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A video case of a gait impairment. Chronic dorsal foot pain.

This client came to see us recently. They had a current (2 year) history of dorsal foot achey/burning pain and anterior ankle pain, right greater than left.  They had been just about everywhere for these complaints and were pretty much resolved that it was not fixable. They also had a chronic history of anterior shin splints.

This is a pretty simple case. It is missed alot of the time. The reason it is missed is because nothing much shows up on examination.  However, we used some tricks to bring out their symptoms.  There are also some subtle hints on the gait video above but when  you cannot pair what  you see with what you find on a clinical exam the issues can get lost in the mix, as they did in this case.  This is thus a case based much on clinical experience.  We have seen this before.  A great clinician (who’s name we have forgotten) used to have a quote that went something like this:

It is only after you have seen the beast once before that it will serve you well to be able to recognize it the next time. Having never seen the beast previously will leave you with a terrible bloody battle on how to slay it the first go-round.“

ln this video above you should basically see 2 things:

1. the easy one to see: the right foot immediately after toe off does not come forward sagitally rather it spins out into abduction in the swing phase to prepare for the next heel strike.

2. the harder one to see: both feet pronate immediately in the rear and mid foot excessively. 

This patient has some limitations in normal ankle rocker.  More simply put, they cannot get enough adequate tibial progression forward into dorsiflexion over the talar dome. The squat test was really the only positive movement assessment that was confirmatory. As they squatted the ankle met early dorsiflexion restriction and thus the foot had no choice but to pronate early and heavily thus collapsing medially and drawing the knees in medially. Normally the arch should remain unaffected and the tibia should merely pivot cleanly and effortlessly over the talus allowing the knees to come purely forward.  Not in this case.

So, we have a client that has impaired sagittal mechanics. They cannot move through ankle rocker effectively and thus they cannot pronate in a timely manner.  As the right foot leaves the ground at toe off they need to have sufficient ankle dorsiflexion to carry the foot cleanly forward to prepare for heel strike (this looks pretty good on the left in the video) but the right side is met with ankle range loss.  If they did not circumduct the right foot like you see here they would drag their toes on the ground and likely trip. So, foot abduction is the strategy to avoid this issue.  However, when you circumduct the foot you begin to lose the strength and endurance of the toe extensors and tibialis anterior.

There is it, we just gave it away.  Your question all along should have been, "but what about the dorsal foot and anterior ankle pain and chronic shin splint history?”.

After our gait assessment and history we had a strong hunch. We did our clinical exam which was unremarkable, mostly. But we saw some things that might correlate with our hunches.  So, we put the client on our Total Gym at 45 degree incline to do some partially weight bearing squats. Simple stuff. But, we put the feet in a challenged position.  We had them hold a neutral foot position on the platform (zero degree progression ankle), the foot was not allowed to spin. We told them they had to keep the toes up at all times and directed them to not let the arch drop or heel spin (these are all compensations to get around impaired ankle rocker in gait, and we see them in her gait video). It seemed simple to them so they began to squat repeatedly, slowly with good form. At about 2 minutes into the movement challenge there began some burning and achey pain reproduction at the dorsal foot from the toes to the anterior ankle. Then it started up their shins. The knees began to hurt. Their toes began to lose their earlier extension/lift. They then started to avoid the depth of the initial first squats so we made them aware and insisted they challenge the initial ranges.  After about another 30 seconds the anterior ankle pain began.  Our exam was pretty much done. We went back into the room, their pain had stopped. On the exam table it was clear that they now had more toe extension and ankle dorsiflexion range but had no strength in this new range.  You see, they initially tested strong in these ranges, but they were strong only in the limited range available to them. On our exam we felt that the ranges were a bit meager, but for some people that is just their anatomy. But we had to be sure, so we gently drove some of those old lost ranges and our examination was concluded.

So, it turns out that this patient had enough weakness in the tibialis anterior and long toe extensors (EDL) sufficient enough to lose ankle rocker ranges over time. When you lose ankle rocker range you meet resistance early. This means you will begin pronation in the foot earlier than normal and begin one or several compensations:

  1. arch collapse
  2. heel abduction twist
  3. increased foot splay (progression angle)
  4. external limb rotation (paired usu. with #3)
  5. foot circumduction
  6. medial knee collapse
  7. just to name a few…… knee hyperextension etc

Chronic fatiguing and weakness of the toe extensors and tibialis anterior are frequent findings in many people. Sometimes they are subtle and you have to tease them out.

Now, remember the initial pain quality ? Achey burning pain.  Now, lets review last weeks pain posts. 

Remember the Krebs cycle? How about glycolysis? What was one of the end products of glycolysis? Lactic acid. Your ability to recycle it and make it into oxaloacetic acid and stuff it back into the Krebs cycle determines your aerobic capacity. When lactic acid builds up, we get muscular inefficiency due to the drop in pH (initially this helps, but too much of a good thing creates a problem), The result? Burning pain. Burning pain is the burn of glycolysis, or muscular overuse.

Aching/ throbbing pain is that deep, boring pain, like a toothache in a bone. It is the pain of the mesoderm, or what is often called sclerotogenous pain. Aching/Throbbing pain is the pain of connective tissue dysfunction (remember that connective tissue is bone, cartilage and collagenous structures like ligaments and tendons). Throbbing pain can sometimes be vascular in origin, as the connective tissue elements of the vessels (the tunica adventitia to be exact) is stretched (which contains a perineural plexus; think about the pain of a migraine headache).

This client had fatigue weakness. This is a physiologic energy production issue. Thus the BURNING pain in the toe extensor muscles. They also had the chronic achey pain of sclerotogenous referral from connective (mesoderm) tissue challenges.

See how this all comes together ?! Putting the pieces together is not hard once you know what the pieces are supposed to do and what their limitations are. Then you have to listen to them and hear what they are telling you.

This was a case that did not have to go on for 2+ years. This client did not need to suffer and become a shoe and orthotic obsessed fanatic (searching for answers on their own). Their body was screaming for someone to just listen and look at its communications. 

We started them with our famous Shuffle Walks to drive toe extension, ankle rocker/tibialis anterior strength and then showed them how to use more of both during normal gait.  As with most of the cases like this. We will let them go for 2-3 weeks to improve these SKILL and ENDURANCE components of the movement pattern.  We bet this one will take 2-3 visits to resolve. As endurance builds and then as STRENGTH (the last component) builds they will own the changes and be pain free.  And then return to then normal shoe shopping habits like the rest of the world.

We are The Gait Guys……..saving humanity from the scourge of gait related pain, one lovely person at a time.

Shawn and Ivo

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Chronic ITB -ITBand tightness in a runner. What is the real issue and solution ? We get dozens of emails daily, and we try to anonymously post a good case weekly. Dear Drs. Waerlop and Allen:   I am hoping that you will be able to help me, by refer…

Chronic ITB -ITBand tightness in a runner. What is the real issue and solution ?

We get dozens of emails daily, and we try to anonymously post a good case weekly.

Dear Drs. Waerlop and Allen:
 
I am hoping that you will be able to help me, by referring me to the right professionals.
 
I am a 45 year old woman who has been plagued by what doctors have told me is Iliotibial  band friction syndrome for the past three years.   When my injury first occurred, I was running approximately 4 miles three to four times per week.  Most of the time, I ran in the woods, but I also ran in the street. 
 
When it first occurred, I walked home and rested my legs for two weeks.  After resting it, I learned that if I wore compression pants, I was able to run for 3 miles with no pain.  So, I cut back on my running and endured that distance for a while.  Eventually, it became so bad that I could not run two miles, so I decided to go to the doctors.
 
 The first doctor I went to for the problem told me to stretch my Iliotibial band and strengthen it by doing the four way leg exercise.  I did exactly as I was told, but to no avail.  I went back to the doctor and he could not understand why I was not getting better.  Since it became apparent to me that seeing him was fruitless, I did not go back a third time.  He told me that the problem would resolve itself within time.
 
For the next year, I self-treated.  I stretched, strengthened my hips and iced my knee.  At times, I could run 3 to 4 miles in the woods wearing a brace.  As soon as I felt any pain, I stopped running, and walked to my destination.  I would rest my leg again for a few weeks, and start back to running gradually, i.e. .5 miles every other day.  I took spin class two or three days per week to keep my cardio level up.  Interestingly, biking has never bothered my knee.
 
Last summer, it became so bad that I could not run .2 of a mile.  In September, I walked about 4 miles in Philadelphia in flip flops (I can hear you gasping now), and my knee began to hurt (you are probably saying no wonder!).  That was the first time my knee hurt while walking.  It was so sore for the next few days that the pain woke me up at night.  Shortly thereafter, I was walking and my back started to hurt so I went to another doctor.
 
The second doctor I went to told me to do a single leg squat and said you have Iliotibial band friction syndrome.  He prescribed physical therapy.  I have been going to physical therapy since the beginning of October.  I returned to running slowly and eventually I was able to run 20 minutes on the treadmill at a level between 7.4 and 7.6.  I ran three days per week.
 
I have also endured the Graston Technique and ART twice a week since November.  My physical therapist feels that it was successful in breaking up my scar tissue.   I can foam roll my Iliotibial band with both legs in the air without any pain. 
 
Yesterday, I tried running outside.  I ran on the flattest road I could find, but was unable to make it a mile.  I stopped running as soon as I felt the pain (similar to a throbbing pain) on the outside of my knee and walked home.  I iced it and took Advil.  I went to physical therapy today, and she cannot understand why I cannot run for one mile outside.  She believes I need to see another doctor for another opinion. 
 
Do you know of anyone in the Philadelphia area who would provide me the type of care that you provide to your patients?  I found you on Facebook  (I am Nellie Eplin) and find you fascinating. 
 
I really want to get this fixed.  I want to run for the rest of my life. It makes me a better person. 
  
I appreciate all of the help that you are able to provide. 
  
Best regards,   
E.L.
_______________________________________________
Response from The Gait Guys:
Dear E.L. :

ITB problems usually, but not always, occur from Weak gluteal support or from factors that allow or promote too much internal spin of the limb.  Sadly the typical response people get are the same as you heard, stretch the ITB out and foam roll. There is a reason this is frequently fruitless to resolve your issues. The ITB mechanism can shorten because there is weakness somewhere in the limb and internal spin and frontal plane stability is lost.  The internal spin issues can come from flat feet, hyper pronating, tibial torsion issues and valgus knees to name a few let alone general eccentric and isometric weakness of the muscles controlling internal spin rate (glutes and medial quads for example) .
The TFL-ITB are internal rotators, provide stability through limb rotation and provide some lateral stability. When the gluteals get weak you lose some of the lateral plane stability (mostly gluteus medius) and you lose some of the ability of the gluteals (iliac div. of g. maximus and posterior g. medius) to control rotation (eccentrically control the rate of internal spin).  A few weeks back we did a several part series on the functions of the gluteal, here is the link of the first one & the second one and their effect on the IT Band-TFL mechanism.
We would start with reading these 2 blog posts and then go back to the 3 part series on the Cross Over Gait which you can find here on our Youtube channel.
Without an examination we are guessing but perhaps the 2 blog posts and investigating these 3 videos we did will help you to look at Cross over gait issues which can be a big component of excessive internal spin. Within the videos you will see some exercise skills that might help you. 
Good luck,  We are in Chicago and Colorado. We do not know of anyone that does our kind of work in your town. Sorry
Good luck and keep in touch with us regarding your progress and discoveries, in the mean time investigating our ideas above rethinking the stretching - foam roller approach for the brief time might help you.
Shawn and Ivo, The Gait Guys …. helping solve one unresolved case at a time.
* (in all case discussions our disclaimer applies, available on our website).

 

113 Marathons in one year ! What ?

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A Texas lawyer spent 2011 a little bit busier than most people: He ran 113 marathons. R. Laurence Macon spent much of the year and over 200,000 air miles running in 113 marathons. That bests the current record, and the Guinness World Records is currently reviewing Macon’s accomplishment. At 67, he is ….. click on the link to read the article ….

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It is Friday Follies on The Gait Guys and we have something a little different for you. Not something gait related but more movement related. Enjoy the short video.

Guillaume Blanchet spent 382 days riding his bike through the streets of Montreal living what appears to be a normal everyday life on his bike. He dedicates the short film to his father, Yves Blanchet where he first got his love for riding a bike.

Man spends 382 days living his life while on a bike

By: Nate Hoppes

Everyday something original and entertaining pops up on the internet and today is no exception as a 3 minute short film titled “THE MAN WHO LIVED ON HIS BIKE” is captivating peoples attention.


Here’s a quick breakdown of the film-
Original= Absolutely
Creative= Definitely
Quality= Well done
Odd= Very, especially when he’s shaving naked while riding a bike.
Entertaining= Well worth watching the whole 3 minutes

Need more muscle activation? How about a crouched gait?

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Muscle contributions to support and progression during single-limb stance in crouch gait

J Biomech. 2010 Aug 10;43(11):2099-105. Epub 2010 May 20.


You have heard us talk about crouch gait as a rehabilitative exercise (see another post here). Here is some proof that you are working harder

“The results of this analysis indicate that children walking in crouch gait have less passive skeletal support of body weight and utilize substantially higher muscle forces to walk than unimpaired individuals.”

and

“… during crouch gait, these muscles are active throughout single-limb stance, in contrast to the modulation of muscle forces seen during single-limb stance in an unimpaired gait.”

...and working the right muscles

“Crouch gait relies on the same muscles as unimpaired gait to accelerate the mass center upward, including the soleus, vasti, gastrocnemius, gluteus medius, rectus femoris, and gluteus maximus.”

and

“Subjects walking in crouch gait rely more on proximal muscles, including the gluteus medius and hamstrings, to accelerate the mass center forward during single-limb stance than subjects with an unimpaired gait.”

Yup, crouched gait gives you more bang for the buck. Try it….You’ll like it!

Yes, we are the Geeks of Gait…. sifting through and synthesizing the research so you don’t have to


Muscle contributions to support and progression during single-limb stance in crouch gait
J Biomech. 2010 Aug 10;43(11):2099-105. Epub 2010 May 20.
Steele KM, Seth A, Hicks JL, Schwartz MS, Delp SL.

Source

Departments of Mechanical Engineering, Clark Center, Stanford University, Stanford, CA 94305-5450, United States. ksteele@stanford.edu

Abstract

Pathological movement patterns like crouch gait are characterized by abnormal kinematics and muscle activations that alter how muscles support the body weight during walking. Individual muscles are often the target of interventions to improve crouch gait, yet the roles of individual muscles during crouch gait remain unknown. The goal of this study was to examine how muscles contribute to mass center accelerations and joint angular accelerations during single-limb stance in crouch gait, and compare these contributions to unimpaired gait. Subject-specific dynamic simulations were created for ten children who walked in a mild crouch gait and had no previous surgeries. The simulations were analyzed to determine the acceleration of the mass center and angular accelerations of the hip, knee, and ankle generated by individual muscles.

The results of this analysis indicate that children walking in crouch gait have less passive skeletal support of body weight and utilize substantially higher muscle forces to walk than unimpaired individuals.  

Crouch gait relies on the same muscles as unimpaired gait to accelerate the mass center upward, including the soleus, vasti, gastrocnemius, gluteus medius, rectus femoris, and gluteus maximus.

However, during crouch gait, these muscles are active throughout single-limb stance, in contrast to the modulation of muscle forces seen during single-limb stance in an unimpaired gait. Subjects walking in crouch gait rely more on proximal muscles, including the gluteus medius and hamstrings, to accelerate the mass center forward during single-limb stance than subjects with an unimpaired gait.

Copyright 2010 Elsevier Ltd. All rights reserved.

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Neuromechanics Weekly: Installment 2 (Now aren’t you lucky to have so much neuro in 1 week!) FEEL THE PAIN: PART 2 The Character of Pain In today’s post we hope to help you better understand your pain or the pain that someone else descr…

Neuromechanics Weekly: Installment 2 (Now aren’t you lucky to have so much neuro in 1 week!)

FEEL THE PAIN: PART 2

The Character of Pain

In today’s post we hope to help you better understand your pain or the pain that someone else describes to you. The character of the pain can tell you much about what tissues are involved and what might be going on behind the scenes. Understanding the anatomy and physiology of the parts is critical.  Thus, this post is going to be a little latin/medical word heavy for some of you….. but trust us, if you spend just a few extra minutes championing these words and owning the concepts below you will forever be better at what you do. Or at the very least, better understand your own pain.

In prior post in this series we talked about the pain producing tissues being derived from one of the primordial tissues, the endoderm, ectoderm or mesoderm. And if it is from  the mesoderm, from which of the 3 layers of the somite is it originating ? The sclerotome, the dermatome or myotome? (The mesoderm is the middle embryonic germ layer from which connective tissue, muscle, bone, and the urogenital and circulatory systems develop.)

As we discussed yesterday, pain usually has one of four qualities: burning, aching/throbbing, sharp/stabbing, or electric/shooting. Each one tells us something about where it is coming from.

Remember the Krebs cycle? How about glycolysis? What was one of the end products of glycolysis? Lactic acid. Your ability to recycle it and make it into oxaloacetic acid and stuff it back into the Krebs cycle determines your aerobic capacity. When lactic acid builds up, we get muscular inefficiency due to the drop in pH (initially this helps, but too much of a good thing creates a problem), The result? Burning pain. Burning pain is the burn of glycolysis, or muscular overuse.

Aching/ throbbing pain is that deep, boring pain, like a toothache in a bone. It is the pain of the mesoderm, or what is often called sclerotogenous pain. Aching/Throbbing pain is the pain of connective tissue dysfunction (remember that connective tissue is bone, cartilage and collagenous structures like ligaments and tendons). Throbbing pain can sometimes be vascular in origin, as the connective tissue elements of the vessels (the tunica adventitia to be exact) is stretched (which contains a perineural plexus; think about the pain of a migraine headache).

Shooting/electric pain is the pain of the ectoderm. Think about when you hit your ulnar or peroneal nerves and get that “electric shock” sensation. If you ever have had a herniated disc, you know this pain first hand; sharp and shock like. This pain often travels in the distribution of a nerve root or peripheral nerve. 

Sharp/ stabbing pain is the pain of acute tissue damage to one of the 3 layers of the somite (the dermatome, sclerotome or myotome). Think of a sprain (sclerotome) or strain (myotome), or the pain of a shingles outbreak (dermatome). Sharp/stabbing pain is the pain of acute tissue damage.

Keep in mind there is often overlap of pain types, which mean that there is more than one tissue crying out for help (the burning pain in the left hip from gluteus medius insufficiency, combined with the dull, achy pain in the medial knee, from poor control of internal rotation of the thigh).

Pay attention to the character of pain, as it often provides clues to the tissue of origin.

The Gait Guys. Explaining it so you can understand it, one pain free stride length at a time.

Ivo and Shawn

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Neuromechanics Weekly:

FEEL THE PAIN: PART 1

Pain Producing Tissues

What usually brings people in to see you or us? Sometimes, it is the desire for better performance, but most often it is pain. We see it daily in our offices. You see it daily in yours. In this installment of Neuromechanics, how about we characterize some of what we are seeing?

We like to think of pain as having one of four qualities: burning, aching/throbbing, sharp/stabbing, or electric/shooting. Each one tells us something about where it is coming from. Before we talk about that, we need to assess  “What is the pain producing tissue?"  To understand this further, we must delve deeper into tissue types.

We may remember from embryology, around the 3rd week of development, the embryo becomes trilaminar (three layers) forming, the endoderm, the mesoderm and the ectoderm. The endoderm becomes most of our organs (called the splanchnotome), the ectoderm becomes the nervous system, and the mesoderm becomes the muscles, ligaments and bones. The mesoderm coalesces and becomes blocks or segments of tissue called somites.  These somites have 3 distinct parts: the dermatome, the myotome and the scerotome.

The dermatome becomes the skin, with it’s segmental innervation (the spinal cord level that supplies that area of skin). Think about when someone has an outbreak of shingles, which often follows a spinal nerve root distribution. We often test sensation along both dermatomal distributions (segmental) and peripheral nerve distributions (with contriobutions from many segmental nerves).

The myotome becomes the muscle and the segmental nerves which supply it. Each segmental level usually corresponds to a function (S1 does plantarflexion of the foot, L5 does dorsiflexion of the foot, etc). This is one of the reasons we muscle test, to tell us which segments may be involved in a problem.

The sclerotome becomes the bone, ligament and tendon supplied by one segmental level (ex. C5 does most of the upper humerus, lateral scapula and clavicle and shoulder capsule). It is what causes the pain associated with sprains or fractures. This is the pain of connective tissues (remember, connective tissues connect muscle to bone AND make up the ultrastructure of the muscle itself!) This is one of the most common pains we encounter in a clinical setting.

Knowing the tissue of origin often leads to a more specific diagnosis etiology of why your client/patient (or YOU) are having a problem.

Next time we delve deeper into pain. Until then, we remain, 2 good looking, aging, nerdy bald guys, Ivo and Shawn.

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How do you know if your orthotic is working?

Foot orthotics are easy, no? You get casted, it gets built, you put it in your shoe and you’re good to go, right? Wrong!

Orthotics or Orthotic Therapy as we like to call it in our offices, is an ongoing process. If an orthotic is doing it’s job, your foot should change (for the better) and your prescription should become less. At least in an ideal world.

Remember, orthotics are designed to help you adapt to your environment better. Unlike a footbed (which merely creates a level playing field for the foot), they change the biomechanical function of your foot. A lot should go into getting fit for an orthotic, otherwise they can actually cause some of the problems they are purported to fix!

First of all, there should be a comprehensive history of you and whatever is going on, with an inventory of all your past injuries. That appendectomy or laporoscopy which invaded the abdominal wall could be a culprit for future problems. Next you should have a thorough examination of your lower kinetic chain, including the feet, ankles, knees, hips and low back. This should include range of motion, muscle strength, muscle recruitment patterns and joint function, along with reflexes, sensation and balance or proprioception. Next there should be an analysis of your gait, preferably with stop motion video which allows you to slow down movements and assess subtle abnormalities that may not be visible during normal speeds of movement.

At this point, it should be obvious to both you and your orthotic provider whether or not an orthotic is needed. If so, a non weight bearing cast (weight bearing casts show you what the problem or compensation is, why would you want to cast someone in their pathology and perpetuate it?) The non  weight bearing cast is usually done in a mid to terminal stance position of the foot. This should be followed by the prescription of appropriate stretches and exercises, specific to your condition. Shoe recommendations should also be given, since different foot types require different footwear characteristics (good news for the ladies who like shoes!).

So, if you need an orthotic (remember, the prescription should become less over time AND should be accompanied by appropriate exercises), these are the steps we feel are imperative, otherwise, you may just have a really expensive doorstop….

The Gait Guys….Promoting Gait Literacy, one stride length at a time.

Textured insoles:What's your take?

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One of our readers writes:
I saw the video on cross over running, it was very good. It appeared the glute Med was inhibited and that the penguin walk assisted in activating it. My question is what your philosophy is regarding slightly textured insoles and if this may affect hip and abdominal function and cross posture syndrome?

 Our Response:

Thanks for the kudos. Textured insoles are probably a good thing, as they can help provide more proprioception from the feet (which have a tremendous amount of cortical representation).  They could conceivably affect hip and abdominal function. The research out there seems to be focused on people with MS, but here is another supporting study: http:// www.ncbi.nlm.nih.gov/pubmed/18246902

The Gait Guys…Texturing your mind with new ideas….

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Gait Issues: When Proprioception is Lost … What we lose when we wear “the wrong” shoes …

You have heard us use this word proprioception a million times (OK, some, maybe not a million). Proprioception is our ability to be aware of and orient our body or a body part in space.  Poor proprioception can result in balance and coordination difficulties as well as being a risk factor for injury (Like this poor pooch). *Note: there is no such thing as a “proprioceptor”. All receptors have a more specific name but there are no receptors in the body actually called a proprioceptor, it is a rough classification if that.

Think about people with syphilis, who lose all afferent (sensory) information coming in through the dorsal root ganglia at the spine level. This ultimately leads to a wide based ataxic gait (due to a loss of position and tactile sense) and joint destruction (due to loss of position sense and lack of pain perception). The same consequences can occur, albeit on a smaller scale, when we have diminished proprioception from a joint or its associated muscle spindles.  Just like when we put shoes on our feet, proprioception is lost. Just as it would be lost if we wore oven mitts on our hands all day long; there is a cost to optimal functioning of those muted joints.

To review, proprioception is subserved by both cutaneous receptors in the skin (pacinian coprpuscles, Ruffini endings, etc.), joint mechanoreceptors (types I,II,III and IV) and from muscle spindles (nuclear bag and nuclear chain fibers) . It is both conscious and unconscious and travels in two main pathways in the nervous system.

Conscious proprioception arises from the peripheral mechanoreceptors in the skin and joints and travels in the dorsal column system to ultimately end in the thalamus, where the information is relayed to the cortex. Unconscious proprioception arises from joint mechanoreceptors and muscle spindles and travels in the spino-cerebellr pathways to end in the midline vermis and flocculonodular lobe of the cerebellum.

Conscious proprioceptive information is relayed to other areas of the cortex and the cerebellum. Unconscious proprioceptive information is relayed from the cerebellum to the red nucleus to the thalamus and back to the cortex, to get integrated with the conscious proprioceptive information. This information is then sent down the spinal cord to effect some response in the periphery. There is a constant feed back loop between the proprioceptors, the cerebellum and the cerebral cortex. This is what allows us to be balanced and coordinated in out movements and actions.

Thankfully a fashion trend of wearing oven mitts on our hands has never hit the runways, but in a way we continue to do a similar disservice to our feet wearing shoes. Watch the video again and think about this next time you are contemplating, at the very least, a motion control shoe for yourself or a client.  If we all walked like this when we put shoes on we would never have done this disservice of footwear to ourselves long ago.

Ivo and Shawn….Good Looking and Proprioceptively different.

Extensor Hallucis Brevis Case Treatment

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EHB CASE treatment: For this particular case we used simple stuff. In more complex cases we will add Western Acupuncture methods as well. But in this case we used the simplest of methods ……. a blend of MAT, AMIT, followed by graded iso’s every 15degrees over and over again in multiple vectors integrating larger and further reaching muscle groups. For example, first simple hallux extension at the interphalangeal joint, then combine that with foot dorsiflexion, then combine those 2 with ankle inversion (so all 3 now), then added hip abduction and then lateral trunk flexion (abs, paraspinals, QL etc) to those. This took care of ramping up the local motor pattern and the longer more complex chain motor patterns that were primary in that particular injury (ie. almost pure frontal plane failure in this case, from what showed up weak on the neuromuscular assessment). Just reteaching the brain how to reintegrate that EHB back onto the field with the rest of the team. It came back fast and complete. No need to use a jackhammer when a simple mallet was sufficient this time around. hope that helps.

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Gait / Running Injury: Misdiagnosed Big Toe Extensor Hallucis Brevis tear in a distance runner from a simple ankle sprain.

* Sorry for the less than perfect video. Need some editing time.  Watch from 0:32 onwards for the topic at hand.


This young man, State caliber cross country runner, came in to see us after some unsuccessful treatment for an inversion ankle sprain several weeks prior. Although his swelling and range of motion had improved he was still having pain despite treatment.

On examination it was revealed that there was no loss of integrity of the lateral ligamentous restraints, no joint gapping was noted and the ligaments were non-tender. There was no swelling. Balance was clean. Even the immediate local lateral ankle muscular restraints, largely peronei, were competent with skill, endurance and strength assessment.

After further pointed discussion, after the ankle was cleared as a causative /symptomatic generator, we insisted the patient be more specific with his pain region. After requesting he palpate around to focalize the area of complaint this time he pointed not to his lateral ankle but rather pointed to the lateral dorsum of the foot over the fleshy mass of the short extensor muscle group just distal and anterior to the lateral malleolus. Inversion of the ankle was pain free but inversion of the forefoot on the rearfoot reproduced his pain pin point to the EHB (extensor hallucis origin area).

Upon reassessing his gait it was now obvious that he was unable to engage the left hallux (big toe) extensors. You can clearly see his lack of toe extension (lift) on the video at 0:32 seconds. When consciously requested to do so it immediately reproduced his pain ! If you look very carefully, that the hallux was not extending during swing phase through midstance contact phases of gait.

After specific muscle testing found only the EHB (extensor hallucis brevis) weak and not the EDB at all (extensor digitorum brevis) we began a few minutes of manual therapy to the EHB. Within ~5 -10 minutes the EHB was painfree and he could engage the muscle again actively. The muscle was clearly healed from it low grade strain, he was just unable to reactivate it during the gait cycle. Post treatment, he was able to walk immediately with much less pain and with ability to use the EHB in gait.

We followed up a second visit with him but he was pain free and was discharged from care. There were no gait compensations and screens for functional sensory motor compensations were unremarkable. Case closed.

Good results come from a precision diagnosis which can only come from a sound base of knowledge of anatomy, physiology and biomechanics …. when it comes to this kinda stuff.  Would you have picked this up on someone’s gait ? We didn’t at first.  Use your clinical examination to drive your suspicions in your gait analysis. What you see is not always what you get during gait analysis, this easily could have been a similar presentation of a hallux limitus.

Details, details, details. The devil is in the details, The proof is in the pudding……. etc.

Shawn & Ivo

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Of gait, running and waffles: No we are not talking about carb loading today.

define: Waffling (verb):  waf-fle .   To speak or write, esp. at great length, without saying anything important or useful.


Far too often we read articles and blog posts on what could be great topics but all to often they are just another spin on the latest craze or never really amount to anything useful. Our time is valuable, and so is yours. I mean, really, enough barefoot articles already ! If you are going to write something about barefoot running or minimalism it has come time to put a new spin on it. Find something with vitality to add to it. Find the next dimension for God’s sake.  Stop waffling around !

One of our favorite things early every morning before the rest of the world opens their eyes, is to read Seth Godin’s blog. He is short, sweet and to the point. They are skull crushers sometimes, they are reality checks. We got the waffle idea from his blog yesterday. And today, found at the bottom, we paraphrased his mountain discussion.  

We pride ourselves here at The Gait Guys to try and push the limits every day. The two of us, learn from each other with every phone call and every blog post. It is common dialogue to say, “Dude, I learned alot from your blog post today, thanks man !” Sadly it is often followed up with, “Are we the only ones that get excited about this stuff ?”.  Some days we just get frustrated. Clinically, we see stuff missed every day by other therapists, doctors, trainers etc.  And that is ok, we miss stuff too. We are students as well. We try to honor our limits.  The most honest and respectful thing you can do for your patient, your client, or the guy coming in for a new pair of shoes, is to say “Wow, I really do not feel comfortable assisting you. This is a little beyond my expertise level. I am going to refer you to a colleague who will know just what to do with this to help you out."  A referral to the next level is always a relationship builder. it builds trust with your client and with your level-up referral.  It is the right thing to do. It is easy to try to fit every case and client that comes into your store, clinic or gym into the common mold. Into the same things you do day in and day out.  But that is not being honest with yourself or your client and their needs; Seth Godin said it perfectly in his post today, we will get to that in a moment.

Everyone (ok, almost everyone) walks on two feet in this world. They walk into your establishment.  Did you see it ? Did you see how they moved when they were causal and did not think you were looking.  That is the time to grab their gait pattern and imprint it into your head.  That is the time they are showing their best compensation for their problems. That is the time they either have on, or do not have on, their glasses.  How do they carry their purse, their briefcase ? They are in their most natural form.  They are not putting on a show and trying to give you their best interpretation of a good gait.  They are not on a treadmill with a camera on them. In our office we almost always stand at the front desk and turn to watch them saunter down the hall into a treatment room.  They are in their "day shoes” that could be too old, they are not in their new fresh workout shoes. (See the video above of a good friend, physician and just a great guy. He has a rare form of muscular dystrophy. He is an awesome smart doctor but even he was unaware of what his “day shoes” were truly doing to his gait. So we slapped him around a little, lovingly of course, and sent him off for new shoes.) When folks walk into your establishment it is when we  have them at their most natural, most vulnerable.  It is why we both love shopping malls and airports.  The most honest gait comes rising to the top.

Few walk well, many walk poorly. When the first thing that hits the ground does so improperly or does so in the wrong shoe for their foot type or anatomy the rest of the motor pattern is a compensation. Just because they have a flat foot does not mean that foot is weak and incompetent and needs an orthotic or stability shoe.  It just ain’t that simple, trust us.  Watch your people walk. It is the most fundamental movement pattern of all. Forget assessing their shoulder movement pattern looking for the golden key to their problem if their arm swing in gait is altered. Gait is the most repetitive and subconscious motor pattern we do all day long besides breathing (and even that one is done poorly by many folks). It is the one that is done for 4000-8000+ times a day. And if you are doing it wrong, in the wrong shoes, with the wrong skill set then it is part of the fundamental problem. We care that a client might have an impaired upper limb driver problem in a log-roll type motor pattern on your floor……but we often care more if they are not walking like an Egyptian (sorry, couldn’t resist) we mean walking with clean fundamental motor patterns.  Sure, the impaired body rolling could be the driver of the impaired gait, don’t try to catch us on that one.  If it is, then it could be part of the solution. We are just trying to drive home a point here. Thousands of bad steps is a mountain to climb to offset with some home exercises unrelated to the gait issue.  Why not get deeper into their gait, bring their awareness to a higher level, give them hourly corrective queue’s and see their problems unravel ? If the “log rolling” is in fact part of the solution then the gait should begin to clear up, if not, head back to the drawing board. Being good at gait issues is what we do. It is not hard, it just asks something more of you and it takes time. Analogy…  it asks so much more from us to undertake that long difficult arduous painful task of climbing up to the peak of that mountain when it would be so much more fun to turn around half way up and enjoy the effortless ride down on our backsides. Becoming good at gait analysis is first a painful task of 1000’s of hours of time studying anatomy, biomechanics and video footage. You are not offering gait analysis if you just buy a treadmill and a video camera. But after a few years, like anything else worth mastering (thank you Malcolm Gladwell), it becomes an almost effortless art form.

So, enough pseudo-waffling.  See how easy it is ! Sad isn’t it ?  Now spend the rest of the day with honest intent at truly looking at your client’s gait. And if you are a blogger or writer, step up and give us all something new and fresh. If you are trying to get the attention of all of us in the Gait Brethren here at The Gait Guys, with your next barefoot article, you had better start it with “This ain’t just another barefoot article….”. Stop waffling !  Go climb a fresh mountain for God’s sake, that one has been trampled to death !

Seth Godin (paraphrased from his blog today)…

“Repeating easy tasks again and again gets you not very far. Attacking only steep cliffs where no progress is made isn’t particularly effective either. No, the best path is an endless series of difficult (but achievable) hills. The craft of your career comes in picking the right hills. Hills just challenging enough that you can barely make it over. A series of hills becomes a mountain, and a series of mountains is a career.”

We are The Gait Guys…….and after yesterday’s blog post (if you read it) we are SEEING “all things gait” a little clearer.  Are you ? If you read our blog post (1/31/2012) you will know what we mean.  And if not, we have an old mountain out back for you to climb.

Shawn and Ivo ……… waffling and climbing……. at the same time.