Does slowing gait increase gait stability ?

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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.

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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

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!!!! Don’t deny it, you are curious, and so are we smile emoticon We are easily distracted by bright shiny things and this one sure has the “wait, what the #$%&@ was that !” factor. Inspired by the oversized tires found on &ldq…

!!!! Don’t deny it, you are curious, and so are we smile emoticon We are easily distracted by bright shiny things and this one sure has the “wait, what the #$%&@ was that !” factor.
Inspired by the oversized tires found on “Fat Bikes”, the Michelin® Wild Gripper outsole welcome to the UnderArmor Fat Tire GTX Trail shoe.
2015 “Outside Gear Of The Show” Winner.
Could be a disaster or an ingenious idea. We hope to get a pair to review and let our brethren here know.

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

Journal of Foot and Ankle Research | Full text | Insertional Achilles tendinopathy is associated with arthritic changes of the posterior calcaneal cartilage: a retrospective study

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Chronic achilles-problem clients, slow or non-responders ?
This study suggested that , “Degenerative arthritic changes of the posterior calcaneal wall cartilage characterize patients with IAT (insertional achilles tendonotpathy) and the severity of such changes is directly correlated to the degree of functional impairment.”
Read up… . .

Podcast 95: Head tilt while squatting or running.

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We have a strong show for you today. Ankle instability from a neurologic perspective, shoe wear, head tilt and the neurologic and functional complications… we also talk about Efferent Copy and motor learning.

A. Link to our server:
http://traffic.libsyn.com/thegaitguys/pod_95final.mp3

Direct Download:  http://thegaitguys.libsyn.com/pod-95

-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:

Human exoskeletons: The Ekso
http://www.thedailybeast.com/articles/2015/08/03/the-mechanical-exoskeleton-shaping-the-future-of-health-care.html

Ankle muscle strength influence on muscle activation during dynamic and static ankle training modalities
http://www.tandfonline.com/doi/abs/10.1080/02640414.2015.1072640?rfr_id=ori%3Arid%3Acrossref.org&url_ver=Z39.88-2003&rfr_dat=cr_pub%3Dpubmed&#.VcYWR-1VhBc

Chronic ankle instability:

http://tmblr.co/ZrRYjx1akudcm

http://tmblr.co/ZrRYjx1ah6ThV

http://thegaitguys.tumblr.com/post/68785250796/just-because-a-muscle-tests-weak-doesnt-mean-it
http://thegaitguys.tumblr.com/post/117109093439/last-week-we-ran-an-archived-piece-named-just

the future of footwear and orthotics ?
http://lermagazine.com/special-section/conference-coverage/the-future-of-footwear-and-orthoses-is-here-now-what

squats- head posture-gait vision-gravity
http://thegaitguys.tumblr.com/search/vision

Music: brain rhythm
http://www.kurzweilai.net/the-brains-got-rhythm

The Minimalist shoe Rating Scale and Definition

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Last year we were two of 42 experts worldwide from 11 countries asked to participate and offer our thoughts in an investigation whose goal it was to come up with a rating scale and definition for minimalist shoes. 

Here is that study: 

A consensus definition and rating scale for minimalist shoes.  Jean-Francois Esculier123, Blaise Dubois13, Clermont E. Dionne14, Jean Leblond2 andJean-Sébastien Roy.   Journal of Foot and Ankle Research 2015, 8:42 

here is a link for that study: http://www.jfootankleres.com/content/8/1/42

This study was performed by very capable and respected folks so you should pay attention. 

Here was their background statement:

“While minimalist running shoes may have an influence on running biomechanics and on the incidence of overuse injuries, the term “minimalist” is currently used without standardisation. The objectives of this study were to reach a consensus on a standard definition of minimalist running shoes, and to develop and validate a rating scale that could be used to determine the degree of minimalism of running shoes, the Minimalist Index (MI).”

We might not do the study justice if we paraphrased the conclusions, so here they are as written,

“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.”

So why is this study important ? Well, it creates a common term, a standardized definition, we can all agree upon which is paramount for clear communication amongst professionals in fields (shoe fitters, shoe fabricators, clinicians and researchers) who are dealing with these types of shoes. This study also create a rating scale that will be meaningful to all users in all related fields, again allowing a common dialogue with standardized meaning. From this study they wisely recommended “the shoe industry use such standardised ratings to orientate the running community when selecting their running shoes”.  

This is an important study, it should be part of your knowledge and vocabulary. You should familiarize yourself to the rating scale. 

Shawn and Ivo, the gait guys

Will Smith's new movie "Concussion" terrifies the NFL. Here's the trailer.

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Gait and Concussions.

The big movie trailer just came out yesterday, click on the link above to watch the trailer for “Concussion” with Will Smith, slated for theater release in December 2015.  Hopefully this will raise even more awareness to TBI (traumatic brain injury), and remember, minimal TBI falls into these categories and discussions.  

Here is just a small sampling of some of the complications of concussions on human gait.  Head injuries are no joke, their effects on dynamic motor control and sensory-motor integration are potentially serious issues.  From the first 4 references that came up on the pubmed search this is what was mentioned:

- “the ability to control and maintain stability in the frontal plane during walking is diminished under divided attention” (1)

- “Adolescents with concussion displayed increased center-of-mass medial/lateral displacement and velocity during dual-task walking after RTA (return to activity), suggesting a regression of recovery in gait balance control. This study reinforces the need for a multifaceted approach to concussion management and continued monitoring beyond the point of clinical recovery.” (2)

- “concussion may have long-term observable and measurable effects on the control of gait stability”(3)

- “persons with a history of concussion adopt a more conservative gait strategy”.(4)

Do you see something strange on  your client’s gait analysis ?  Have you asked them about previous concussions and head injuries? Perhaps you should.  Take mTBI seriously, this is not a trivial matter. 

Dr. Shawn Allen, one of the gait guys

References:

1. Clin Biomech (Bristol, Avon). 2005 May;20(4):389-95. Epub 2005 Jan 28.The effect of divided attention on gait stability following concussion.Parker TM1, Osternig LR, Lee HJ, Donkelaar Pv, Chou LS.

2. Med Sci Sports Exerc. 2015 Apr;47(4):673-80. doi: 10.1249/MSS.0000000000000462.Return to activity after concussion affects dual-task gait balance control recovery.Howell DR1, Osternig LR, Chou LS.

3.Med Sci Sports Exerc. 2006 Jun;38(6):1032-40.Gait stability following concussion.Parker TM1, Osternig LR, VAN Donkelaar P, Chou LS.

4. Arch Phys Med Rehabil. 2011 Apr;92(4):585-9. doi: 10.1016/j.apmr.2010.11.029.The chronic effects of concussion on gait.Martini DN1, Sabin MJ, DePesa SA, Leal EW, Negrete TN, Sosnoff JJ, Broglio SP.

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tumblr_ntnuoif8Tj1qhko2so1_r1_500.jpg
tumblr_ntnuoif8Tj1qhko2so2_r1_1280.jpg

Pincher nails.  Who knew !?

Written by Dr. Shawn Allen

*note: there are two photos here in today’s blog post, look for the side scroll arrows and click on the small box in the upper left corner if you cannot see the photo

 We have seen this one for years in our clinics but we never got around to researching it and pondering the condition more deeply.  Here is our mantra for today, Form follows Function.

Studies seem to be undecided on the cause of this entity. Some suggest that pincer nails are caused by lack of upward mechanical forces on the toe pad where others remark that they can be observed amongst the healthy mechanical walkers. Hitomi’s study suggests that the affected toes fail to receive adequate physical stimulation from proper toe and forefoot loading. Please read on, this gets interesting.

According to Hitomi’s study, in both the barefoot and shod state,

“the pincer nail group had significantly lower pressure on the first toe than the control group. In both the barefoot and shod state, the peak pressure area was mostly the metatarsal head area in the pincer nail group, whereas it was mostly the first toe area in the control group. Binomial logistic regression analysis revealed that peak pressure area was a significant risk factor for pincer nail development.”

This seems to suggest that there is insufficient or aberrant use of downward pressure on the toes and into the toe pads. Hitomi speaks of the locale of the peak pressure, seemingly proposing from this study that it should not be under the metatarsal heads. This, in our experience and thinking, could suggest that more long flexor dominance is present. This long flexor activity seems to create some disfunction not only in the activity of the lumbrical muscles but also altered pressures in the metatarsal (MET) heads.  It certainly alters distal toe pressures which can alter skin and nail responses (see our blog post on subungal hematomas for more on this topic where we discuss principles of counter pressure and shear forces). We try to teach a “spread and reach with long flat toes” approach to our clients in correcting bad habits such as toe hammering and gripping (which are often a result of flawed biomechanics elsewhere).

The nail bed is very rich in vasculature (hence the cause of the dreaded hematoma, the black toenail) and nerve endings.  The nail bed is a derivative of the epidermis containing keratin which gives it its hard nature. The nail consists of the nail plate, the nail fold, the nail matrix, the sterile matrix and the hyponychium. There are many factors that go into the formation of a normal nail, including blood flow, nutrition, local neurogenic factors and not to forget, mechanical loading issues. Failure of any of these issues can lead to softening, brittle, thinning, diseased or malformed nails. The nail grows from a nail root in front of the cuticle and grows distally at a slow but (usually) steady rate.  It is interesting to note that the long extensor tendon (EDL) attachment is close to the proximal nail bed root area thus it brings forward thinking of possible imbalances between long and short flexors and extensor tendons/muscles and their patterns of imbalance in toe gripping and hammering that could cause a change in function which could drive a change in form.  We have all heard it, form follows function, why should this area be any different ?

Hitomi also mentioned something interesting in his study, the observation that bed ridden clients seem to have a predilection to pincer toes.  This at least seems to fit the aberrant loading patterns, in this case an absence of. The study also started some interesting thinking in us when it mentioned a hypothesis,

“that human nails are constitutively equipped with an automatic shrinkage function that allows them to adapt to daily upward mechanical forces.”

This was a fascinating hypothesis to us. It seems to make sense. If constant downward pressure on the toe pads were present, the toe nails would always be undergoing a flattening and spreading response so it could make sense that the nails have a built in curve and shrinkage function offsetting and adapting to the constant distorting pressures (the flattening and spreading forces).  Hence, some possible clarity in Hitomi’s hypothesis that pincer nails are caused by lack of (and in our thinking, distorted) upward mechanical forces on the toe pad.  And, when those distorting pressures are placed elsewhere (ie. the MET heads or tips of the toes as in our subungal hematoma hypothesis) or faulting gripping or hammering loading the automatic shrinkage function is left to dominate.

We think Hitomi’s hypothesis is correct. Here is why (this is paraphrased from our blog post on subungal hematomas and our revolutionary thinking on why they occur and it seems to fit well with pincer nail formation as well).

…  when the skin is pulled at a differential rate over the distal phalange (from gripping of the toes rather than downward pressing through the toe pad) there will be a net lifting response of the nail from its bed as the skin is drawn forward of the backward drawn phalange  (there is a NET movement of skin forward thus lifting the nail from its bedding).  For an at-home example of this, put your hand AND fingers flat on a table top. Now activate JUST your distal long finger flexors so that only the tip of the fingers are in contact with the table top (there will be a small lifting of the fingers). There should be minimal flexion of the distal fingers at this point. Note the spreading and flattening of the nail.  Now, without letting the finger tip-skin contact point move at all from the table, go ahead and increase your long flexor tone/pull fairly aggressively. You are in essence trying to pull the finger backward into flexion while leaving the skin pad in the same place on the table. Feel the pressure building under the distal tip of the finger nail as the skin is RELATIVELY drawn forward.]   This is fat pad and skin being drawn forward (relative to the phalange bone being drawn backward) into the apex of the nail. Could this be magnifying the curvature of the nail and not offsetting the “automatic curving and shrinkage” function of the nail ? We think it is quite possible.

So, there you have it. We will dive deeper on this topic another time, but after reading Hitomi’s study our brain’s started buzzing because we had discussed this process similarly a few years back in our Subungal Hematoma blog post.

And, if you are thinking about chronic repeated ingrown toe nails with this clinical entity, your thoughts are clearly on a logical path.  There is a correlation it seems.

And, as for the horrific metal bar correction you see in the other photo above, this too is new to our eyes.  It seems rather medieval, something one might see in the gallows of yesteryear.  And if that doesn’t curl your hair and make you nauseated, try looking at what this one guy did, a DIY remedy (caution, not for the feint of heart). https://www.mja.com.au/journal/2005/182/4/diy-pincer-nail-repair-brace-yourself

ShawnAllen, one of the gait guys

References:

Foot loading is different in people with and without pincer nails: a case control study  Hitomi Sano1*, Kaori Shionoya2 and Rei Ogawa1  Journal of Foot and Ankle Research 2015, 8:43

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What creates muscle tone, anyway?Not for the timid, here is an excellent , free, full text article on spasticity. More importantly, it is an excellent review on what creates muscle tone and how it is maintained, starting and the spindle and moving c…

What creates muscle tone, anyway?

Not for the timid, here is an excellent , free, full text article on spasticity. More importantly, it is an excellent review on what creates muscle tone and how it is maintained, starting and the spindle and moving centrally.  Think about this the next time you have a patient with mm spasm and you can se things in a whole new light

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3009478/

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Irregular Arm Swing Could Be Early Sign Of Pending neurological disease.Written by Dr. Shawn AllenWe’ve been saying this for quite some time now, the small subtle gait changes are often the first sign of things to come.The attached article suggests …

Irregular Arm Swing Could Be Early Sign Of Pending neurological disease.

Written by Dr. Shawn Allen

We’ve been saying this for quite some time now, the small subtle gait changes are often the first sign of things to come.

The attached article suggests that scientific measurement investigating irregular arm swing during gait could help diagnose the Parkinson’s disease earlier, giving greater opportunity to slow brain cell damage and disease progression.

In the study below Huang suggests that although we all know that classically the Parkinsonian disease is met with tremors, slow movements, stooped posture, rigid muscles, bradykinesia, speech changes etc, “by the time we diagnose the disease, about 50 to 80 percent of the critical cells called dopamine neurons are already dead,”

Previously, here at The Gait Guys, we have gone deep into discussions of arm swing and the phasic and anti-phasic natures of limb action in gait and how the four limbs interact neurologically, both centrally and peripherally. You can click here for just a sampling of our “arm swing” writings,   

In the study, because arm swing changes are one of the first gait parameters to diminish and decline, and because the decline is typically asymmetrical due to the fact that the disease is an asymmetrical one, the authors compared arm swing magnitude and asymmetry in patients with and without Parkinson’s as parameters to begin the assessments.  Most research to date has commented on the early loss of arm pendular swing but as they said here, “ but nobody had looked using a scientifically measured approach to see if the loss was asymmetrical or when this asymmetry first showed up,“ explained Huang.

What they discovered was that compared to the control group, “the Parkinson’s group showed significantly greater asymmetry in their arm swing (one arm swung significantly less than the other while walking),” and when the subjects walked faster, the arm swing increased but the amount of asymmetry remained unchanged.

On a slightly different tangent of thinking, an aside from the Parkinson’s disease disucussion, how truly sensitive is this limb swing thing you might ask ? Here, read this from this piece (How injury and pain reorganize the brain) we wrote a few years ago.

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

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

If you know your literature on this topic of arm swing symmetry, you know it is an arguable point.  According to the Lathrop-Lambach study (see link in the article just mentioned above), they mentioned that they feel a 10% baseline asymmetry is the norm.  This symmetry issue is an arguable point that no one is likely to ever win.  We tend to feel, as many others do, that asymmetry can be a major component and predictor to injury, and in today’s topic of discussion a possible determinant of higher level gait disease. 

Still think you should retrain arm swing ? Dive into our blog archives here on arm swing, you will find out that perhaps it is not your best first choice. Discover from our old writings who tends to dictate how much arm swing occurs. 

Shawn Allen, one of the gait guys

References:

http://www.medicalnewstoday.com/articles/173680.php

“Arm swing magnitude and asymmetry during gait in the early stages of Parkinson’s disease.”
Michael D Lewek, Roxanne Poole, Julia Johnson, Omar Halawa, Xuemei Huang
Gait & Posture, 2009, In Press, Corrected Proof, Available online 27 November 2009  DOI:10.1016/j.gaitpost.2009.10.013

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Does gait (re)training alter peoples biomechanics? You bet it does! Should we be retraining peoples gait? We like to think, yes. What do you think?“Overall, this systematic review shows that many biomechanical parameters can be altered by runn…

Does gait (re)training alter peoples biomechanics? 

You bet it does! Should we be retraining peoples gait? We like to think, yes. What do you think?

“Overall, this systematic review shows that many biomechanical parameters can be altered by running modification training programmes. These interventions result in short term small to large effects on kinetic, kinematic and spatiotemporal outcomes during running. In general, runners tend to employ a distal strategy of gait modification unless given specific cues. The most effective strategy for reducing high-risk factors for running-related injury-such as impact loading-was through real-time feedback of kinetics and/or kinematics.’

Br J Sports Med. 2015 Jun 23. pii: bjsports-2014-094393. doi: 10.1136/bjsports-2014-094393. [Epub ahead of print]
Gait modifications to change lower extremity gait biomechanics in runners: a systematic review.
Napier C1, Cochrane CK1, Taunton JE2, Hunt MA1.

Development of the arch: Functional implications | Lower Extremity Review Magazine

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A nice, referenced piece from one of our fav’s, Dr Michaud.

“Although early research suggested a limited connection between arch height and lower extremity function, more recent research confirms that arch height does indeed affect function. Information obtained from measurements that accurately identify the height of the medial longitudinal arch may lead to more effective treatment protocols. By identifying specific injuries associated with low and high arches, it may also be possible to prevent these injuries.”

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Reciprocal Inhibition anyone? Thanks to The Manual Therapist (Erson Religioso) for this great post.

What they are doing here is taking advantage of what Sherrington know many years ago. Activating a muscle (agonist for a movement) will inhibit the muscle with the opposite action (antagonist for a movement), through a disynaptic, post synaptic pathway. It is a great way to gain additional movement and remove or reduce muscular inhibition. Try it!

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Patello femoral pain? Thinking weak VMO? Think again…“Atrophy of all portions of the quadriceps muscles is present in the affected limb of people with unilateral PFP. There wasn’t any atrophy of the quadriceps in individuals with …

Patello femoral pain? Thinking weak VMO? Think again…

“Atrophy of all portions of the quadriceps muscles is present in the affected limb of people with unilateral PFP. There wasn’t any atrophy of the quadriceps in individuals with PFP compared to those without pathology. Selective atrophy of the VMO relative to the vastus lateralis wasn’t identified in persons with PFP.”

http://www.physiospot.com/research/atrophy-of-the-quadriceps-is-not-isolated-to-the-vastus-medialis-oblique-in-individuals-with-patellofemoral-pain/

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Your gait and peripheral vision: Part 2. There is more to it than what you do/don’t see.Written by Dr. Shawn AllenYesterday we did a blog post on the loss of peripheral vision from drooping eye lids leading to the necessity (not vanity based) of a m…

Your gait and peripheral vision: Part 2. There is more to it than what you do/don’t see.

Written by Dr. Shawn Allen

Yesterday we did a blog post on the loss of peripheral vision from drooping eye lids leading to the necessity (not vanity based) of a minor surgical procedure called a blepharoplasty.  Here was that blog post (link), it had some important research based points you need to know.

Vision is typically the predominant sensory system used for guiding locomotion. Online visual control is critical for adjusting lower limb trajectory and ensuring proper foot placement, including optimal limb/foot crossing velocity, optimal trail-foot horizontal distance and lead-toe clearance. Research suggests that peripheral visual cues play a large role in this online gait control. 1

We have discussed many of these issues, the conscious and subconscious importance of vision on human gait, in many of our blog posts over time.  Namely, blog posts on dual-tasking attention, negotiating stairs, and even in tandem walking holding hands. These all require a degree of peripheral vision function otherwise gait problems, including falls, rise on the risk list.

According to Timmis and Buckley (2), “although gaze during adaptive gait involving obstacle crossing is typically directed two or more steps ahead, visual information of the swinging lower-limb and its relative position in the environment (termed visual exproprioception) is available in the lower visual field (lvf).”  Their study determined exactly when lvf exproprioceptive information is utilized to control/update lead-limb swing trajectory during obstacle negotiation. 

Their study determined that “when (the) lower visual field (lvf) was occluded, foot-placement distance and toe-clearance became significantly increased; which is consistent with previous work that likewise used continuous lvf occlusion”. Their findings suggest that “ lvf (exproprioceptive) input is typically used in an online manner to control/update final foot-placement, and that without such control, uncertainty regarding foot placement causes toe-clearance to be increased. Also that lvf input is not normally exploited in an online manner to update toe-clearance during crossing: which is contrary to what previous research has suggested.” 2

Elliot and Buckley (3) showed the importance of peripheral visual cues in the control of minimum-foot-clearance during overground locomotion. In their study, 

From their abstract: “eleven subjects walked at their natural speed whilst wearing goggles providing four different visual conditions: upper occlusion, lower occlusion, circumferential-peripheral occlusion and full vision. Results showed that under circumferential-peripheral occlusion, subjects were more cautious and increased minimum-foot-clearance and decreased walking speed and step length. The minimum-foot-clearance increase can be interpreted as a motor control strategy aiming to safely clear the ground when online visual exproprioceptive cues from the body are not available. The lack of minimum-foot-clearance increase in lower occlusion suggests that the view of a clear pathway from beyond two steps combined with visual exproprioception and optic flow in the upper field were adequate to guide gait. A suggested accompanying safety strategy of reducing the amount of variability of minimum-foot-clearance under circumferential-peripheral occlusion conditions was not found, likely due to the lack of online visual exproprioceptive cues provided by the peripheral visual field for fine-tuning foot trajectory.”

These appear to be important studies on the effects of vision and peripheral vision and proprioceptive cues.  How we move our bodies depends much on visual cues, the ones we know we see, and the ones we are unaware that we “see”. Take this to the next level, imagine how the blind must adapt to gait without these cues. That is gait topic we will save for another time.

So, the gait analysis you are doing with your runners, your athletes, your clients takes into consideration their vision right ? Hmmmm, some how we just know that many gait gurus just sat back in their chairs and let out a long exhale. We go even more rogue in podcast 95 when we discuss head tilt and the vestibular system, we know that one is almost always overlooked. Another long exhale we presume.

Shawn Allen … .  one of the gait guys

References:

1. Exerc Sport Sci Rev. 2008 Jul;36(3):145-51. doi: 10.1097/JES.0b013e31817bff72.Role of peripheral visual cues in online visual guidance of locomotion. Marigold DS1.

2.Gait Posture. 2012 May;36(1):160-2. doi: 10.1016/j.gaitpost.2012.02.008. Epub 2012 Mar 17.Obstacle crossing during locomotion: visual exproprioceptive information is used in an online mode to update foot placement before the obstacle but not swing trajectory over it.Timmis MA1, Buckley JG.

3. Gait Posture. 2009 Oct;30(3):370-4. doi: 10.1016/j.gaitpost.2009.06.011. Epub 2009 Jul 22.Peripheral visual cues affect minimum-foot-clearance during overground locomotion.Graci V1, Elliott DB, Buckley JG.

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“I keep walking into doorframes,” : A visual aspect of problematic gait you likely have not considered.Written by Dr. Shawn AllenRecently i had an elderly client come in to see me, we were working on some arthritic knee problems post-total knee arth…

“I keep walking into doorframes,” : A visual aspect of problematic gait you likely have not considered.

Written by Dr. Shawn Allen

Recently i had an elderly client come in to see me, we were working on some arthritic knee problems post-total knee arthroplasty. He mentioned to me that he recently had eye surgery because he was having some gait difficulties. My brain immediately when into age related gait decline, you know, balance kind of stuff.  He mentioned that he was banging into door frames because he was not clearing the sides of the door frames and was also banging up his knees, ankles, thighs and toes on many other things.  He said he had been getting anxious about his gait and thought he might be experiencing some kind of neurologic gait problem. He wasn’t trusting his gait, he feared leaving his house. He happened to mention it to his eye doctor a few months ago and here is what he told him .  

“Your upper eye lids are drooping so much that they are obliterating your peripheral vision. You can’t avoid banging into things that you cannot see. Your peripheral vision is imperative for normal safe gait.”

Drooping eyelids are an inevitable effect of getting older, but the sagging eyelids can impair peripheral vision and magnify gait risks. The procedure known as a blepharoplasty is a simple procedure performed on the upper eyelid when the lid drops down and creates a lateral blind or fold blocking out the lateral eye fields. When looking to the extremes of lateral gaze or depending on peripheral vision this fold blocks the lateral field on the affected eye while the bridge of the nose blocks the same lateral field of the other eye. Effectively, the lateral gaze and peripheral vision becomes progressively narrowed. 

Watch the gait of your elderly clients. Observe how they move about your office, around furniture, tables, door frames. Ask if their gait is uncertain. Ask if they are running into things for no apparent reason.  Think about this next time you are walking in close proximity of the elderly, just because you see them in your peripheral vision, does not mean they can see you.  Remember, their balance and stability is likely not what yours is, it might not take much to knock them over for what appears to be little reason at all.

From the Graci study: 

“However, under CPO conditions (circumferential peripheral visual field occlusion), the doorframe led to a further reduction in crossing velocity and increase in trail-foot horizontal distance and lead-toe clearance, which may have been because of concerns about hitting the doorframe with the head and/or upper body.”

From their conclusions, “exteroceptive cues are provided by the central visual field and are used in a feed-forward manner to plan the gait adaptations required to safely negotiate an obstacle, whereas exproprioceptive information is provided by the peripheral visual field and used online to “fine tune” adaptive gait. The loss of the upper and lower peripheral visual fields together had a greater effect on adaptive gait compared with the loss of the lower visual field alone, likely because of the absence of lamellar flow visual cues used to control egomotion.”

Shawn Allen, one of the gait guys.

1. Optom Vis Sci. 2010 Jan;87(1):21-7. doi: 10.1097/OPX.0b013e3181c1d547.Utility of peripheral visual cues in planning and controlling adaptive gait.Graci V1, Elliott DB, Buckley JG.

2. http://abcnews.go.com/blogs/health/2013/05/31/eye-lifts-fine-line-between-cosmetic-and-therapeutic/

Podcast 94: The Shoe & Motor Control Podcast

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Shoes, Minimalism, Maximalism, Motor fatigue, Brain stuff and more !

A. Link to our server:
http://traffic.libsyn.com/thegaitguys/pod_94final.mp3

Direct Download:  http://thegaitguys.libsyn.com/podcast-94

-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:

movement and brain function; based on your piece: http://www.vancouversun.com/touch/story.html?id=11237102\

shoe fit:
http://running.competitor.com/2015/07/shoes-and-gear/sole-man-the-pros-and-cons-of-buying-cheap-running-shoes_129297

http://www.runresearchjunkie.com/relevant-gems-from-the-2015-footwear-biomechanics-symposium/

Clin Biomech (Bristol, Avon). 2006 Dec;21(10):1090-7. Epub 2006 Sep 1.

The effect of lower extremity fatigue on shock attenuation during single-leg landing.

Coventry E1, O'Connor KM, Hart BA, Earl JE, Ebersole KT.

Dr. Ted Carrick podcast

http://thewellnesscouch.com/bc/bc-07-professor-frederick-ted-carrick-on-the-past-of-functional-neurology

https://itunes.apple.com/au/podcast/backchat/id972497993?mt=2

movement patterns talk: http://www.anatomy-physiotherapy.com/28-systems/musculoskeletal/lower-extremity/knee/1191-altered-movement-patterns-in-individuals-with-acl-rupture

http://lermagazine.com/issues/june/balance-data-suggest-somatosensory-benefit-of-minimalist-footwear-design
Wilson SJ, Chander H, Morris CE, et al. Alternative footwear’s influence on static balance following a one-mile walk. Med Sci Sports Exerc 2015;46(5 Suppl);S562.

http://lermagazine.com/issues/june/running-shoe-reveal-study-links-max-cushioning-higher-load

movement patterns talk: http://www.anatomy-physiotherapy.com/28-systems/musculoskeletal/lower-extremity/knee/1191-altered-movement-patterns-in-individuals-with-acl-rupture

If you plan to live that long, you better start thinking about preservation:
http://www.cnbc.com/id/102730128  

Music piece/ Bass players:
http://mentalfloss.com/article/64955/science-proves-supreme-power-bassists