mp3

Permalink: http://thegaitguys.libsyn.com/podcast-55-cold-joints-gluten-brain-toilets

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:

3 neuroscience pieces this week:
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‘Gluten Brain’: Wheat Cuts Off Blood Flow To Frontal Cortex 

http://www.greenmedinfo.com/blog/research-wheat-cuts-blood-flow-brains-frontal-cortex

Influence of midsole hardness of standard cushioned shoes on running-related injury risk

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blishahead/Running_Shoes_Increase_Achilles_Tendon_Load_in.98153.aspx
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Case From a blog reader
Hello, 
I’m a swedish elite cross-country skier and newly graduated physio and I find your podcasts very interesting and informative! I have a question about something I’ve never heard you talk about, and which has been a problem for me for the last year.
It’s about the IP-joint of the big toe. I’ve had discomfort/pain in the joint for the last year, mostly after my workouts. It’s a bit swollen and there is crepitus to some degree(especially when I manually flex the toe while compressing it and at the same time have a pressure downwards/ventrally of the distal phalanx. I think it may be coming from a trauma I had 4-5 years ago when I stubbed my big toe really hard in a rock in an orienteering competition, which caused me to rest from running for a week or two.
So, my question to you is if you have any suggestion for me or others in my situation? Treatment? Which types of shoes to use? How would a future joint-fusion affect my running?
I’m only 23 years old and I’m really worried that this ache/discomfort will just get worse and worse.. I’ve asked a lot of great physios here in Sweden, but most of them don’t know much about what to do.
I’d be really grateful if you could take the time to give this a thought and share it.
Thanks!
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Another reader case:
 

Good morning. I am a former collegiate runner, I competed at Eastern Michigan University and Grand Valley State University, my father is a Chiropractor in northern Michigan. While in school I was recalled to active duty in the reserves after 9/11 and was unable to finish my eligibility. I am now 32, living in North Carolina, and trying to make a comeback to running and competing in Triathlons. At 6’2” and 170lbs. during college  I was competitive at the collegiate level  but always a step behind the true elites in the distance races in college, probably just because of my size, etc. competing against guys carrying 30 less lbs.

I train with a team called Without Limits  (iamwithoutlimits.com ) in Wilmington NC. My coach had mentioned that I had a really long loping stride which felt normal to me, but I cannot remember if I ran this way in college or not. When I finally counted, I had a cadence of 140 steps per minute rather then the optimal 180…

Long story short, I got really out of shape, now getting into pretty good form again, but I am having problems with the IT band and pain in the knee on the right leg. I never ever had this in college training at very high levels (90-100 mile weeks in the off and early parts of each season) …so now I have the bike component that I am working on, but being a larger distance runner I am trying to fine tune my gait/stride and see if I can improve my running that way and also figure out what is going on with this IT band issue as I am only running 30-40 miles/week now but on the bike and in the pool a lot. I am back down to 175 and pretty lean but carrying a little extra muscle from biking and swimming.

Would you be interested, if I could send you several high quality videos from different angles, in taking a look at my gait (or even riding the bike on the trainer) and see if you notice anything ? I have been working on improving my cadence since the IT band issues began, and found your videos online while doing research.  I understand this would be better done on a treadmill or in the parking lot at your office where you could watch up close, but if you are interested, please let me know. I look forward to hearing from you.

 Sincerely,

 Tim

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The sedentary life affects your neurons !

http://www.outsideonline.com/news-from-the-field/Sitting-Still-Is-Bad-For-Your-Neurons.html

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A 3rd case this week, on Dystonia

Do you guys have any recommendations for analysis and treatment of acquired focal and gait dystonia?
It started as a splinting mechanism with a very loose right si and some L5 radiculopathy over 5 years ago.  The dystonia would come and go then eventually stuck all the time.
All the dystonia is on the right side and I don’t have any systemic neurological disease.
Forward walking, stair climbing, running (although barefoot running in grass and in particular undulating surfaces is ok in small amounts, asphalt or treadmill
brings on dystonia within seconds) are all a problem. Can cycle, run in water for 40 minutes or so no problem, so I think Si may still be hypermobile.  Walking backwards no problem.
Dystonia presents as stiff right leg with knee hyperextension, right eccentric weak, right glute medius weak, sticky posterior weight shift, but full and
painless movement through complete range of hip and knee.  I do have some focal dystonia as well mostly knee extension with hip flexion and foot supination and eversion with hip and knee flexed.

There must be someone who deals with this somewhat locally to me, Virginia Beach, VA.  Hoping you all may have some contacts on the east coast.
Thanks,
Sally

Get This: A Smart Toilet That Aims to Correct Poor Posture, and Even Detect Pregnancy and Disease | Entrepreneur.com
http://www.entrepreneur.com/article/231344
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Orthotics and Foot beds, What’s the Difference? Welcome to rewind Friday Folks. Here is an oldie but a goodie, with lots of great information. Rememeber; if you use or prescribe orthotics, hopefully you are using exercises as well and hopefully, th…

Orthotics and Foot beds, What’s the Difference?

Welcome to rewind Friday Folks. Here is an oldie but a goodie, with lots of great information. Rememeber; if you use or prescribe orthotics, hopefully you are using exercises as well and hopefully, the prescription is changing over time and you are removing correction from the device!

Orthotics and footbeds, they’re the same thing, right? This is a question that is often posed to us.  No, they’re not the same, but oftentimes one or the other can be appropriate. To explain the difference, we need to understand a little bit about foot mechanics.

The foot is a biomechanical marvel.  It is composed of 26 bones and 31 articulations or joints.  The bones and joints work together in concert to propel us through the earth’s gravitational field.  It is a dynamic structure that is constantly moving and changing with its environment, whether it is in or out of footwear.  Problems with the bones or joints of the foot, or the forces that pass through them, can interfere with this symbiosis and create problems which we call diagnoses.  They can range from bunions, plantar fasciitis, shin splints, TFL syndrome, abnormal patellar tracking, and lower back pain just to name a few.

Before we go any further, we should talk a little bit about gait (ie walking pattern). Normal walking can be divided into 2 phases, stance and swing. Stance is the time that your foot is in contact with the ground. This is when problems usually occur. Swing is the time the opposite, non weight bearing foot is in the air.

 

The bones of the foot go through a series of movements while we are in stance phase called pronation and supination. Pronation is when your arch collapses slightly, to make your foot more flexible and able to absorb irregularities in the ground; this is supposed to happen right after your heel hits the ground. As your foot pronates, the leg rotates inward, which causes your knee to rotate in, which causes your thigh to rotate in, which causes you spine to flex forward. Supination is when your foot reforms the arch and makes your foot a rigid lever, to help you propel yourself; This is supposed to happen when you are pushing off with your toes to move forward. It is at this time that the entire process reverses itself, and your leg, knee, and thigh rotate outward and your spine extends backward. When these movements don’t occur, or more often, occur too much, is when problems arise. This can be due to many reasons, such as lack of movement between your foot bones (subluxation), muscle tightness, injury, inflammation, and so on.

Many people over pronate, due to incompetence of the intrinsic musculature of the lower kinetic chain, genetics, environmental factors or injuries. This means that their arch stays collapsed too long while in stance phase, and they remain pronated while trying to push off. As we discussed, during pronation the foot is a poor lever. This means you need to overwork to propel yourself forward. This can create arch pain, inflammation on the bottom of the foot (plantar fascitis), abnormal pressure on your foot bones (metatarsalgia), knee pain, hip pain and back pain.

Lets look at skiing. Skiing is a stance phase sport. While skiing, your foot stays relatively immobile in a ski or snowboard boot (i.e. it is not moving through a gait cycle). A footbed is designed to create a level surface for your feet and keep them in a neutral posture. It accomplishes this by “bringing the ground up to your foot.” They are generally custom designed to an individuals foot through many different methods. They work incredibly well (as long as the foot remains in a static posture) and many people extol the benefits and improvements in their respective sports when using these.

Orthotics are always custom made devices. They actually improve the mechanics of your foot (or give you mechanics you didn’t have before) and make it function more efficiently by altering the shape and function of the arch as the foot moves through various activities. They act like a footbed but have the added benefit of functioning while dynamic (i.e. moving) as well. This works as well or better than a footbed, and is usable in other sporting activities, such as Nordic skiing, snow shoeing, hiking, running, or biking. Many people use their orthotic in their everyday shoes, to help prevent some of the problems and symptoms they are experiencing. It should be emphasized that an orthotic IS NOT a substitution for competent musculature. We view them as an aid to assist the rehabilitation process; slowly pulling out correction as the biomechanical competence improves.  We like to call this “Orthotic Therapy”.

In summary, a footbed supports the foot in a neutral posture. It is great for activities where your foot is static or held in one position. An orthotic supports the foot in a neutral posture and improves the mechanical function of the foot. It can be used in static or dynamic activities. Remember to always consult with a professional who is well versed with the mechanics of the feet, ankles, knees, hips and back, since footbeds and orthotics have a profound effect on all these structures.

Orthotics and footbeds; they can be great assistive devices along the road to foot competence. And they can be great doorstops when you are done using them!

We are and remain..The Gait Guys.

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tumblr_my9vb37Ozy1qhko2so1_1280.jpg
tumblr_my9vb37Ozy1qhko2so2_1280.jpg
tumblr_my9vb37Ozy1qhko2so3_540.png

And what have we here?

The above is a pedograph, a simple, effective pressure map of the foot as someone is walking across an inked grid. For more info on pedographs, click here.

Did you note the increased ink present under the great toe bilaterally? What could be causing this? If you look carefully, you will note that it is at the base of the proximal phalynx of the great toe. This could be none other than the tendon of the flexor hallucis brevis!

This bad boy arises from the medial part of the under surface of the cuoid and the adjacent 3rd cunieform, with a small slip from the tendon of the tibialis posterior. As it travels forward it splits into two parts, which are inserted into the medial and lateral sides of the base of the proximal phalanyx of the great toe. There is a sesamoid bone present in each tendon, which offers the FHB a mechanical advantage when flexing the toe.  The medial portion is blends with the abductor hallucis and the lateral portion blends with the adductor hallucis.

Had the increased printing on the pedograph been more distal, it most likely would have been due to increased action of the flexor hallucis longus.   Had it been more proximal (under the head of the 1st metatarsal) it would have been due to the peroneus longus.

Cool, eh?

Reading pedographs and making you a sharper clinician/coach/trainer/sales person is just one of the many skills we try to teach here on the blog. Keep up the great work!

The Gait Guys

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Take this simple test.  Want to be faster? Better incorporate some proprioceptive training into your plan. It is the 1st part of our mantra: Skill, Endurance, and Strength (in that order). Proprioceptive training appears to be more important that st…

Take this simple test. 

Want to be faster? Better incorporate some proprioceptive training into your plan. It is the 1st part of our mantra: Skill, Endurance, and Strength (in that order). Proprioceptive training appears to be more important that strength or endurance training from an injury rehabilitation perspective as well part of an injury prevention program

 What is proprioception? It is body position awareness; ie: knowing what your limbs are doing without having to look at them.

Take this simple test:

  • Stand in a doorway with your shoes off. Keep your arms up at your sides so that you can brace yourself in case you start to fall. Lift your toes slightly so that only your foot tripod remains on the ground (ie the base of the big toe, the base of the little toe and the center of the heel.). Are you able to balance without difficulty? Good, all 3 systems (vision, vestibular and proprioceptive) are go.
  • Now close your eyes, taking away vision from the 3 systems that keep us upright in the gravitational plane. Are you able to balance for 30 seconds? If so, your vestibular and proprioceptive systems are intact.
  • Now open your eyes and look up at the ceiling. Provided you can balance without falling, now close your eyes. Extending your neck 60 degrees just took out the lateral semicircular canals of the vestibular system (see here for more info). Are you still able to balance for 30 seconds? If so, congrats; your proprioceptive system (the receptors in the joints, ligaments and muscles) is working great. If not, looks like you have some work to do. You can begin with exercises we use every day by clicking here.

Proprioception should be the 1st part of any training and/or rehabilitation program. If you don’t have a good framework to hang the rest of your training on, then you are asking for trouble. 

The Gait Guys. Your proprioceptive mentors. We want you to succeed!

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Do you do manual muscle testing? Following up on yesterdays post… We all like to evaluate our patients; hopefully on the table as well as observation while weight bearing. Here is some food for thought. When your patient or client is lying …

Do you do manual muscle testing?


Following up on yesterdays post…
We all like to evaluate our patients; hopefully on the table as well as observation while weight bearing. Here is some food for thought.

When your patient or client is lying on the table, do you pay attention to where there head is in space (ie the position of their head)? Why should you care?

Remember our post on facilitation (if not, click here)? That has something to do with it.

Here is the short story. Make sure the head is neutral and midline (lined up between the shoulders), there is good preservation of the cervical curve , with a small pillow supporting the neck, but not altering it’s angle.
The long story involves the vestibular system. It is a part of the nervous system that lives between your ears (literally) and monitors position and velocity of movement of the head. There are three hula hoop type structures called “semicircular canals” (see picture above) that monitor rotational and tilt position and angular acceleration, as well as two other structures, the utricle and saccule, which monitor tilt and linear acceleration. I think you can see where this is going….

The vestibular apparatus (the canals and the utricle and saccule) feed into a part of the brain called the floccular nodular lobe of the cerebellum, which as we are sure you can imagine, have something to do with balance and coordination. This area of the cerebellum feeds back to the vestibular system (actually the vestibular nucleii); which then feed back up to the brain as well as (you guessed it) down the spinal cord and to predominantly the extensor muscles.

So, what do you think happens if we facilitate (or defaciltate) a neuronal pool? We alter outcomes and don’t see a clear picture.

Look at the picture above. Notice the lateral semicicular canals are 30 degrees to the horizontal? If you are lying flat, they are now at 60 degrees. If the head is resting on a pillow and flexed forward 30 degrees, the canals are vertical and rendered inoperable. This could be good (or bad) depending on what muscle groups you are testing.

OK. HEAVY CONCEPT APPROACHING

So if we defacilitate the extensors, what happens to the flexors? Remember reciprocal inhibition (If not click here)? According to the law of reciprocal innervation, the flexors will be MORE FACILITATED. If the extensors are faciltated, they will appear MORE ACTIVE and the flexors LESS ACTIVE.

Wow. All this from head position…The key herer is to know what you are doing, This gait stuff can get pretty complex; but don’t worry. We aren’t going anywhere and are here to teach you.

The Gait Guys . Gait Geeks are the new cool….

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 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.

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“… 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