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Video: Wow he just lifted,  232 kg, that is 511 pounds !

What is one of our favorite areas to preach about ?  Yes, Ankle dorsiflexion range, or as we often term it, ankle rocker.  There are plenty of activities where we need that critical >90degrees (great than) in order to complete the movement at the appropriate joints.  Depending on the source you reference and the case by case evaluation, typically 110+ degrees are needed at the ankle hinge mortise (tibiotalar joint) in order to keep the motion from being forced elsewhere.  No sport seems to have it as an absolute critical range more than the Clean and Jerk Olympic lift. You can see in this video above, and particularly in this awesome slo-mo video here  that we need that magical range in order to do the lift properly.

What will happen if you try to do it with this critical ankle hinge range ? Well, the foot arch can collapse (pronate) to gain more tibial progression and get that tibia to move forward but this will mean that your tibia will be internally spinning which will drag the knee medially and this will create some serious knee loads and patellar tracking issues, to say the very least. Additionally, this spin can risk the anterior hip joint with issues which we will discuss another time.

The body has some pretty strict parameters when it comes to safe loading responses. And if those parameters are not met, then an alternate pattern must be employed if the motion or load must continue. And alternative loads usually lead to pain or injury.  

Make sure you have enough ankle range, amongst some other critical parameters, if you are going to lift, especially if you are going to lift  heavy.  Can you imagine the impacting load on the foot and the ankle if this fella had stiff ankles with less than 110 degrees ankle dorsiflexion ?  And remember, merely turning out your feet further doesn’t get you around the problem necessarily. It may help a little, but remember, if you are going to turn your feet out (increase your foot progression angle) the knee tracking has to follow that foot angle, and if it does not, then tibiofemoral torsion will increase and meniscal maceration is a foregone guarantee !

Ankle rocker, it is important stuff.  Especially when you are going this big ! But, even if you are doing more remedial squats or Turkish Getups or whatnot.

Shawn and Ivo, The Gait Guys

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Can you see the problem in this runner’s gait ?

You should be able see that they are heel impacting heavy on the outside of the rear foot, and that they are doing so far laterally, more than what is considered normal.  
This is a video of someone with a rear foot varus deformity.
These folks typically have a high arched foot, typically more rigid than flexible, and they are often paired with a forefoot valgus.  
Q: Do you think it might be important as a shoe fitter to know this foot type ?
A: Yes
Q.Should they be put in a shoe with a soft lateral crash zone at the heel ? 
A: No, absolutely not. Why would you want to keep this person deeper and more entrenched on the lateral heel/foot ?!
This foot type has a difficult time progressing off of the lateral foot. The lateral strike pattern and the tendency for the varus rear-foot (inverted)  keeps this person on the lateral aspect of the foot long into midstance.  This eats up time when they should be gradually progressing over to the medial forefoot so that they can get to an effective and efficient medial (big toe) toe off.  This gait type is typically apropulsive, they are not big speed demons and short bursts of acceleration are difficult for these folks much of the time. Combine this person with some torsional issues in  the tibia or femur and you have problems to deal with, including probably challenges for the glutes and patellar tracking dysfunction. What to see some hard, tight IT Bands ?These folks are often the poster child for it. Good luck foam rolling with these clients, they will hate you for recommending it !
They are typically poor pronators so they do not accommodate to uneven terrain well.  Because they are more on the outside of the foot, they may have a greater incidence or risk for inversion sprains. You may choose to add the exercise we presented on Monday (link  here) to help them as best as possible train some improved strength, awareness and motor patterns into their system. In some cases, but only when appropriate, a rear foot post can be used to help them progress more efficiently and safely. 
These foot types typically have dysfunction of the peronei (amongst other things). A weak peroneus longus can lead to a more dorsiflexed first metatarsal compromising the medial foot tripod stability and efficiency during propulsion while also risking compromise to the first metatarsaophalangeal (1st MTP) joint and thus hallux complications.  Additionally, a weak peroneus brevis can enable the rear foot to remain more varus. This muscle helps to invert the rearfoot and subtalar joints. This weakness can play out at terminal swing because the rear foot will not be brought into a more neutral posture prior to the moment of heel/foot strike (it will be left more varus) and then it can also impair mid-to-late midstance when it fires to help evert the lateral column of the foot helping to force the foot roll through to the big toe propulsive phase of terminal stance.  (* children who have these peroneal issues left unaddressed into skeletal maturity are more likely to have these rearfoot varus problems develop into anatomic fixed issues…… form follows function.)
You can see in the video the failed attempt to become propulsive. The client speeds over to the medial foot/big toe at the very last minute but it is largely too late. Sudden and all out pronation at the last minute is also fraught with biomechanical complications.
One must know their foot types. If you do not know what it is you are seeing, AND know how to confirm it on examination you will not get your client in the right shoe or give them the right homework.
* caveat: the mention of Monday’s exercise for this foot type for everyone with Rearfoot varus is not a treatment recommendation for everyone with the foot type. For some people this is the WRONG exercise or it might need modifications. Every case is different. The biomechanics all the way up need to be considered. Medicine is not a compartmentalized art or science. 
Shawn and Ivo, The Gait Guys

 

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Trade Secret: Proper Calf Raise

We are selling off part of the farm here today in giving this one away.  This is an exercise we prescribe frequently.

When we rise up onto the ball of the foot, most clients and patients tend to come up and either be flush on the forefoot bipod or even a little more onto the lateral aspect of the forefoot. When asked, rarely do we hear that they have a majority of pressure over the medial half of the forefoot. This posturing tendency can lead to inversion sprains. Imagine for a minute a basketball or volleyball player, or any sport for that matter, because most involve the foot leaving the ground and returning to it.  When the foot returns to the ground, if the foot is even a slightly bit inverted (meaning they are even slightly tending towards landing on the outer half of the forefoot) an inversion sprain is at risk. This is particularly so when the lateral gastroc-soleus is weak and the peronei are weak. Forefoot valgus foot types are certainly in the risk category here and so once again we find that knowing your foot types so you can help your clients is need-to-know information.  Back to our jump and to the return to the ground from the jump, you must remember that the metatarsals are shorter and shorter as you move to the lateral foot. This means that if the load is moving laterally because of posterio-lateral compartment weakness as described above, that the sheer design of the shorter lateral metatarsals will continue to press the motion laterally. This is one of the reasons why lateral ankle strains, inversion sprains, are so frequent and repetitive (we have described the other factor in the latency of the peronei after a single inversion sprain in other blog posts here). 

So here we have our calf raise exercise. Squeezing the ball between the ankles on the up (concentric phase) and on the down phase (eccentric) with a nice isometric at the top will force the weight bearing onto the first and second metatarsals (medial forefoot) and drive the lateral compartment to press the motion medially through an isometric instead of depending so much on this compartment to protect the inversion motion through and eccentric.  We find this motor pattern terribly weak in our athletes, especially our jumping sports and certainly after inversion sprains. IF we can provide more strength to hold this medial posture during the return to the ground from a jump we can slow or delay the lateral inversion event risk.  The key to the exercise is to keep the pressure into the ball medially at all times. A wonderful additional benefit to this exercise is that the user will feel the cocontraction of the thigh adductors which further provides a medial stability effort and blends nicely with the lower abdominals.

You can see that in this case we are rehabilitating an achilles tendon repair case on the left leg.

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Footprints in the sand. What do they tell us?

They say that sometimes the silences speak volumes. Take a look at these prints and see if you see the following:

  • more pressure on the forefoot, right greater than left
  • more pressure on the lateral aspects of the forefeet
  • an increased progression angle on the right, compared to the left
  • judging from the step length, this person either has really long legs or was running
  • the heel seems to hit the ground slightly more on the right
  • judging from the sole pattern, they are most likely wearing an Inov8 shoe

Or, we can comment on what WAS NOT seen:

  • less pressure on the rearfoot, indicating a forefoot strike, or extremely tight posterior compartments
  • less pressure on the medial aspects of the forefeet, indicating inefficient push off, since they are not able to get their weight to the medial tripod
  • an more normal progression angle on the left, possibly indicating better mechanics there
  • this person IS NOT a heel striker, but seems to have a greater range of dorsiflexion available to them on the right, most likely with more ankle rocker
  • judging from the sole pattern, they are most likely wearing an Inov8 shoe

Just like in the movie “Swordfish”, John Traviolta’s character comments that “It’s all about perception”.

So, what can we surmise from our deductions?

  • less pressure on the rearfoot, indicating a forefoot strike, or extremely tight posterior compartments

this individual may have a loss of ankle rocker

  • less pressure on the medial aspects of the forefeet, indicating inefficient push off, since they are not able to get their weight to the medial tripod

we are probably looking for someone who has a fore foot varus deformity. This is often accompanied by increased tibial varum

  • n more normal progression angle on the left, possibly indicating better mechanics there

the difference in progression angle may indicate this person has a torsional deformity and/or limited internal rotation of the hips

  • this person IS NOT a heel striker, but seems to have a greater range of dorsiflexion available to them on the right, most likely with more ankle rocker

again, look for someone who has impaired ankle rocker, or limited (at least assymetrical) ankle dorsiflexion

Yes, even when we are on vacation, we are looking at gait, because it is everywhere and affects all forms of human life and behavior.

The Gait Guys. Walking in the sand. Looking for the subtle clues. Teaching you in each and every post

If you create it, they may not come....

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Range of motion that is…..

We can’t tell you how many times we see an aberrant movement pattern or lack of a range of motion during gait (such as ankle rocker or hip extension), only to test them on the table later to find that they have that range of motion available to them, but for some reason they choose to NOT use it.

 Yes, range of motion IS very important; but if you have the range and don’t use it; it most certainly will be taken away from you and the resources used elsewhere. You need to know what you are doing and how to do it. Then be able to do it over time, time and time again and finally, able to do it with a load (your body weight +).

 Just because you increase someone’s range of motion, does not mean they will be able to incorporate that range of motion into a movement pattern, or compensation pattern for that matter. It is only ¼ of the equation: Range of Motion,  Skill (or proprioception),  endurance (or the proportion of slow twitch muscle) and strength (the proportion of fast twitch muscle). 

 Here is an article that supports this notion, by one of our favorite authors; Dr Stu McGill.

The Gait Guys. Taking you to where the rubber meets the road (because some of you are gluten intolerant and therefore separating the wheat from the chaff is not an option). 


Improvements in Hip Flexibility Do Not Transfer to Mobility in Functional Movement Patterns

Moreside, Janice M.1; McGill, Stuart M.2

Abstract: Moreside, JM and McGill, SM. Improvements in hip flexibility do not transfer to mobility in functional movement patterns. J Strength Cond Res 27(10): 2635–2643, 2013—The purpose of this study was to analyze the transference of increased passive hip range of motion (ROM) and core endurance to functional movement. Twenty-four healthy young men with limited hip mobility were randomly assigned to 4 intervention groups: group 1, stretching; group 2, stretching plus hip/spine disassociation exercises; group 3, core endurance; and group 4, control. Previous work has documented the large increase in passive ROM and core endurance that was attained over the 6-week interventions, but whether these changes transferred to functional activities was unclear. Four dynamic activities were analyzed before and after the 6-week interventions: active standing hip extension, lunge, a standing twist/reach maneuver, and exercising on an elliptical trainer. A Vicon motion capture system collected body segment kinematics, with hip and lumbar spine angles subsequently calculated in Visual 3D. Repeated measures analyses of variance determined group effects on various hip and spine angles, with paired t-tests on specific pre/post pairs. Despite the large increases in passive hip ROM, there was no evidence of increased hip ROM used during functional movement testing. Similarly, the only significant change in lumbar motion was a reduction in lumbar rotation during the active hip extension maneuver (p < 0.05). These results indicate that changes in passive ROM or core endurance do not automatically transfer to changes in functional movement patterns. This implies that training and rehabilitation programs may benefit from an additional focus on grooving new motor patterns if newfound movement range is to be used.

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It’s that time of the year again….beach cam

 

With Dr Ivo’s yearly trip to the beach, we have some interesting footage. Today’s winner was this gentleman. We apologize for the shakiness of the camera, as he free handed it for this shot.

Note the following:

  • the lack of glute action and the  loss of ankle rocker; his hips NEVER extend past zero. In this case, if they did, he would probably fall forward., due to his abdominal weakness
  • To go along with this, we have some premature heel rise, to help him to move forward. As soon as his body mass passes over the foot, the heel comes up.

 

  • Note the forward posture of the head, to attempt to move his center of gravity forward

  • Note how his arm swing is only forward. Normally, we like to se the arms move posterior to the body

 

  • He does appear to use his abs to initiate flexion of the thigh. See how he picks up his leg and extends the knee suddenly? This is given away by the acceleration of the leg as he “kicks” it forward.

As you can see, no one is safe from the gait cam. We are everywhere and the army of gait geeks is growing.  Do yourself a favor. Train yourself and others to have ankle rocker, use their glutes to extend their thigh and initiate hip flexion with their abs, rather than the psoas and rectus femoris.

 

This message is brought to you as a public service by The Gait Guys. Friends don’t let friends have bad biomechanics…

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Approaching joint assessment from the perspective of “cylinders”.

Our approach to every joint assessment has long been to visualize and assess the joint(s) as a cylinder since the body parts are cylindrical in form. This has been our approach, and they way we teach, for many years. At each number on the clock (cylinder) there is a theoretical muscle that provides stability to the joint in that vector during loading. The most accurate assessment would be one that investigates the ability of each muscle around the clock (cylinder) to see if it has sufficient S.E.S. (Skill, Endurance, Strength) as well as how well that muscle(s) participates with the synergists, antagonists and agonists (ie. motor patterns for stability and mobility).  We do this at each joint along the kinetic chain when assessing someone with a clinical or functional problem.  

When dealing with a frontal plane drift, as in the 3rd photo above where you see the person’s (black shorts) pelvis drift laterally outside the perpendicular foot line, one could naturally assume that the gluteus medius is weak (9 o'clock) but the wise clinician would also look at the other side of that cylinder to see if the adductors were involved (3 o'clock) since that is 180 degrees through the joint axis.  (Note: Runners are sagittal athletes so frontal plane weaknesses are often seen. This is not desirable however, this is a perfect example why runners should cross train more into lateral and angular sports to ensure that the sagittal plane does not dominate.) Obviously the foot and the knee also need a similar cylindrical assessment approach. We have spoken loudly many times  here and on our podcasts over the years that quite often there are multiple flaws in a presentation, typically a focal cause and one if not several compensations as a functional adaptation strategy around that central flaw. In this runner’s case there could be medial knee weakness or foot weaknesses that are affording too much medial drift and spin of the limb resulting in the lateral pelvic drift compensation.  But, just because the gluteus medius shows up weak does not mean that it is the focal point of clinical intervention. If one facilitates the gluteus medius and does not address the causative lower cylinder issues then they are quite possibly empowering the compensation and enabling the aberrant activity to continue. Knowingly or unknowingly layering armor or inappropriate strength to a pathologic compensation pattern at a focal joint level that is not the focal cause should be a clinical crime, but it is done every day by people who do not know better even though their efforts are well intended.

Ok, we got on a bit of a soap box rant there, sorry. Back to the case at hand.  

Your assessment should not stop at the frontal plane in this case. If there is an imbalance in the sagittal plane in this sagittal athlete this can be a causative problem as well, which is why the cylinder approach should not stop at the frontal plane or when you find that first major weakness. In frontal pelvic drift cases, there is quite often an anterior pelvic tilt where the lower abdominals can be weak, the low back is slightly extended and the paraspinals are more active. This is the classic “impaired hip extension pattern” and sets up a Janda/Lewitt style “Layered Syndrome”. Most of the time, resolving this sagittal flaw will show immediate improvement of the frontal plane deficits.  But, do not think it is as simple as re-facilitating these 2 patterns. Remember, neuromotor reprogramming and patterning takes 8-12 weeks by some sources. And remember, the initial strength gains in the first few weeks are from neuroadaptation (ie, skill gains in coordination), these gains are not the true physiological endurance and strength gains that we desire for an athlete.  Those gains take time but they are the ones that we need for sport performance and joint power.

And then there is the rotational or axial component, which we did not even begin to discuss here. We have briefly talked about the frontal and sagittal cylinder aspects, and yes, we have just skimmed the surface as there are multiple patterns and issues which we have had to leave out here so that this doesn’t turn into a full fledged chapter for our next book. This stuff gets complicated and can leave you running in mental circles at times.  But these concepts will help you better understand why you often see neuro-protective tightness 180 degrees on the other side of the cylinder from tightness, and when you address the weakness the other side of the cylinder some of that neuro-protective tone is eased.  But again, it is not nearly this simple because you must remember that if your assessment is static or on a table then your findings will be functionally imprecise.  And, not stopping there, there are multiple joints below the joint you are focusing on, and multiple joint complexes above as well. Plus, there are 3 other limbs that can play into the function and dysfunction of a given limb and its joints. There are breathing patterns, postural patterns and many other issues. This is not an easy game to play, let alone play it well or wisely for your athlete.

In today’s photos we wanted to show you 3 runners. One a distance runner with good joint stacking and one sprinter with amazing joint stacking.  And then the runner in the black shorts, who cannot stack the foot, knee or hips even remotely well.  This runner in the back shorts will have the cross over gait and likely have the medial ankle scuff marks to prove it. But remember, there is one component that we often talk about, one we did not discuss here … . . are there also torsional issues in this runner ? Do they have femoral or tibial torsion(s) ? What is their foot type ? Are they in the right shoe for their foot type ? Are some of these components playing into their visibly flawed mechanics ? 

Below is an article we have put up here on the blog previously.  It is a study where the investigators examined hip abductor strength (watch this video here ) in distance runners with iliotibial band syndrome comparing injured limb strength to the unaffected limb to determine whether correction of the strength deficits in the HAM’s (hip abductor muscles) correlates with successful outcomes.  The study showed the obvious, that runners with ITBS have weaker HAM strength compared to the asymptomatic leg.  

But here is our question, did they just strengthen the compensation for an apparently successful outcome, or did they address the problem ? Only time will tell if you actually fixed something or merely enabled the dysfunctional motor pattern by layering it with more armor for the next battle. If it is fixed the problem and all of its associated problems should go away. But if the runner comes back weeks later with knee complaints, foot pain, back pain or the like … . . then the message should be loud and clear.

Shawn and Ivo, The Gait Guys……today with soap on the bottom of our feet.

References:

Clin J Sport Med. 2000 Jul;10(3):169-75. Hip abductor weakness in distance runners with iliotibial band syndrome. Fredericson MCookingham CLChaudhari AMDowdell BCOestreicher N,Sahrmann SADepartment of Functional Restoration, Stanford University, California 94305-5105, USA.

Podcast 39: Ankle mobilizations, Plyos & Bunions

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Risks and Understanding Band assisted Ankle mobilizations, bunion correction, Plyo jumps on inclines and more !

A. Link to our server:

http://thegaitguys.libsyn.com/podcast-39-ankle-mobilizations-plyos-bunions

B. iTunes link:

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

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

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

D. other web based Gait Guys lectures:

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

* Today’s show notes:

Neuroscience:
1.Emma Adam, a Northwestern professor and an expert on sleep in adolescents and young adults, said , “Sleep has effects on cognition, your attention, your memory, your mood, your metabolism, your appetite — it affects so many different things.”
 
2.  Eye tracking technology:
3. From Mashable: 3 Days With a Posture-Correcting Wearable Gadget
4. Band assisted ankle mobilizations. Do you know what you are doing ?
5.  Why we prefer a low ramp delta shoe, when tolerable
6. From a Blog reader:
I have a patient who is suffering MS… . 
DISCLAIMER !
7.  Bunions
 I am a fitness instructor, and teach mostly barefoot classes…Pilates, yoga, willPower & grace. One of my students came to me originally because she has had bunion surgery, and wanted to regain alignment and strength in her feet. She is doing well with her big toe, but due to compensations made for the bunion, she has this pronounced  protrusion of the lateral edge of the foot by her 5th toe and metatarsal.  It looks larger in person than it does in the photo and is painful for her.  What is the cause and are there specific exercises for her?
Thanks for any insight,
Suzy 
Bloomington, IN
8. From Men’s health magazine: Doing plyo jumps on an incline !?
9. From the field doc: Dr. Rothbart himself !
Dear Dr Allen and Dr Waerlop, … . 
I thought you might be interested in my definition of normal vs abnormal pronation (and supination):
10. National Shoe Fit program: 
_____________
11. 
J Manipulative Physiol Ther. 2013 Jul-Aug;36(6):359-63. doi: 10.1016/j.jmpt.2013.06.002. Epub 2013 Jul 3.

Effect of customized foot orthotics in addition to usual care for the management of chronic low back pain following work-related low back injury.

The findings showed that patients in this study with chronic, nonspecific low back pain following work-related low back injury had greater improvement in short-term outcomes with orthotics and UC than with UC alone.
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The Case of the Non Rotating Knee

Here is a runner, wanting to be an ultra runner, who recently developed right sided knee pain while running a 50K. He was pacing another individual and developed pain on the outside (lateral patella and knee) on the right, ascending and especially descending hills. The pain is dull and achy. He is able to “push through” the pain, but if he does, it remains painful for a few days.

He has an anatomically short leg on the L (tibial). There is no significant tibial torsion (he has normal external version) and not femoral torsion. There are adequate amounts of internal (>15 degrees) and external (>30 degrees) rotation of the hips.

He has 7 degrees ankle dorsiflexion on the right, 10 degrees on the left. On the table (and in the video) he has 0 degrees of hip extension during passive motion, walking and running. He has weakness of the long extensors of the toes, as well as the abductors.

Take a look at his video. Note the following:

·       the right knee has less medial excursion than the left (watch the dots)

·       rearfoot valgus is noted on the L  (ie. calcaneus is everted)

·       subtle lean to Left on L sided stance phase

·       when barefoot, the problem lessens

Why does the right knee rotate less than the left?

When folks have a short leg, we generally expect that leg to remain in supination (thus external rotation) more and the longer leg to internally rotate more, due to excessive pronation. But here, we see the opposite. You will notice he has a rearfoot valgus on the left. This means the midtarsal joint is in a greater amount of pronation on the shorter side. For every action, there is an equal and opposite reaction. In this case, less pronation (or supination) on the longer leg side. Remember, we said generally folks pronate more on the long leg side. This is one of the exceptions.

So, should he throw away his shoes?

The shoes, which have a certain amount of torsional rigidity, are compounding the problem. The Brooks Cascadia is an excellent trail running shoe, he just needs something with less torsional rigidity. the shoe does  not allow his knee to come midline sufficiently. Since he is a Brooks Fan, we suggested the “Grit” in the Pure line. 4mm drop and less rigid torsionally. He could also work his way into a “Drift” (4mm or zero drop, extremely flexible).

Why does he lean to the left on stance phase on the left?

Most likely, to clear the right long leg on swing phase. This is one of the 5 common strategies. For more strategies, click here.

Why is it better when he is barefoot? It must mean he should be a barefoot runner, right?

He is better, because there is less impediment to the foot pronating (ie. the shoe has less torsional rigidity)

The Gait Guys. Making you a better diagnostician, with each and every post.

Lebron James and his funky toes. We have the scoop as to what is going on.

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http://bleacherreport.com/articles/1757693-everybody-look-at-lebron-james-toesimage

This is what happens when you get too much short extensor tone and/or strength in the digits of the foot.  Now this is his trailing foot and he has moved into toe off so he should be activating his toe extensors and the tibialis anterior (ie. the anterior compartment) to create clearance for that foot so that he doesn’t catch the toes on the swing through phase of gait.  In this case we do not see alot of ankle dorsiflexion (which we should see at this point) so we are  seeing a compensation of perhaps increased short extensor (of the toes) activity.  

We also see what appears to be a drifting of the big toe (the hallux) underneath the 2nd toe. This often happens when a bunion or hallux valgus is present.  Now we do not see a bunion present here but the viewing angle is not optimal however it does appear that there is a slight drift of the hallux big toe towards the lesser toes . We are not sure if we would qualify this as hallux valgus, and if so it is mild, but none the less we see a slight lateral drift. What is interesting is that despite the obvious activity of the lesser toes short extensor muscle (EDB) we do not see a simultaneous activity of the short extensor of the hallux (EHB, extensor hallucis brevis). Does he need to do our exercise ? See video link here ! 

And so, when the lesser toes are in extension as we see here and the big toe is not moving into extension, and when that is simultaneously combined with even a little hallux valgus tendency, the big toe will drift underneath the lesser toes as we see here, even appearing to push the 2nd toe further into extension.  

As for his little toe, well, Dr. Allen  has one just like it so perhaps he missed his calling in the NBA. Some folks just do not have as plantarward orientation of the 5th toe and so it migrates upward (dorsally) a little. This can be from birth but it can also come from trauma. But in time because the toe is not more plantar oriented, the dorsal muscles (the extensors) become more dominant and the toe just starts to take on this kind of appearance and orientation. It will reduce significantly when the foot is on the ground and the extensors are turned off, but it looks more shocking during the swing phase because of the extensor dominance in that phase.

This kind of presentation if left unchecked can lead to hammer toes, plantar fat pad migration distally exposing the metatarsal heads to more plantar forces without protection and a host of other problems.  Lebron needs to do our Shuffle Walk Exercise to get more ankle rocker (dorsiflexion) and also work to increase his long toe extensors (EDL) and lumbricals.  This will flatten his toes and improve mechanical leverage.  Remember, if you gait better foot function with increased ankle dorsiflexion you will get more hip extension and more glute function.  But does the big fella really need to jump any higher? We are sure he would accept being faster though … .  who wouldn’t ?

Fee for today’s long distance consult: …  Lebron, lets say 10,000$ and we will call it even.  Sound good ?  But a lifetime of prettier, stronger and more functional toes……priceless. Have  your people contact our people.  (Ok, we don’t have people, but we do have an email address here on our blog !).

Shawn and Ivo, The Gait Guys.  Even helping the elite, little by little.

Podcast 38: Usain Bolt, Arm Swing, Ballasts, & Running "Stuff"

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Our show notes should interest you today. We have another great podcast ready for you !

Link to our server:

 http://thegaitguys.libsyn.com/podcast-38-usain-bolt-arm-swing-ballasts-running-stuff

iTunes link:

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

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

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

other web based Gait Guys lectures:

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

Today’s show notes:

2. Running and walking gadget:
Mashable (@mashable)
9/10/13 4:53 AM
This Clip-On Device Lets You Read Your Tablet While You Runon.mash.to/1akqMaK
4. Arm Swing:
- The Ballast Theory 
5. Off the web: Children’s Shoes
6. Off the MEdical Journal:
7.  Clinical Case Questions from a Reader:
Hello there, I’ve been following your stuff for a while now after searching far and wide for solutions to issues I have with my feet/ankles … . .
Chris 
8. Topic: Bartold on heelstrike
9. From the Medical Journal:
Neuroscientist. 2004 Aug;10(4):347-61.
Regulation of arm and leg movement during human locomotion.

Zehr EPDuysens J.

Rehabilitation Neuroscience Laboratory, University of Victoria, BC, Canada. pzehr@uvic.ca

Abstract: Walking can be a very automated process, and it is likely that central pattern generators (CPGs) play a role in the coordination of the limbs. Recent evidence suggests that both the arms and legs are regulated by CPGs and that sensory feedback also regulates the CPG activity and assists in mediating interlimb coordination. Although the strength of coupling between the legs is stronger than that between the arms, arm and leg movements are similarly regulated by CPG activity and sensory feedback (e.g., reflex control) during locomotion

10. Off pubmed: 
J Am Podiatr Med Assoc. 2012 Sep-Oct;102(5):390-5.

Anatomical origin of forefoot varus malalignment.

Lufler RSHoagland TMNiu JGross KD.
Forefoot varus malalignment is clinically defined as a nonweightbearing inversion of the metatarsal heads relative to a vertical bisection of the calcaneus in subtalar joint neutral. Although often targeted for treatment with foot orthoses, the etiology of forefoot varus malalignment has been debated and may involve an unalterable bony torsion of the talus. There was no association between forefoot alignment and talar torsion (r = 0.18; 95% confidence interval, -0.11 to 0.44; P = .22).These findings may have implications for the treatment of forefoot varus since they suggest that the source of forefoot varus malalignment may be found in an alterable soft-tissue deformity rather than in an unalterable bony torsion of the talus.

What Does Changing your Stride Cost You?

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http://running.competitor.com/2013/09/training/study-changing-running-stride-does-more-harm-than-good_41136

A recent study cited in Competitor Magazine, talked about common stride “improvements” actually may reduce running economy. They looked at stride rate (cadence) and vertical displacement. One would think, with all the hoopla out there, that more steps per minute and less vertical displacement would be more efficient. The actual study concluded “Alterations led to an increase in metabolic cost in most cases, measured as VO2 uptake per minute and kg body mass,” Another study which had similar results can be found here.

Even though the study had a small sample size (16 participants), If you think about this, it makes sense.   Volitional effort usually has a metabolic cost. It does not make it right or wrong; they are just the facts. The nervous system will take time to integrate new (motor) patterns. Each person has a optimal (homestatic) stride “style” which includes vertical displacement as well as stride length, among other factors (lateral sway, ankle dorsi pantar flexion, knee flexion, thigh flexion, etc).

The study itself also concluded ““Mid- and long-term effects of altering … technique should also be studied.” we concur, we have not seen any long term studies that look at economy over time, but would love to read them if any of our readers run across them.

The Gait Guys.  Bringing you the facts without the bling.

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 &ldquo;&hellip; within months, hundreds of the young male inmates of the camp began limping, and had begun to use sticks as crutches to propel themselves about. In some cases inmates had been rapidly reduced to crawling on their backsides to make …

 “… within months, hundreds of the young male inmates of the camp began limping, and had begun to use sticks as crutches to propel themselves about. In some cases inmates had been rapidly reduced to crawling on their backsides to make their ways through the compound …. Once the inmates had ingested enough of the culprit plant, it was as if a silent fire had been lit within their bodies. There was no turning back from this fire—once kindled, it would burn until the person … would ultimately be crippled …. The more they’d eaten, the worse the consequences—but in any case, once the effects had begun, there was simply no way to reverse them …. ” -insights from Dr. Arthur Kessler, prisoner and doctor within the concentration camp

What would you do if you were trapped out in the wilderness and your glutes and legs stopped working ? This is just what happened to Christopher McCandless (aka, Alexander Supertramp) in the wilderness outside Fairbanks Alaska.

Neurolathyrism is a toxic myelopathy caused from ingestion of Lathyrus sativus grass pea. It causes paralysis, lack of strength or inability to move the lower limbs and may involve the pyramidal tracts of the spine/CNS producing UMN signs (upper motor neuron signs).  A unique symptoms of lathyrism is apparently the atrophy of the gluteal muscles. 

 

Dear Gait Guys, why are you telling us obscure things about a toxic neuropathy ?

 

Ok, let us back up. But for you to understand we first need to tell you about a 1940’s Holocaust concentration camp in the Ukraine.

Vapniarka is a presently a small town of ~8600 in Vinnytsia, Obllast, Ukraine.  It was during the months of October 1941 through March of 1944 it became the site for the German occupied Holocaust concentration camp imprisoning Romanian Jews.  As most concentration camps go, food, water, sanitation and disease outbreaks were common problems and concerns. Food was so limited that the prisoners were at one point fed barley bread that had 20% straw mix within and a species of pea known as Lathyrus sativus typically used to feed livestock.  It was only a short time later that strange symptoms began to break out amongst the prisoners. At first they became weak but it wasn’t long before they had difficulties ambulating and then became paralyzed with what was diagnosed as Neurolathyrism also known more simply as Lathyrism, a form of spastic paralysis. The culprit was oxalyldiaminopropionic acid (ODAP) from the peas. Some sources say that by 1943 hundreds of prisoners were struck down with Lathyrism and apparently 117 Jews were left permanently paralyzed.

We believe we first read about this in early 2013 in an online news article by Ronald Hamilton in a paper entitled “The Silent Fire: ODAP and the Death of Christopher McCandless”. McCandless has been made famous for his story and death deep in the Alaska wilderness in the Jon Krakauer book “Into the Wild”. We were excited to see this paper quoted in Jon Krakauer’s The New Yorker article this month. In his paper Hamilton wrote, 

 "… within months, hundreds of the young male inmates of the camp began limping, and had begun to use sticks as crutches to propel themselves about. In some cases inmates had been rapidly reduced to crawling on their backsides to make their ways through the compound …. Once the inmates had ingested enough of the culprit plant, it was as if a silent fire had been lit within their bodies. There was no turning back from this fire—once kindled, it would burn until the person who had eaten the grasspea would ultimately be crippled …. The more they’d eaten, the worse the consequences—but in any case, once the effects had begun, there was simply no way to reverse them …. “
In Krakauer’s recent The New Yorker article "How Chris McCandless Died”, he gives an explanatory full-circle synopsis regarding the gripping conclusion in his book “Into the Wild”.  In the article he speaks about Hamilton’s paper, McCandless’s fate and also mentions that in the 20th century more than a hundred thousand other people worldwide have been permanently paralyzed from eating grass pea containing the neurotoxin ODAP. According to Hamilton, the neurotoxin over-stimulates the nerve receptors causing them to burn out. As he explained in his “The Silent Fire” paper,
“It isn’t clear why, but the most vulnerable neurons to this catastrophic breakdown are the ones that regulate leg movement…. And when sufficient neurons die, paralysis sets in…. [The condition] never gets better; it always gets worse. The signals get weaker and weaker until they simply cease altogether. The victim experiences “much trouble just to stand up.” Many become rapidly too weak to walk. The only thing left for them to do at that point is to crawl….”
You can read the Krakauer / Hamilton account and recent story in the article link found below. In it they both tell the most recent events in the laboratory testing of the seeds that McCandless ate in bulk during his last months/weeks.  The tested seeds were found to be in high enough concentration to cause the symptoms (of Lathyrism) McCandless wrote about in his last weeks of survival when he was more susceptible to the neurotoxin having already been in severe malnutrition and hunger.

We dove a little deeper into this toxic myelopathy and discovered some helpful journal articles. According to Misra et al.  "patients complained of walking difficulty due to weakness and leg stiffness. The gait abnormalities ranged from spastic gait, toe walking and the need of assisted gait devises such as canes. They spoke of the weakness being mild to moderate and less prominent than was spasticity. In 8 of their subjects the physical signs were asymmetrical. Peripheral neuropathy was present in only one patient, but muscle atrophy and widespread fasciculation's were not found. A higher frequency of peripheral neuropathy and lower motor neuron involvement has been reported from Bangladesh and Israel. Severe spasticity in the absence of prominent weakness in lathyrism may be due to the involvement of certain specific groups of corticospinal fibres.“

We are big fans of Krakauer’s writing (and now Hamilton’s paper "The Silent Fire”) and this was a good story to close the Alexander Supertramp chapter hopefully once and for all. “Into the Wild” by Krakauer was a riveting book, one of our favorites.  Sean Penn’s cinematic interpretation of the story was good as well.  But for two gait geeks like us, to finally find out that poor Chris died of something so rare and complex, something that could be traced back as far as the holocaust concentration camps where people’s gait was first seen impaired was pretty fascinating. We are sure there billions of folks who have never looked at our blog and who will never likely read it.  Gait and gait related disorders and diseases do not get many people excited, but for us, this might as well be pornography. We are sure there are millions that are not fascinated by the fact that every organism on this planet locomotes in one manner or another, each with their own characteristic rules and biomechanics. It is sad to us that few really pay attention to how humans locomote and ambulate, at least not until they break a leg, sprain an ankle or come down with some complex motorneuron lesion. Gait is everywhere once you start looking for it. Whether you start to become aware of it at the local shopping mall, in TV commercials, during Sunday night football, during the Olympics, at your grandmama’s house, during your son or daughters walk to the dinner table , or even in the movies… . . gait is everywhere. Sean Penn’s interpretation of Krakauer’s “Into the Wild” is a touching sweeping movie and for us to now find out that the thing that ultimately led to McCandless’s demise was a gait related neurotoxic myelopathic disorder just goes to prove our point, gait is everywhere.  Why more people do not see this is beyond us, but hey, it would be a strange world if everyone was as nerdy as the two of us wouldn’t it !? 
Shawn and Ivo, The Gait Guys.  
 
References:
 
1. Paraplegia. 1993 Apr;31(4):249-54.

Clinical aspects of neurolathyrism in Unnao, India.

2. J Neurol. 2012 Jul;259(7):1263-8. doi: 10.1007/s00415-011-6306-4. Epub 2011 Nov 12.

Neurolathyrism: two Ethiopian case reports and review of the literature.

3. Neurobehav Toxicol Teratol. 1983 Nov-Dec;5(6):625-9.

Lathyrism: a neurotoxic disease.

Podcast 37: Anandamide & Body Work, 3D Printed Shoes and Case Studies

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Our show notes should interest you today. We have another great podcast ready for you today !

Link to our server:

http://thegaitguys.libsyn.com/podcast-37-anandamide-body-work-3d-printed-shoes-and-case-studies

iTunes link:

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

Gait Guys online /download store:

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

other web based Gait Guys lectures:

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

Today’s show notes:

Neuroscience piece:

McPartland et al (2005) measured Anandamide (AEA) levels pre- and post, Myofascial Release, Muscle Energy Technique, High velocity manipulation all of which load fascia patients experienced analgesic/euphoric cannabimimetic effects, which correlated with an increase in serum AEA levels (more than double pre-treatment evels). 
Neither cannabimimetic effects, nor changes in AEA levels, occurred in control subjects.

McPartland, J et al 2005.. Jnl. American Osteopathic Association 105, 283–291 
http://leonchaitow.com/2008/01/30/bodywork-high
2. Vibrating shoes could be the future of navigation and wearable tech
http://www.wired.co.uk/magazine/archive/2013/09/start/vibrating-shoes-the-new-navigation-tool
3. Tim Ferriss (@tferriss)
9/2/13 9:25 PM
Malcolm Gladwell: “Man and Superman” The New Yorker buff.ly/174jruO Drugs, genetics, and the fallacy of a level playing field.
 
4.FB reader sent us a message:

Hi Guys: Not quite sure how I came across your podcasts but really enjoying them, even if I’m only slowly starting to understanding them. I was catching up on some old ones during my marathon training and the ones on evolution reminded me of some of my musing on the arch in the foot (well I guess correctly that should be the medial longitudinal arch). I though you might be able to give me the answers or point me in the right direction

Are we only species with this?
What is the advantage?
When and how does it develop and why isn’t it formed in utero?
Are flat feet then a genetic or developmental issue and why?
Thanks 
Alex
5. off the web:
The imprecise art of foot orthoses
6. off the web:
3D-Printed Shoes Mean You’ll Never Need to Buy Another Pair
http://mashable.com/2013/08/20/3d-printed-shoes/
7. Another TUMBLR reader asks question about:
Hi Gait Guys,

I am currently a third year podiatry student needing some biomechanics and orthotic-making training. I enjoy your youtube videos but was wondering if you offer or could recommend a dvd that I could purchase to further my education. The way the information is presented it in class is not as good as the way you do it! I am also interested in the biomechanics of shoes… I am having trouble finding information about how walking in a cushioned/plantarflexed sneaker effects function (Does is help us get to forefoot running or hinder us?). I enjoyed your blog on different curved lasts as well. How would I be able to apply the way the shoe is lasted to a patient? For example, if the patient is rigid and I want them to be wearing a shoe that is lasted like a slipper how do I guide them into buying a shoe constructed as such? Do I just tell them to go for a shoe made with a straight toe box? Is there such a thing as a toe box curved laterally? 

One last question- do you recommend a medial FF post for a patient that has a mobile RF varus that causes a FF supinatus? I was told a post like this would limit PF of the first ray and DF of the hallux which would limit toe off and cause other problems. 
Thank you. I appreciate any advice you may have. I am out of my element with biomechanics and really want to improve at it.

8.Another off tumblr: 
sign-life-away asked you:
Is forefoot walking bad for you? Everyone says I walk awkwardly, as if i have something up my bum. I have been trying to walk “naturally” (heel-toe) but I go back to forefoot strike. Does this contribute to why my legs have always been muscular?
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tumblr_ms9szmkxQr1qhko2so1_1280.jpg
tumblr_ms9szmkxQr1qhko2so2_1280.jpg
tumblr_ms9szmkxQr1qhko2so3_1280.jpg
tumblr_ms9szmkxQr1qhko2so4_1280.jpg

Forefoot Valgus or Plantarflexed 1st ray?

Hmmm. That IS the question, isn’t it?

We remember that Forefoot valgus is a condition where the forefoot is everted with respect to the rearfoot.
With a plantar flexed 1st ray, the forefoot is actually in varus (ie inverted) and the the 1st ray is dropped (thus, plantar flexed).

If you look at the picture, you will see the entire forefoot is everted, thus we are  looking at a true forefoot valgus. The question here, is “does the 1st ray move into dorsiflexion”? This would be the difference between a flexible (plastic or rigid deformity and is a function of the rigidity of the subtalar and midtarsal joints as well as the flexibility of the 1st ray.
The literature states that forefoot valgus is the most commonly seen frontal plane deformity of the foot (McPoil 1988, Burns, 1977). We have not found this in clinical practice, but rather forefoot varus. This may be due to most folks seeing us have an issue, and more issues seem to be caused by rigid varus deformities, since they cause the knee to collapse inward.
It’s origin can be multifactorial, ranging from a congenital malformation of the calcaneocuboid joint (more on that joint here) with the absence of a calcanean process, which allows a greater degree of eversion (Bojsen-Moller 1979); over rotation of the talar neck (Sglaraato 1971), or association with a pes cavus foot in compensation to an inverted rearfoot and inflexibilty of the subtalar joint (Lutter 1981). Neuromuscular diseases are believed to cause as many as 95% of these deformities (Dwyer 1975).
The question is, what do we do with it?
  • we insure that the foots mechanics are the best they can be through manipulation and mobilization
  • make sure the joints proximal and distal to the foot are functioning properly
  • muscle test and strengthen weak muscles (think about the poor peroneals in these folks!)
  • make sure they are NOT in a motion control shoe; more flexible is better
  • Make sure their shoe has adequate room in the toe box
  • sometimes, we post the insole of the shoe (or orthotic) in valgus, especially with rigid deformities

A little lost? Take our National Shoe Fit Program, available for instant download 24/7/365 by clicking here.

The Gait Guys. Often a valgus slant on a varus reality. Still bald. Still good looking. Improving your gait competency with each post.

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This is a follow up to our last post on forefoot varus, available here.

Remember, ou are looking at a person with an uncompensated, rigid fore foot varus. This individual is not able to get the head of the 1st ray to the ground at all, and he has a Morton’s foot to boot (no pun intended). 
So, what do we see?

  • 1st of all, you will note his 2nd metatarsal is longer than his 1st. When he goes up on his toes, you see his foot invert and will see curling of the toes 3-5 in an attempt to stabilize the foot. 
  • You will also see his foot looks pretty flat. He has an arch (you can see it as he goes up onto his toes) and the “flatness” is actually due to the fore foot varus.
  • You will see a bunion forming bilaterally, due again to the uncompensated fore foot varus, and his inability to anchor the head of the 1st metatarsal. 
  • The posterior view shows relatively vertical calcaneii (no no rearfoot valgus), but you can really see the effects of the fore foot varus, with medial fall of the midfoot.
  • note the prominent “pump bumps” on the lateral calcaneus biaterally, from chronic rubbing on the shoes. 
The Gait Guys. Getting you closer to being a foot nerd with each post.
 
Lost? Having trouble with all these terms and nomenclature? Take our national shoe fit program, available by clicking here.

The Gait Guys. Uber foot geeks. Still bald and good looking. Separating the wheat from the chaff, with each and every post.

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What ?! Arm Swing in Runner and Athletes: Part 18 ?!  Yes, Part 18.

Ok, this should tide you over until Monday, at least ! 

Below we have furnished the 18 links to “arm swing” involved blog posts we have done over the last 1-2 years.  If you think you know about arm swing in gait and running and sports you might want to dive a little deeper. We have done much work on this topic and yet we still see trainers and coaches correcting peoples arm swing and carriage issues like it is a local problem that needs fixed at the arm level.  

We showed a video of a parkour runner today for a reason. Got back and watch it again but focus only on arm swing. Go. Now ! Focus !

Arm swing in gait and running. Why it is crucial, and why it must be symmetrical.

We have written many articles on arm swing and its vital importance in gait and running. Have you missed all these articles ?  If so, below you will find 18 links of our writings on the matter.  We are still not done writing about this most commonly forgotten and overlooked aspect of gait and running analysis, and we probably never will be done.  Why is no one else focusing on it ?  We think it is because they do not see or understand its critical importance. It is very often not a local problem requiring a local solution.

Without the presence and use of the arms in motion things like acceleration, deceleration, directional change, balance and many other critical components of body motion are not possible.

What is perhaps equally important for you to realize, as put forth in:

Huang et al in the Eur Spine Journal, 2011 Mar 20(3) “Gait Adaptations in low back pain patients with lumbar disc herniation: trunk coordination and arm swing.”

is that as spine pain presents, the shoulder and pelvic girdle “anti-phase” (meaning they are not phasic, they oscillate in opposite rotation) begins to move into a more “in-phase” favor.  Meaning that the differential between the upper torso twist and pelvic twist is reduced. As spine pain presents, the free flowing pendulum motions of the upper and lower limbs becomes reduced to dampen the torsional “wringing” on the spine. When this anti-phase is reduced then arm swing should be reduced. The central neural processing mechanisms do this to reduce spinal twisting, because with reduced twist means reduced spinal motor unit compression and thus hopefully less pain at the motor unit whether it be at the endplate or at the posterior elements. (Yes, for you uber biomechanics geeks out there, reduced spine compression means increased shear forces which are favorite topics of many of our prior University instructors, like Dr. Stuart McGill, yes we were long ago (late 1980’s) sitting in on his fascinating courses at the University of Waterloo before his international fame which he so greatly deserves. We can only hope he reads this kind of work of ours with pride so he can know he passed a small torch beyond his immediate reach.). The consequence to this reduced spinal rotation is reduced limb swing.  And according to

Collins et al Proc Biol Sci, 2009, Oct 22 “Dynamic arm swinging in human walking.”

“normal arm swinging requires minimal shoulder torque, while volitionally holding the arms still requires 12 % more metabolic energy.  Among measures of gait mechanics, vertical ground reactive moments are most affected by arm swinging and increased by 63% without arm swing.”

So, it is all about efficiency and protection. Efficiency comes with fluid unrestricted, yet stable, movements and energy conservation but protection has the cost of wasting energy and reduced mobility through limb(s) and spine.

In past articles we have carried these thoughts into historical functional needs of man such as carrying spears and of modern day man in carrying briefcases.   Yesterday we even showed a video of a great SilverBack gorilla ambulating bipedally with a log in one hand showing the change in arm swing. Today we show a great high functioning video of another parkour practitioner.  Parkour is a physical discipline and non-competitive sport which focuses on efficient movement around obstacles.  Watch closely the use of the arms. The need for arm use in jumping, in balance, in acceleration etc. It becomes clear that once you get the amazing feats seen in this video out of your head, and begin to watch just the use of the arms that you will begin to appreciate the amazing need for arm swing and function in movement.

There is a reason that in our practices we treat contralateral upper and lower limbs so much.  Because if you are paying attention, these in combination with the unilateral loss of spinal rotation are the things that need attention. 

Yup, we are The Gait Guys….. we have been paying attention to this stuff long before many it seems.  If you just know gait, one of the single most primitive patterns other than crawling and breathing and the like, you will understand why you see altered squats, hip hinges, shoulder ROM screens and impaired rolling patterns etc.  You have to have a deep rooted fundamental knowledge of the gait central processing and gait parameters. If you do not, every other screen that you put your athlete or patient through might have limited or false leading meaning. The hard part is having enough command of all of the information to bring it all together and see it for what it is.  Sounds like the career journey’s of many of us doesn’t it ?! 

PLEASE find the 18 blog article links we mentioned earlier below. Enjoy.

Shawn and Ivo …  combining 40+ years of orthopedics, neurology, biomechanics and gait studies to get to the bottom of things. And glad to have great folks like you to join us on the journey.

LINKS:

http://thegaitguys.tumblr.com/post/13920283712/arm-swing-part-2-when-phase-is-lost

http://thegaitguys.tumblr.com/post/25574512512/remember-by-clicking-on-the-youtube-logo-in-the

http://thegaitguys.tumblr.com/post/4989710612/arm-swing-matters

http://thegaitguys.tumblr.com/post/4959504732/dynamic-arm-swinging-in-human-walking

http://thegaitguys.tumblr.com/post/25020320076/video-gait-case-it-is-neuromechanics-wednesday

http://thegaitguys.tumblr.com/post/29123613733/gait-problem-but-where-is-the-problem-a-case

http://thegaitguys.tumblr.com/post/29333686230/have-you-ever-wondered-why-people-who-walk

http://thegaitguys.tumblr.com/post/31459106441/the-windmill-pitch-fastpitch-softball-more-proof

http://thegaitguys.tumblr.com/post/50570270440/human-gait-changes-following-mastectomy-taking

http://thegaitguys.tumblr.com/post/53926462035/the-power-of-observation-part-2-lets-take-a

http://thegaitguys.tumblr.com/post/24190026508/arm-swing-in-gait-and-running-why-it-is-crucial

http://thegaitguys.tumblr.com/post/59683119340/too-much-potential-gait-pathology-all-in-one

http://thegaitguys.tumblr.com/post/7852611676/a-brief-gait-review-from-a-youtube-clip-we-found

http://thegaitguys.tumblr.com/post/4989750795/arm-swing-privides-clues-to-gait-pathology

http://thegaitguys.tumblr.com/post/5014037442/gait-gaff-time-gaff-verb-tr-to-stand-or-take

http://thegaitguys.tumblr.com/post/45674661556/podcast-25-bionics-arm-swing-footwear

http://thegaitguys.tumblr.com/post/42841395809/pod-22-primates-limb-synchrony-motor-patterns

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Look at that forward lean and glute development !

There now, maybe we tricked you into finally reading one of our bigfoot / Gigantopithecus blog posts. These blog posts were highly informative yet sadly under viewed compared to our regular posts. We suspect only the true gait geeks found those worth of their time but maybe they were misleadingly superficial to the quick browsing viewer. And that is ok, to each his/her own. But if you want to learn about your own species and problems we have as humans it is always helpful to look at our distant species “relatives” to see where we came from.

In this video you will see this Silver Back walking on 2 limbs, this is quite a rare event to see. In this clip you can see a gorgeous forward lean and the subsequent midfoot strike that occurs when the foot fall occurs with the body mass directly over the foot.  If you look closely you will also see that this gorilla is carrying a log in his left hand, which is one of the theories postulated as to why we evolved to bipedal ambulation, to carry objects over a distance. You should note the increased arm swing in the contralateral hand which is always seen when one arm swing is impaired from carrying things or from injury. This same pendulum alteration occurs in the lower limb when there is an injury and thus a weight bearing alteration, such as ambulating on a sprained ankle.  If you still do not believe us, strap a 5 pound ankle weight to one ankle and note the immediate change in step and stride in both limbs.  In subtle injuries or merely in the presence of pain, the gait cycle is altered a subtle level, and this is where gait compensations often begin.

in the normal walking gait cycle, rear foot strike is normal. But we at The Gait Guys tend to have our clients focus more on heel “contact” as opposed to a true “strike”. The difference is one of how aggressively the foot’s heel interacts with the ground at initial contact. We all have a family member or neighbor that can be heard upstairs sounding like they are pounding nails into the floor when it is really just their normal heel strike.  The best way to help someone to reduce this pounding habit is to increase their forward torso lean and to educate them on heel contact on impact.  The lean must come from the ankles, not from the waist. It is like walking into a heavy wind, you must lean your whole body (we use a queue of “raise your chest a little and lead from the chest” and this often helps stop a collapse into the core and flexion from the waist). And when one does this, the foot cannot progress so far out in front of the body and generate that aggressive heel strike. One is close to midfoot strike at this point when the correction is made properly.  This is similar to Pose running technique but it is just simply good form running technique to hit a nice soft midfoot impact each time.  

We talked more about heel strike in Gigantopithecus last week in this blog post. And, we also mentioned the perpetual knee flexion to dampen the head oscillations.  

Shawn and Ivo, The Gait Guys, and aspiring primatologists apparently.

Podcast 36: Heel lift lies, the Exercise Drug & Malcolm Gladwell's 10,000 hours.

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http://thegaitguys.libsyn.com/podcast-36-heel-lift-lies-and-the-exercise-drug

iTunes link:

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

Gait Guys online /download store:

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

other web based Gait Guys lectures:

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

Today’s show notes:

Neuroscience piece:

Description
1. Health Scanner Scanadu Scout: the future of medical info gathering ?

2. The Exercise Drug:

www.gizmag.com/scripps-drug-sr9009-exercise-mimic/28651

3. FB reader sent us a message:

- am posting this to see if I can get a little bit of help from the best professionals in the area (you). 
I have read some of the information on your site and I think I have quite a problem on my right foot. It happens that the medial part of the foot tripod does not touches the floor at all and I have lack of support in that zone. So it seems like my forefoot is varus. I have also noticed that when I am standing it looks like my rear foot is valgus. So, I can’t really compensate this problem because if the forefoot is varus and I try to put it neutral, the rear foot gets even more valgus, and if it I try to put the rear foot neutral, the forefoot gets even more varus and my big toe does not touch any part of the floor. Can you please help me? I do not know what to do and I am a little bit desperate because nobody I went to could help me. You are probably my last hope. I know I can correct this and I have the will and dedication to pull it off. I bet there are some exercises I can do but I do not really know which at all. 
Thanks in advance. -Jorge
4. Another TUMBLR reader asks question about
Guys what are the possible muscular causes of genu varum during initial swing?
5. Another off tumblr:  Anything  you can talk about on this topic ?
How does running in low-to-no light conditions effect your gait/running/injuries/etc?
6. Topic: step  width

Changing step width alters lower extremity biomechanics during running

7.  heel lift vs. sole lift
why and when would you use only a heel lift…..unilaterally ?
8. National Shoe Fit program: 
Link: http://store.payloadz.com/results/results.aspx?m=80204
9. Questions from a field doc:
Hey guys,
 I have heard you guys say many times that many people who choose to venture into minimalistic footwear have not “earned their right" to do such without increasing their risk for problems.  I was wondering if you could explain what parameters you use to determine if and when they are ready.  
Thanks,
Ryan 
10. Shoes: does pronation matter
11. Shoes #2:
12. Malcolm Gladwell debate, 10,000 hours
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What does sustained rearfoot and forefoot inversion look like in terms of shoe wear ?

This is a client who came to us with a history of several months of big toe pain (specifically 1st metatarsophalangeal joint pain). The pain was dorsally located (ie. top of the big toe joint).  It was clear that on examination the pain was being caused by osseous and soft tissue dorsal impingement due to a progressing hallux rigidus/limitus. 

This painful status obviously is creating both a conscious medial toe off pattern during the propulsive phase of late stance phases.  The client is more than obviously steering push off laterally as can be seen in this photo. The grey lateral pods are almost obliterated. This means the foot is perpetually supinated during the entire stance phase of gait and this means that pronation shock absorption is not present.

Remember, a perpetually supinated foot means the talus and arch never descend as part of the pronation/shock absorption cycle and so the same side limb will always remain longer than the other limb which is seeing the internal rotation/pronation effects which functionally shorten the leg during stance phase.  So in this case, we have a pelvic unlevelling and a frontal plane shift to the functionally shorter leg during its stance phase.  It should not surprise you that this client has hip pain contralateral to this abnormal shoe wear/hallux limitus side. 

There are plenty of other issues here to be discussed, like eccentric weakness of the same side g.maximus, patellar tracking issues, lack of hip extension and thus weakening of the glutes and thus resultant shortness of the quadriceps group which will all often be found in this clinical picture. But we will save that all for another time.

Remember, the longer this client stays in this shoe, the easier it is mechanically on them because the eVA foam and the shoe are broken down into their compensatory avoidance behaviour.  But, this is where the pattern becomes subconsciously embedded and thus when the pattern drives many of the other compensatory patterns off of this one since it is the new norm. The faster you address this problem, the sooner you stop the compensatory cascade.  And on that note, if you read our blog post re-run of the Arm Swing last week you will understand why  these folks will begin altering the opposite arm swing phase.

Shawn and Ivo, The Gait Guys