October 20, 2015 October 20, 2015/ The Gait Guys

Custom orthotic or Sham for mid tendon achilles tendonopathy? It doesn’t seem to matter.This study prescribed eccentric calf exercises along with either a custom or “sham” foot orthosis for 140 people who were randomized as to whic… — **Custom orthotic or Sham for mid tendon achilles tendonopathy? It doesn’t seem to matter.**
This study prescribed eccentric calf exercises along with either a custom or “sham” foot orthosis for 140 people who were randomized as to which group got the real goods and which one did not. A Victorian Institute Sports Assessment-Achilles questionairre was given at baseline, 1, 3, 6 and 12 months. No statistically significant difference between the groups.
Hmmm..
We wonder just what were the custom and sham like? When we use orthoses, we use full arch contact devices. Perhaps the type of orthosis makes a difference? What has been your experience?
Munteanu SE, Scott LA, Bonanno DR, Landorf KB, Pizzari T, Cook JL, Menz HB. Effectiveness of customised foot orthoses for Achilles tendinopathy: a randomised controlled trial.
Br J Sports Med. 2015 Aug;49(15):989-94. doi: 10.1136/bjsports-2014-093845. Epub 2014 Sep 22.

October 20, 2015

National Shoe Fit Certification Course

October 20, 2015/ The Gait Guys

A quote made by a loyal follower on social media:

“someone asked for the best certification/certificate programs out there, and I posted this with a link to your YouTube promo video, even though I haven’t even went through it, yet. Hopefully this drives a handful of coaches your way. There are over 6k coaches in the group. “National Shoe Fit Program. The most unknown program out there. 2 overwhelmingly smart biomechanical clinicians put together a program to teach people how to integrate foot and shoe anatomy, then apply that to the various foot types to get people standing, walking, running and moving as correctly as they can on a basic level. Good luck trying to correct most of the squatting, deadlifting and Olympic lifting compensations without addressing how the foot interacts with the ground. Good luck trying to improve fitness without addressing gait. Good luck addressing gait without addressing foot types and shoes.”

thanks Michael !

we blush

October 19, 2015

Psoas, iliacus. . . . hip flexors ?

October 19, 2015/ The Gait Guys

How many times have you heard us say, “hip flexion in the swing phase of gait is not driven by the hip flexors. In swing phase, the psoas and iliacus complex is not a hip flexor initiator, it is a hip flexion perpetuator/” ?
More evidence … . .
“These experiments also showed that the trailing leg is brought forward during the swing phase without activity in the flexor muscles about the hip joint. This was verified by the absence of EMG activity in the iliacus muscle measured by intramuscular wire electrodes. Instead the strong ligaments restricting hip joint extension are stretched during the first half of the swing phase thereby storing elastic energy, which is released during the last half of the stance phase and accelerating the leg into the swing phase. This is considered an important energy conserving feature of human walking. ”

http://www.ncbi.nlm.nih.gov/pubmed/24814597

October 19, 2015 October 19, 2015/ The Gait Guys

Dr Ivo, talking about some of the finer points on the “Toe Waving” exercise

October 15, 2015 October 15, 2015/ The Gait Guys

How quickly does your brain start working when you start your client evaluation ? Answer: as quickly as possible.Stepping up to the plate today for the first pitch I see this. Do you see the ever so slight evidence of “possible” right toe extensor… — How quickly does your brain start working when you start your client evaluation ?
Answer: as quickly as possible.
Stepping up to the plate today for the first pitch I see this.
Do you see the ever so slight evidence of “possible” right toe extensor tone ? It is subtle but it is staring you right in the face if you care to embrace the subtle clue. From this angle you can see more of the fat pad and plantar aspect of the RIGHT forefoot. The very next thing we did was look at the dorsum of the foot, and yup, more prominent extensor tone, short extensors to be specific. The next question was why was I seeing this ? Short flexors usually pair with long toe flexors, and that means gripping the ground and distal displacement of the fat pad and even sometimes lumbrical inhibition or frank weakness. Possible attempts to gain more foot purchase on the ground ? Hmmmmm, perhaps. The client had right hip pain and right lateral sesamoid pain. Time for an examination to find out the “whys” and then fix things.
The powers of observation should always get your clinical juices flowing. Even the smallest of things should help guide you or at least clue you in to things.

October 15, 2015 October 15, 2015/ The Gait Guys

Notice the differences in running (top) vs sprinting (bottom) activation patterns?

This picture (along with the MIchaud muscular firing pattern ones) are becoming some of my favorite ones to talk about. I just stare at them and look for differences and similarities.

Check out that the abs do not seem to fire in running (in this study at least), but do in sprinting. Note also that most muscles fire longer (and we wil assume harder) during sprinting. Also check out the peroneals, which fire just as the foot touches down in sprinting, probably to make up for the instrinsics not firing, and assist in creating a rigid lever for push off.

from: Mann et al 1986

October 14, 2015

Podcast 97: Decomposition of human movement.

October 14, 2015/ The Gait Guys

Topics: Decomposition of movement, sacrificing speed and efficiency for movement, gait efficiency, arm swing, more on injuries and unshod running and more !

A. Link to our server: http://traffic.libsyn.com/thegaitguys/pod_97final.mp3

Podcast Direct Download: http://thegaitguys.libsyn.com/podcast-97

Other Gait Guys stuff

-Brain Friendly Interface Could Change the Way People with Spinal Cord Injuries Lead Their Lives
http://neurosciencenews.com/extracellular-matrix-brain-interface-2395/

-Barefoot vs Shoe debate
http://www.theglobeandmail.com/life/health-and-fitness/fitness/barefoot-vs-shod-running-its-a-dead-heat/article26180292/

-Sacrificing speed and efficiency for stability as we age (1) . Not a bad plan. Kind of like what we spoke about here below in this video: returning to a more primitive state as the system starts to break down.

1. Zurales K, DeMott TK, Kim H, et al. Gait efficiency on an uneven surface is associated with falls and injury in older subjects with a spectrum of lower limb neuromuscular function: A

prospective study. Am J Phys Med Rehabil 2015 Jun 5. [Epub ahead of print]

https://www.youtube.com/watch?v=_fBjyutWQvU video link to our video on this

-http://lermagazine.com/news/in-the-moment-gait/speed-trap-slowest-seniors-have-increased-mortality

-Shoe: the UnderArmor Fat Tire GTX Trail shoe.

https://www.underarmour.com/…/mens-ua-fat-tire-g…/pid1262064

- assessing the different genders: http://www.ncbi.nlm.nih.gov/pubmed/12689785

Ferber R, Davis IM, Williams DS 3rd. Gender differences in lower extremity mechanics during running. Clin Biomech 2003;18(4):350-357.

-Arm Swing
http://thegaitguys.tumblr.com/post/128715659449/unique-adaptations-to-arm-swing-challenges-the

October 13, 2015

Medial or lateral foot placement ?

October 13, 2015/ The Gait Guys

Foot placement matters. We have repeatedly beaten this topic in our dialogues on “the cross over gait” for years now.
Lack of Stability often, if perhaps not always, limits mobility.
Mediolateral stability can be efficiently controlled through appropriate foot placement. This study hypothesized that humans control mediolateral foot placement through swing leg muscle activity, basing this control on the mechanical state of the contralateral stance leg. Thus, obviously, if thestance phase limb has sensory-motor deficiencies, which might be easily translated into “balance” or control issues in single leg stance evaluation, this will impact the swing leg and thus subsequent foot placement.
In this study, “During Unperturbed walking, greater swing-phase gluteus medius (GM) activity was associated with more lateral foot placement.”
“The Perturbed walking results indicated a causal relationship between stance leg mechanics and swing-phase GM activity. Perturbations that reduced the mediolateral CoM displacement from the stance foot caused reductions in swing-phase GM activity and more medial foot placement."

The swing leg is taking cues from the stance leg mechanics. If stance phase has challenges, the swing limb will be forced to accommodate and adapt, and that means altered foot placement.

Once again, remember, (broken record moment)……. "what you see is not your client’s problem, it is their strategy to get around/compensate for the problem”. Don’t you dare correct your client’s foot placement without examining why they are doing what they are doing. Get to the root of the problem you are “seeing”.

-Dr. Shawn Allen

http://www.ncbi.nlm.nih.gov/pubmed/24790168

J Neurophysiol. 2014 Jul 15;112(2):374-83. doi: 10.1152/jn.00138.2014. Epub 2014 Apr 30.A neuromechanical strategy for mediolateral foot placement in walking humans.Rankin BL¹, Buffo SK¹, Dean JC².

October 12, 2015 October 12, 2015/ The Gait Guys

A cause of ishial pain?

How many of us treat runners on a regular basis? Most of us I would say. While lecturing, I had an epiphany about recalcitrant hamstring insertional pain, that does seem to respond to conventional therapy. Take a look at the trigger point referral pattern for the semimembranosis/ semitendonosis. Note that in closed chain, these are external rotators of the thigh. Thinking about this, they would eccentrically contract (theoretically) to decelerate internal rotation of the thigh (such as with excessive midfoot pronation at initial contact and loading response.

Now look at when these guys fire during running gait. The left side of the graph (up to TO) represents the stance phase of running gait (Mann 1986). The right side represents swing (or float) phase. Note that the medial hamstrings should fire from about foot descent to mid support (or midstance), with a little blast after the foot leaves the ground (asumed eccentrically) to assist in slowing the leg.

Now think about if the foot is a poor lever and remains on the ground just a little longer and rotates medially a little too far (overpronation); this muscle could conceivably be over worked and result in the trigger point referral pattern seen above on the ishial tuberosity.

Ah, but how to fix it?

We could dry needle it and rehab it (better train it eccentrically, since that is how it is working), but it is already overworked, and in my cllinical experience, only provides temporary relief of the symptom. What other muscles seen in the chart could help? Hmmm… Take a look at the tibialis anterior (dorsiflexor/inverter), gastroc (medial) (plantarflexor/inverter), foot intrinsics and glute max/ posterior fibers of the glute medius. All external rotators (save for the foot intrinsics, which should fire from midstance to toe off) and a bonus pronatory decelerator for the tibialis anterior and able to slow an excessively internally rotating lower leg. You better check and make sure they are all on line before just treating the area of the chief complaint!

The Gait Guys. Keeping it real and giving you the tools to do a better job at what we all love to do : ) .

October 05, 2015 October 05, 2015/ The Gait Guys

Taking advantage of the stretch reflex and reciprocal inhibition; or the “reverse stretch”Reciprocal inhibition is a topic we have spoken about before on the blog (see here). The diagram above sums it up nicely. Note the direct connection from the s… — **Taking advantage of the stretch reflex and reciprocal inhibition; or the “reverse stretch”**
Reciprocal inhibition is a topic we have spoken about before on the blog (see here). The diagram above sums it up nicely. Note the direct connection from the spindle to the alpha motor neuron, which is via a Ia afferent fiber. When the spindle is stretched, and the pathway is intact, the uscle will contract. What kind of stimulus affects the spindle? A simple “stretch” is all it takes. Remember spindles respond to changes in length. *So what happens when you do a nice, slow stretch?* You activate the spindle, which activates the alpha motor neuron. If you stretch long enough, you may fatigue the reflex. So why do we give folks long, slow stretches to perform? **Certainly not to “relax” the muscle!**
**How can we “use” this reflex? How about to activate a weak or lengthened muscle?** Good call.
Did you notice the other neuron in the picture? There is an axon collateral coming off the Ia afferent that goes to an inhibitory interneuron, which, in turn, inhibits the antagonist of what you just stretched or activated. So if you acitvate one muscle, you inhibit its antagonist, provided there are not too many other things acting on that inhibitory interneuron that may be inhibiting its activity. Yes, you can inhibit something that inhibits, which means you would essentially be exciting it. This is probably one of the many mechanisms that explain spasticity/hypertonicity
**How can we use this?** How about to inhibit a hypertonic muscle?
Lets take a common example: You have hypertonic hip flexors. You are reciprocally inhibiting your glute max. You stretch the hypertonic hip flexors, they become more hypertonic (but it feels so good, doesn’t it?) and subsequently inhibit the glute max more. Hmm. Not the clinical result you were hoping for?
**How about this:** you apply slow stretch to the glutes (ie “reverse stretch”) and apply pressure to the perimeter, both of which activate the spindle and make the glutes contract more. This causes the reciprocal inhibition of the hip flexors. Cool, eh? Now lightly contract the glutes while you are applying a slow stretch to them; even MORE slow stretch; even MORE activation. Double cool, eh?
***Try this on yourself. Now go try it on your clients and patients. Teach others. Spread the word.***

October 03, 2015 October 03, 2015/ The Gait Guys

A great, FREE, full text on forward and backward walking kinematics and a possible link to central pattern generators. “Leg kinematics during backward walking (BW) are very similar to the time-reversed kinematics during forward walking (FW). T… — A great, FREE, full text on forward and backward walking kinematics and a possible link to central pattern generators.
“Leg kinematics during backward walking (BW) are very similar to the time-reversed kinematics during forward walking (FW). This suggests that the underlying muscle activation pattern could originate from a simple time reversal, as well…
"We concluded that the changes in muscle contributions imply that a simple time reversal would be insufficient to produce BW from FW. We therefore propose that BW utilizes extra elements, presumably supraspinal, in addition to a common spinal drive. These additions are needed for propulsion and require a partial reconfiguration of lower level common networks.”
http://jn.physiology.org/content/107/12/3385

Similar muscles contribute to horizontal and vertical acceleration of center of mass in forward and backward walking: implications for neural controlKaren Jansen, Friedl De Groote, Firas Massaad, Pieter Meyns, Jacques Duysens, Ilse JonkersJournal of Neurophysiology Published 15 June 2012 Vol. 107 no. 12, 3385-3396 DOI: 10.1152/jn.01156.2011

September 28, 2015 September 28, 2015/ The Gait Guys

Welcome to News You Can Use!

Today, Dr Ivo talks about how to test and exercise the long lesser toe extensors to increase skill, endurance and strength.

It will literally take just over a minute of your time. Try it and then go teach others!

September 27, 2015 September 27, 2015/ The Gait Guys

News you can use!

Welcome to Monday, folks. In this video, Dr Ivo talks you through The Gait Guys modification of the FIM (foot intrinsic muscle) or what is sometimes called the “short foot” exercise.

Now go do it!

September 23, 2015 September 23, 2015/ The Gait Guys

Gait and Climbing: Part 1

Lucid Dreaming is the name of a rock in the Buttermilks of Bishop, California. This is no ordinary rock. It is a V15. Summiting this rock is basically only 3 moves off of 3 holds, from your fingertips. The remainder of the climb is sliced bread. If you can do the 3, you can get to the top. The problem is, only a handful of people in the world can do it. How hard can this be, after all you start sitting down.
Strength, stability, mobility, endurance, skill, experience, movement patterns … . it is all here, today, on The Gait Guys blog.

Author: Dr. Shawn Allen

There are things that other people can do in life that rattle your brain. These are tasks that these individuals make look fairly simple, but in actuality are nearly impossible to the average person. The honest fact is that many of us could do many of these things to a degree if we would dedicate a portion of our day to building the engine to perform these tasks, but the truth is that many of us would rather sit down and be entertained than get up and struggle.

Here on The Gait Guys blog, bipedal and quadrupedal gait has been discussed for over 5 years. Discussions have gone deep into the strange quadrupedal gait of Uner Tan Syndrome and have delved into the critical neurology behind CPG’s (Central Pattern Generators) which are neural networks that produce rhythmic patterned outputs. We have gone on and on about arm swing and how they are coordinated with the legs and opposite limb in a strategic fashion during walking running gaits.

Today I will look briefly at the interconnected arm and leg function in a high functioning human arguably one of the best new hot shots in climbing, Alex Megos. This year the German, as seen in this video link today, managed to summit Lucid Dreaming, a V15 in the Buttermilks of Bishop, California. Hell, you can say that this is just a big boulder, but there are not many V15s in the world like this one. Only a few of the very best in the world have even tried this rock, and you can count even fewer who have reached the summit. So, what does V15 mean to you? “virtually impossible” just about sums it up. Watch the video, this V15 starts from a “sit-start”, many folks wouldn’t even get their butts off the ground to complete the first move, that is how hard this is. Watch the video, if this does not cramp your brain, you perhaps you don’t have one.

Are there possible neurologic differences in climbers such as Megos as compared to other quadruped species? Primarily, there is suspect of an existing shift in the central pattern generators because of the extraordinary demand on pseudo-quadrupedal gait of climbing because of the demand on the upper limbs and their motorneuron pools to mobilize the organism up the mountain. We know these quadrupedal circuits exist. In 2005 Shapiro and Raichien wrote “the present work showed that human QL(quadrupedal locomotion) may spontaneously occur in humans with an unimpaired brain, probably using the ancestral locomotor networks for the diagonal sequence preserved for about the last 400 million years.”

As we all know, the interlimb coordination in climbing and crawling biomechanics shares similar features to other quadrupeds, both primate and non-primate, because of similarities in our central pattern generators (CPG’s). New research has however determined that the spaciotemportal patterns of spinal cord activity that helps to mediate and coordinate arm and leg function both centrally, and on a cord mediated level, significantly differ between the quadruped and bipedal gaits. In correlation to climbers such as Megos however, we need to keep in mind that the quadrupedal demands of a climber (vertical) vastly differ in some respects to those of a non-vertical quadrupedal gait such as in primates, in those with Uner Tan Syndrome and during our “bear crawl” challenges in our gyms. This should be obvious to the observer in the difference in quadrupedal “push-pull” that a climber uses and the center-of-mass (COM) differences. To be more specific, a climber must reduce fall risk by attempting to keep the COM within the 4 limbs while remaining close to the same surface plane as the hands and feet (mountain) while a primate, human or Uner Tan person will choose to “tent up” the pelvis and spine from the surface of contact which narrows the spreading of the 4 contact points. Naturally, this “tenting up” can be reduced, but the exercise becomes infinitely more difficult, to the point that most cannot quadrupedally ambulate more than a very short distance. I will discuss this concept in Part 2 of this series on climbing. If you study childhood development and crawling patterns, you need to be familiar with UTS (search our blog, save yourself the time), the flaws in the neurology behind the "Bird Dog” rehab pattern, and crawling mechanics … and of course, study climbers.

Some research has determined is that in quadrupeds the lower limbs displayed reduced orientation yet increased ranges of kinematic coordination in alternative patterns such as diagonal and lateral coordination. This was clearly different to the typical kinematics that are employed in upright bipedal locomotion. Furthermore, in skilled mountain climbers, these lateral and diagonal patterns are clearly more developed than in study controls largely due to repeated challenges and subsequent adaptive changes to these lateral and diagonal patterns. What this seems to suggest is that there is a different demand and tax on the CPG’s and cord mediated neuromechanics moving from bipedal to quadrupedal locomotion. There seemed to be both advantages and disadvantages to both locomotion styles. Moving towards a more upright bipedal style of locomotion shows an increase in the lower spine (sacral motor pool) activity because of the increased and different demands on the musculature however at the potential cost to losing some of the skills and advantages of the lateral and diagonal quadrupedal skills. Naturally, different CPG reorganization is necessary moving towards bipedalism because of these different weight bearing demands on the lower limbs but also due to the change from weight bearing upper limbs to more mobile upper limbs free to not only optimize the speed of bipedalism but also to enable the function of carrying objects during locomotion.

The take home seems to suggest that gait retraining is necessary as is the development of proper early crawling and progressive quadruped locomotor patterns. Both will tax different motor pools within the spine and thus different central pattern generators (CPG). A orchestration of both seems to possibly offer the highest rewards and thus not only should crawling be a part of rehab and training but so should forward, lateral and diagonal pattern quadrupedal movements, on varying inclines for optimal benefits. Certainly I need to do more work on this topic, the research is out there, but correlating the quad and bipedal is limited. I will keep you posted. Be sure to read my 3 part series on Uner Tan Syndrome, here on The Gait Guys blog. Some of today’s blog is rehash of my older writings, naturally I am setting the stage for “Part 2″ of Climbing.

- Dr. Shawn Allen

References:

Shapiro L. J., Raichien D. A. (2005). Lateral sequence walking in infant papio cynocephalus: implications for the evolution of diagonal sequence walking in primates. Am. J. Phys. Anthropol.126, 205–213 10.1002/ajpa.20049

Scand J Med Sci Sports. 2011 Oct;21(5):688-99. Idiosyncratic control of the center of mass in expert climbers. Zampagni ML , Brigadoi S, Schena F, Tosi P, Ivanenko YP

J Neurophysiol. 2012 Jan;107(1):114-25. Features of hand-foot crawling behavior in human adults. Maclellan MJ, Ivanenko YP, Cappellini G, Sylos Labini F, Lacquaniti F.

September 20, 2015 September 20, 2015/ The Gait Guys

Thoughts on the adductor grouping to ponder. I found this while prepping for the dry needling course I am teaching this weekend and thought you may enjoy it. Though the primary actions of the addcutors are well established, secondary actions (whethe… — **Thoughts on the adductor grouping to ponder.**
I found this while prepping for the dry needling course I am teaching this weekend and thought you may enjoy it. Though the primary actions of the addcutors are well established, secondary actions (whether they are acually internal or external rotators) remains to be elucidated.

Here is a nice abstract that supports the dynamic function of them as external rotators (eccentrically) during gait.

“Anatomical texts agree on most muscle actions, with a notable exception being the action of the adductors of the hip in the transverse plane. Some texts list an action of the adductor brevis (AB), adductor longus (AL), and/or adductor magnus (AM) as internal rotation, whereas others list an action of external rotation. The purpose of this article is to present a functional model in support of the action of external rotation. Transverse plane motion of the femur at the hip during normal gait is driven by subtalar joint motion during the loading response, terminal stance, and preswing phases. During the loading response, the subtalar joint pronates, and the talus adducts. This talar adduction results in the lower leg, and subsequently the femur, internally rotating. During terminal stance and preswing, the opposite occurs; the subtalar joint supinates as the talus abducts in response to forces generated from the lower extremity and in the forefoot. Electromyographic (EMG) studies indicate varied activity in the AB, AL, and AM during the loading response, terminal stance, and preswing phases of the gait cycle. A careful analysis of EMG activity and kinematics during gait suggests that, in the transverse plane, the adductors may be eccentrically controlling internal rotation of the femur at the hip during the loading response, rather than the previously reported role as concentric internal rotators. In addition, these muscles may also concentrically produce external rotation of the femur at the hip during terminal stance and preswing. Physical therapists should consider this important function of the hip adductors during gait when evaluating a patient and designing an intervention program. Anatomical texts should consider listing the concentric action of external rotation of the femur at the hip as one action of the AB, AL, and AM, particularly when starting from the anatomic position.”

Leighton RD. A functional model to describe the action of the adductor muscles at the hip in the transverse plane.Physiother Theory Pract. 2006 Nov;22(5):251-62.Leighton RD. A functional model to describe the action of the adductor muscles at the hip in the transverse plane.Physiother Theory Pract. 2006 Nov;22(5):251-62.

September 19, 2015

Podcast 96: Minimalism Shoes, Toe Trauma, Meniscal Impingement.

September 19, 2015/ The Gait Guys

The Minimalist Shoe Index, Pincer toe nails, toe problems, anteromeniscofemoral impingement syndrome and much more on today’s show !

A. Link to our server: http://traffic.libsyn.com/thegaitguys/pod_96f.mp3

Direct Download: http://thegaitguys.libsyn.com/podcast-96

Other Gait Guys stuff

B. iTunes link:
https://itunes.apple.com/us/podcast/the-gait-guys-podcast/id559864138
C. Gait Guys online /download store (National Shoe Fit Certification & more !)
http://store.payloadz.com/results/results.aspx?m=80204
D. other web based Gait Guys lectures:
Monthly lectures at : www.onlinece.com type in Dr. Waerlop or Dr. Allen, ”Biomechanics”

-Our Book: Pedographs and Gait Analysis and Clinical Case Studies
Electronic copies available here:

-Amazon/Kindle:
http://www.amazon.com/Pedographs-Gait-Analysis-Clinical-Studies-ebook/dp/B00AC18M3E

-Barnes and Noble / Nook Reader:
http://www.barnesandnoble.com/w/pedographs-and-gait-analysis-ivo-waerlop-and-shawn-allen/1112754833?ean=9781466953895

https://itunes.apple.com/us/book/pedographs-and-gait-analysis/id554516085?mt=11

-Hardcopy available from our publisher:
http://bookstore.trafford.com/Products/SKU-000155825/Pedographs-and-Gait-Analysis.aspx

Show notes:

1. New Cameras In Japan Can Detect Drunks At Train Stations
http://www.popsci.com/cameras-japan-detect-drunks-train-stations

2. It takes a lot of nerve: Scientists make cells to aid peripheral nerve repair
http://www.medicalnewstoday.com/releases/297854.php
-Scientists at the University of Newcastle, UK, have used a combination of small molecules to turn cells isolated from human skin into Schwann cells

3. The Minimalist Shoe Definition study

http://www.jfootankleres.com/content/8/1/42

A consensus definition and rating scale for minimalist shoes
Jean-Francois Esculier123, Blaise Dubois13, Clermont E. Dionne14, Jean Leblond2 andJean-Sébastien Roy12* http://www.jfootankleres.com/content/8/1/42

modified Delphi study, 42 experts from 11 countries

http://www.jfootankleres.com/content/supplementary/s13047-015-0094-5-s1.pdf

-Results

The following definition of minimalist shoes was agreed upon by 95 % of participants: “Footwear providing minimal interference with the natural movement of the foot due to its high flexibility, low heel to toe drop, weight and stack height, and the absence of motion control and stability devices”. Characteristics to be included in MI were weight, flexibility, heel to toe drop, stack height and motion control/stability devices, each subscale carrying equal weighing (20 %) on final score.

4. CASE:
Ivo: broken toe, prioprioception
this: http://www.ncbi.nlm.nih.gov/pubmed/2245598
and this http://www.ncbi.nlm.nih.gov/pubmed/19955289

5. CASE: anterior meniscofemoral impingment syndrome
http://tmblr.co/ZrRYjx1d8503W

http://thegaitguys.tumblr.com/post/17713779565/anterior-knee-pain-in-a-young-marathon-hopeful

6. Pincer Toe nails:

http://thegaitguys.tumblr.com/post/127638788139/pincher-nails-who-knew-note-there-are-two–

September 17, 2015

Does slowing gait increase gait stability ?

September 17, 2015/ The Gait Guys

As this study suggests, it has been difficult to find studies that establish a clear connection between gait stability and gait speed. One can easily assume that slowing down increases stability, we do it on slippery surfaces, we do it when a joint is painful, even the elderly do it naturally everyday. Walking speed, step length, step frequency, step width, local dynamic stability , and margins of stability were measured in this study below. It was found that the subjects did not change walking speed in response to the balance perturbations rather they made shorter, faster, and wider steps with increasing perturbation intensity. They became locally less stable in response to the perturbations but increased their margins of stability in medio-lateral and backward direction.

So what did they conclude ? Here are their words,“In conclusion, not a lower walking speed, but a combination of decreased step length and increased step frequency and step width seems to be the strategy of choice to cope with medio-lateral balance perturbations, which increases Margins of Stability (MoS) and thus decreases the risk of falling.”

It is my assumption, and this just seems logical, that if the perturbations were to continue constantly, that one would slow the gait speed to reduce the need for these shorter, faster and wider steps.

Dr. Shawn Allen

http://www.ncbi.nlm.nih.gov/pubmed/22464635

Gait Posture. 2012 Jun;36(2):260-4. doi: 10.1016/j.gaitpost.2012.03.005. Epub 2012 Mar 29.Speeding up or slowing down?: Gait adaptations to preserve gait stability in response to balance perturbations.Hak L¹, Houdijk H, Steenbrink F, Mert A, van der Wurff P, Beek PJ, van Dieën JH.

September 09, 2015 September 09, 2015/ The Gait Guys

Unique adaptations to arm swing challenges: the one armed runner. Welcome to Luke Ericson, an amazing athlete and man.

Written By Dr. Shawn Allen

Human gait is cyclical. For the most part, when one limb is engaged on the ground (stance phase), the other is in swing phase. Before I continue, you should recall that there is a brief double limb support phase in walking gait, that which is absent in running gait. Also, I wish to remind you of our time hammered principle that when the foot is on the ground the glutes are heavily in charge, and when the foot is in the air, the abdominals are heavily in charge.

For one to move cleanly and efficiently one would assume that the best way to do that would be to ensure that the lower 2 limbs are capable of doing the exact same things, with the same timing, same skill, same endurance and same strength. This goes for the upper 2 limbs as well, and then of course the synchronizing of the 4 in a cohesive effort. For this clean seamless motor function to occur, one must assume that there would be no injuries that had left a remnant mark on one limb thus encouraging a necessary compensation pattern in that limb (and one that would then have to be negotiated with the opposite limb as well as the contralateral upper or lower limb).

Removing a considerable mass of tissue anywhere in the body is going to change the symmetry of the body and require compensations. One can clearly see the effects of this on this athletes body in the video above. He even eludes to the fact that he has a scoliosis, no surprise there. There is such an unequal mass distribution that there is little way the spine had any chance to remain straight. Not only is this going to change symmetry from a static postural perspective (bulk, weight, fascial plane changes, strength etc) but it will change dynamic postural control, mobility and stability as well as dynamic spinal kinematics. I have talked about this previously in a blog piece I wrote on post-mastectomy clients display changes in spatiotemporal gait parameter such as step length and gait velocity.

-mastectomy post: http://tmblr.co/ZrRYjx1XB8RhO

If you have been with The Gait Guys for more than a year you will know that impairing an arm swing will show altered biomechanics in the opposite lower limb (and furthermore, if you alter one lower limb, you begin a process of altering the biomechanical function and rhythmicity of the opposite leg as well.) You can search the blog for “arm swing part 1 and part 2″ for those dialogues.

Arm swing impairment is a real issue and it is one that is typically far overlooked and misrepresented. The intrinsic effects of altering the body through subtraction of tissue are not all that dissimilar to extrinsic changes into the system from things like walking with a handbag/briefcase, walking with a shoulder bag, walking and running with an ipod or water bottle in one hand. And do not forget other intrinsic problems that affect spinal symmetry, for example consider the changes on the system from scoliosis as in this case. It can cycle back on its own feedback loop into the system, either consciously or unconsciously altering arm swing and thus global body kinematics.

There is a reason that in my practice I often assess and treat contralateral upper and lower limbs as well as to address remnants from old injuries whether they are symptomatic or not. It all comes together for the organism as a concerted effort in optimal locomotion.

Here on TGG, and in dialogues with Ivo on our podcast, I have long talked about phasic and anti-phasic motions of the arms and shoulder-pelvic blocks during gait and locomotion/sport activity. I have written several times about the effects of spine pain and how spine pain clients reduce the anti-phasic rotational (axial) nature of the shoulder girdle and pelvic girdle. In the video above, you can see anything but anti-phasic gait, to be clear, this is a classic representation of a phasic gait. The shoulder block and the pelvic block show little if any counter rotation, they are linked together which is not normal gait. Furthermore, if you look carefully, the timing of the right arm swing is variable and cyclically changing in its timing with the left leg. Look carefully, you will see the cyclical success and failure at the beginning of the video. This is pathologic gait, he must be constantly fighting frontal plane sway because there is no axial anti-phasic motion. He is also constantly fighting the unidirectional rotation that the absence of an entire limb and limb girdle is presenting, you can see him struggle with this if you have looked at enough gait samplings. There is essentially frozen torso movements. Want to see more of our work on arm swing ? search the gait guys blog.

There is so much more here to discuss, so I will likely return to this video another time to delve into those other things on my mind. Luke is an amazing athlete, he gets much respect from me.

I hope this dialogue helps you to get a deeper grip on gait and gait problems. I have written many articles on the topics of arm swing, phasic and anti-phasic gait, central pattern generators. The are all archived here on the blog. I try to write a new original thought-process article each week for the blog amongst the other “aggregator” type stuff we share from other folks social media. My weekly article serves to go deeper into things, sometimes they are well referenced and in this case, I am basing today’s discussion on the referenced work in the other pieces I have written on arm swing, phasic and anti-phasic gait, central pattern generators etc. So please do your readings there before we begin debate or dialogue, which i always welcome !

Dr. Shawn Allen