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Look carefully at the graphs. Flip flops seem to allow for less peak dorsiflexion of the foot (plantar flexion needed to hold the flip flop on?) and more inversion and eversion of the foot. Makes sense since there is no heel counter to stopthe calca…

Look carefully at the graphs. Flip flops seem to allow for less peak dorsiflexion of the foot (plantar flexion needed to hold the flip flop on?) and more inversion and eversion of the foot. Makes sense since there is no heel counter to stopthe calcaneus from inverting or everting. 

“The results from this study indicate that barefoot, flip-flops and sandals produced different peak GRF variables and ankle moment compared to shoes while all footwear yield different COP and ankle and knee kinematics compared to barefoot.”

J Foot Ankle Res. 2013 Nov 6;6(1):45. doi: 10.1186/1757-1146-6-45.

A comparison of gait biomechanics of flip-flops, sandals, barefoot and shoes.

Zhang XPaquette MRZhang S1.

http://www.ncbi.nlm.nih.gov/pubmed/24196492

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Trying to strengthen the gluteus medius? Using clamshells? That may not be such a great idea. 

“Conclusions:

The ABD exercise is preferred if targeted activation of the GMed is a goal. Activation of the other muscles in the ABD-ER and CLAM exercises exceeded that of GMed, which might indicate the exercises are less appropriate when the primary goal is the GMed activation and strengthening.”

J Athl Train. 2012 Jan-Feb; 47(1): 15–23.
Hip Muscle Activity During 3 Side-Lying Hip-Strengthening Exercises in Distance Runners
Joseph M. McBeth, MS, ATC,* Jennifer E. Earl-Boehm, PhD, ATC,† Stephen C. Cobb, PhD, ATC,† and Wendy E. Huddleston, PhD, PT‡
Commentary from our Social media sites:
  • I have done a side-lying leg lift with my heel against a wall for a more effective glute med exercise. IMHO, I think clamshells can work if your hip position is good (balancing on the isis), squeeze thrust at the end of the motion - the problem is, it is really easy to revert to a compensation pattern & rely on the tfl to accomplish the move.
  • The Gait Guys We have not used that one. We usually do weight bearing, 1 legged balance work and mini squats
  • The Gait Guys remember the g med is paired with the contralateral QL. Is she firing there? How does she do with fewer reps/ longer hold times to build endurance?
  • Andy: I’ve been saying this for years - move away from concentric activation in non functional positions and move towards strengthening muscles how they work in function - for runners loading the glute med eccentrically in an upright position makes far more sense.
  • Reader: Interesting. I use window wipers. Basically clamshells with hip extension so that your heel is pressed against a wall. Gmed takes on a stabilizing role and an active role as the primary mover.
  • Found this little video a long time ago and have been using it ever since. https://www.youtube.com/watch?v=K7y_TnADXS4
Killer Gluteus Medius Exercise
this one is called windshield wipers and will really blast your glute med and work glute max and…
  • Reader: The glute med is a low load stability muscle. It does not respond to classic high load strengthening exercises. It makes sense that as you increase the load on the glute med the outer moving muscles take over at the expense of the Glute med reinforcing the faulty movement pattern you are trying to correct.
  • Reader: In terms of gait, why is activating the G-Med important? Does the G-Med control internal rotation of the femur, or does it contribute to external rotation of the femur?
  • The Gait Guys It maintains pelvic stability during stance phase.
Hip muscle activity during 3 side-lying hip-strengthening exercises… -…
  • Reader: I have done a side-lying leg lift with my heel against a wall for a more effective glute med exercise. IMHO, I think clamshells can work if your hip position is good (balancing on the isis), squeeze thrust at the end of the motion - the problem is, it is really easy to revert to a compensation pattern & rely on the tfl to accomplish the move.
  • The Gait Guys: We have not used that one. We usually do weight bearing, 1 legged balance work and mini squats
  • The Gait Guys remember the g med is paired with the contralateral QL. Is she firing there? How does she do with fewer reps/ longer hold times to build endurance?
  • Reader: I’ve been saying this for years - move away from concentric activation in non functional positions and move towards strengthening muscles how they work in function - for runners loading the glute med eccentrically in an upright position makes far more sense.
  • Reader: Ive always had a hard time understanding how one can transfer clamshells to functional movement. 
  • Reader: I’ve heard people say that the clamshells get the muscle firing again so it can then be integrated into regular functional patterns, but it never made sense.
  • Andy:Totally agree - I wrote this article 5 years ago which may be of interest http://www.mile27.com.au/strengthening-your-gluteus…/
  • The point is to establish the ability to activate the glute med in isolation. Once that is achieved then one can begin functional exercises to continue to improve glute med function.
  • Reader: Thanks for sharing. I’ve seen and experienced remarkable resolution of patellofemoral syndrome symptoms using functional squat and lunge exercises (a la P90X3, but with great attention to proper form over ROM or reps) that strengthened the glutes far out of proportion to the quadriceps. For sidelying I recommend folks keep the thigh in line with their trunk (i.e., in slight hip extension) as clinically this seems to activate glut med most effectively while preventing hip flexor substitution. Glad there is now evidence demonstrating this.
Reader: To start an activation of Glut med I like this one too - static, but functional (for the standing side, not the flexed one!!)http://www.damiangriffin.org/rehab/stage1/vmowall.htm
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We have talked about the muscles being “turned off” when there is joint effusion or injury. But what happens to the motor system that drives the muscles (ie the cortex)? It seems the brain actually becomes MORE excited and it contributes…

We have talked about the muscles being “turned off” when there is joint effusion or injury. But what happens to the motor system that drives the muscles (ie the cortex)? 

It seems the brain actually becomes MORE excited and it contributes little, if any to the “muscle inhibition” that is occurring in the injured or swollen joint (ie; it is a spinal cord segmental reflex). 

Take home message? 

When a joint is injured, the muscles crossing the joint become “turned off” (or defacilitated/weak) when the joint is swollen 

The “turing off” that occurs is a local or spinal segmental (read spinal cord) phenomenon. This is great because we all work with these reflexes on a daily basis

The lack of muscle activity appears due to decreased inhibition (which causes increased excitation) of the cortex. So the brain is working hard to figure out a way around the problem!

“The results of this study provide no evidence for a supraspinal contribution to quadriceps Arthrogenic Muscle Inhibition. Paradoxically, but consistent with previous observations in patients with chronic knee joint pathology, quadriceps corticomotor excitability increased after experimental knee joint effusion. The increase in quadriceps corticomotor excitability may be at least partly mediated by a decrease in gamma-aminobutyric acid (GABA)-ergic inhibition within the motor cortex.”

Arthritis Res Ther. 2014 Dec 10;16(6):502. [Epub ahead of print]

Quadriceps arthrogenic muscle inhibition: the effects of experimental knee joint effusion on motor cortex excitability.

Rice DMcNair PLewis GDalbeth N.


http://www.ncbi.nlm.nih.gov/pubmed/25497133

The Gait Guys: The National Shoe Fit Certification program.

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Do not take our word for it … . see what these experts in their fields think about our online certification course.

http://twinbridgesphysiotherapy.com/course-reviews/the-national-shoe-fit-certification-the-gait-guys/

Can there be a higher recommendation for our National Shoe Fit certification program ? Thank you Dr. Religioso ! We are grateful for your amazing work on your end ! 
http://www.themanualtherapist.com/2014/08/review-shoe-fit-course-via-gait-guys.html

More on the the peroneus:

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It seems that too much of a good thing (ie pronation or supination) slows down the peroneus. A slower contraction time as the foot moves from midstance to terminal stance (when the peroneus longus contracts to assist in descending the 1st ray) appears to biomechanical consuquences…

“RESULTS: Participants with pronated or supinated foot structures had slower peroneus longus reaction times than participants with neutral feet (P = .01 and P = .04, respectively). We found no differences for the tibialis anterior or gluteus medius.

CONCLUSIONS: Foot structure influenced peroneus longus reaction time. Further research is required to establish the consequences of slower peroneal reaction times in pronated and supinated foot structures. Researchers investigating lower limb muscle reaction time should control for foot structure because it may influence results.”

J Athl Train. 2013 May-Jun;48(3):326-30. doi: 10.4085/1062-6050-48.2.15. Epub 2013 Feb 20.
Foot structure and muscle reaction time to a simulated ankle sprain.
Denyer JR1, Hewitt NL, Mitchell AC.

#gait
#thegaitguys

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Thinking on your feet. You have less than 20 minutes with this gentleman, as he has to leave to catch a plane. See how you did. 

Lateral foot pain and cowboy boots?

A 55 YO male patient presents with pain in his left foot area of the cuboid and tail of the fifth metatarsal.  He was told that he had a “locked cuboid” on this side by his chiropractor, who provided some treatment and temporary relief. There has been  no history of trauma and Most recently, he has been wearing cowboy boots and doing “a lot of walking” particularly when he was over in Europe and feels this was a precipitating factor.

Watching him walk in his cowboy boots, the rear foot and heel plate of the cowboy boot is worn into varus. Gait evaluation reveals his left foot to remain in supination (and thus in varus) throughout the entire gait cycle. 

Examination of the foot revealed loss of long axis extension at the metatarsophalangeal and interphalangeal articulations. The cuboid appeared to be moving appropriately. (to see why cuboid function is integral, see this post here. ) There was weakness in the peroneus brevis and peroneus longus musculature with reactive trigger points in the belly of each.  There is tenderness over the tail of the fifth metatarsal and the groove where the peroneal muscle travels through as well as in the peroneal tendon as it travels through here. 

So, what’s up?

This patient has peroneal tendonitis at the point around the foot as it goes around the tail of the fifth metatarsal. Discomfort is dull and achy in this area.  The cowboy boot is putting his foot in some degree of supination (plantar flexion, inversion adduction); this combined with the rear foot varus (from wear on the heel) is creating excessive load on the peroneus longus, which is trying to descend the 1st ray and create a stable medial tripod. Look at the pictures above and check out this post here

What did we do?

Temporarily, we created a valgus post on an insole for him.  This will push him onto his 1st metatarsal as he goes through  midstance into termiinal stance. He was asked to discontinue using the boot until we could get the heel resoled with a very slight valgus cant. We also treated with neuromuscular acupuncture over the peroneal group (GB 34, GB 35, GB 36 and a few Ashi points between GB34 and 35) circle the Dragon about the tail of fifth metatarsal, GB41 as well as the insertion of peroneus onto the base of the first metatarsal (approximately SP4).   We K-taped the peroneus longus to facilitate function of peroneus longus.  He was given peroneus longus (plantarflexion and eversion) and peroneus brevis (dorsiflexion and eversion) theraband exercises. 

How did you do? Easy peasy, right? If they were all only this straight forward….

 

The Gait Guys. teaching you to think on your feet and increasing your gait literacy with each and every post. 

 

Foot Clearance: We don't think about it until we are face down in the mud, and we have all been there.

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How many times have you tripped over something so small and insignificant you can barely believe it ? We have all tripped over a small elevation in a cracked sidewalk or a curled up rug corner.  But sometimes we look back and there is no evidence of a culprit, not even a Hobbit or an elf.  How can this happen ?
Minimum foot clearance (MFC) is defined as the minimum vertical distance between the lowest point of the foot of the swing leg and the walking surface during the swing phase of the gait cycle. In other simpler words, the minimum height all parts of the foot need to clear the ground to progress through the swing phase of the limb without contacting the ground. One could justify that getting as close to this minimal amount without catching the foot is most mechanically advantageous.  But, how close to vulnerability are you willing to get ? And as you age, do you even want to enter the danger zone ? Obviously, insufficient clearance is linked to tripping and falling, which is most concerning in the elderly. 
Trips or falls from insufficient foot clearance can be related to insufficient hallux and toe(s) dorsiflexion (extension), ankle dorsiflexion, knee flexion and/or hip flexion, failure to maintain ipsilateral pelvis neutral ( anterior/posterior pelvis posture shifting), even insufficient hip hike generated by the contralateral hip abductors, namely the gluteus medius in most people’s minds. It can also be from an obvious failed concerted effort of all of the above. Note that some of these biomechanical events are sagittal and some are frontal plane.  However, do not ever forget that the swing leg is moving through the axial plane, supported in part by the abdominal wall, starting from a posteriorly obliqued pelvis at swing initiation into an anteriorly obliqued position at terminal swing. We would be remiss as well if we did not ask the reader to consider the “inverted pendulum theory” effect of controlling the dynamically moving torso over the fixed stance phase leg (yes, we could have said “core stability” but that is so flippantly used these days that many lose appreciation for really what is happening dynamically in human locomotion).  If each component is even slightly insufficient, a summation can lead to failed foot clearance.  This is why a total body examination is necessary, every time, and its why the exclusive use of video gait analysis alone will fail every time in finding the culprit(s). 
When we examine people we all tend to look for biomechanical issues unless one grasps the greater global picture of how the body must work as a whole. When one trips we first tend to look for an external source as the cause such as a turned up rug or an object, but there are plentiful internal causes as well. For example, we have this blog post on people tripping on subway stairs.  In this case, there was a change in the perceptual height of the stairs because of a subconscious, learned and engaged sensory-motor behavior of prior steps upward.  However, do not discount direct, peripheral and lower fields of view vision changes or challenges when it comes to trips and falls. Do not forget to consider vestibular components, illumination and gait speed variables as well.  Even the most subtle change in the environment (transitions from tile to carpet, transitions from treadmill to ground walking etc) can cause a trip or fall if it is subtle enough to avoid detection, especially if one is skirting the edge of MFC (minimal foot clearance) already. And, remember this, gait has components of both anticipatory and reactive adjustments, any sensory-motor adaptive changes that impair the speed, calculation and timely integration of these adjustments can change gait behaviors. Sometimes even perceived fall or trip risk in a client can easily slip them into a shorter step/stride length to encourage less single leg stance phase and more double support phase gait. This occurs often in the elderly. This can be met with a reduced minimal foot clearance by design which in itself can increase risk, especially at the moment of transition from a larger step length to a shorter one. Understanding all age-related and non-age related effects on lower limb trajectory variables as described above and only help the clinician become more competent in gait analysis of your client and in understanding the critical variables that are challenging them. 
Many studies indicate that variability and consistency in a motor pattern such as those necessary for foot clearance are huge keys for predictable patterns and injury prevention, and in this case a predictor for trips and falls.  Barrett’s study concluded that “greater MFC variability was observed in older compared to younger adults and older fallers compared to older non-fallers in the majority of studies. Greater MFC variability may contribute to increased risk of trips and associated falls in older compared to young adults and older fallers compared to older non-fallers.”
Once again we outline our mission, to enlighten everyone into the complexities of gait and how gait is all encompassing.  There are so many variables to gait, many of which will never be noted, detected or reflected on a gait analysis and a camera.  Don’t be a minimalist when it comes to evaluating your client’s gait, simply using a treadmill, a camera and some elaborate computer software are not often going to cut the mustard when it really counts.  A knowledgeable and engaged brain are arguably your best gait analysis tools.  
Remember, what you see in someone’s gait is not their problem, it is their adaptive strategy(s).  That is all you are seeing on your camera and computer screen, compensations, not the source of the problem(s).
Shawn and Ivo
the gait guys

References (some of them): 

1. Gait Posture. 2010 Oct;32(4):429-35. doi: 10.1016/j.gaitpost.2010.07.010. Epub 2010 Aug 7.

A systematic review of the effect of ageing and falls history on minimum foot clearance characteristics during level walking. Barrett RS1, Mills PM, Begg RK.

2. Gait Posture. 2007 Feb;25(2):191-8. Epub 2006 May 4. Minimum foot clearance during walking: strategies for the minimisation of trip-related falls. Begg R1, Best R, Dell’Oro L, Taylor S.

3. Clin Biomech (Bristol, Avon). 2011 Nov;26(9):962-8. doi: 10.1016/j.clinbiomech.2011.05.013. Epub 2011 Jun 29. Ageing and limb dominance effects on foot-ground clearance during treadmill and overground walking. Nagano H1, Begg RK, Sparrow WA, Taylor S.

4. Acta Bioeng Biomech. 2014;16(1):3-9. Differences in gait pattern between the elderly and the young during level walking under low illumination. Choi JS, Kang DW, Shin YH, Tack GR.
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When the big guy heads medially….Game Changer

Lately we have been seeing a lot of bunions (hallux valgus). While doing some research on intermetatarsal angles (that’s for another post) we came across the nifty diagram you see above. 

Regardless of the cause, as the 1st metatarsal moves medially, there are biomechanical consequences. Lets look at each in turn. 

  • the EHB (extensor hallucis brevis) axis shifts medially. this muscle, normally an extensor of the proximal phalanyx, now becomes more of an abductor of the hallux. It’s secondary action of assisting the descent of the head of the 1st metatarsal no longer happens and it actually moves the base of the proximal phalanyx posteriorly, altering the axis of centration of the joint, contributing to a lack of dorsiflexion of the joint and a hallux limitus
  • Abductor hallucis becomes more of a flexor, as it moves to the plantar surface of the foot. Remember, a large percentage of people already have this muscle inserting more on the plantar surface of the foot (along with the medial aspect of the flexor hallucis brevis), so in these folks, it moves even more laterally, distorting the proximal phalanx along its long axis (ie medially) see this post here for more info
  • Flexor hallucis brevis moves more laterally. Remember this muscle houses the sesamoid bones before inserting onto the base of the proximal phalannx; the medial blending with the abductor hallucis and the lateral with the adductor hallucis. Because the sesamoid bones have moved laterally, they no longer afford this muscle the mechanical advantage they did previously and the axis of motion of the 1st metatarsal phalangeal joint moves dorsally and posterior, contributing to limited dorsiflexion of that joint and a resultant hallux limitis. The lateral movement of the sesamoids also tips the long axis of the 1st metatarsal and proximal phalanyx into eversion. In addition, the metatarsal head is exposed and is subject to the ground reactive forces normally tranmittted through the sesamoids; often leading to metatarsalgia. 
  • Adductor hallucis: this muscle now has a greater mechanical advantage  and because the head of the 1st ray is not anchored, acts to abduct the hallux to a greater degree. The now everted position of the hallux contributes to this as well

As you can see, there is more to the whole than the sum of the parts. Bunions have many biomechanical consequences, and these are only a small part of the big picture. Take you time, learn your anatomy and examine everything that has a foot!

See you in the shoe isle…

Ivo and Shawn

pictures from: http://www.orthobullets.com/foot-and-ankle/7008/hallux-valgus and http://www.stepbystepfootcare.com/faqs/nakedfeet/

Why you should follow us on social media. Not just here on our blog.

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Hi Gang. 

This is a quick note note to those NOT following us on social media (mainly Facebook or Twitter).  To those already following our work there, you already know about the daily stuff we are putting up such as current research summaries etc. This is for those blog followers here who are not tapping into all we are doing for you elsewhere on social media.

So, for those who refuse to follow us on the evil Facebook, twitter is the place to find these daily valuable tidbits  (@thegaitguys). And for those who do not care about going over to the dark side, here is our Facebook address.

https://www.facebook.com/pages/The-Gait-Guys/169366033103080?ref=hl

Don’t miss these daily tidbits. We offer you our summary thoughts on no less than 6, sometimes up to 10 research summaries. Come follow us !  It’s free after all !

Podcast 88: interpreting Shoe Wear patterns & Running Surface Effects

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Show sponsors:
www.newbalancechicago.com

Plus: Biometrics in Pro Sports, Epigenetics and How Exercise changes our DNA, Hip Dysplasia,, Pavlik harnesses.

We hope you find today’s show helpful. Remember, we don’t know everything, and we do not expect everyone else to know everything either. We are just bringing our logic and knowledge and hopefully truth to the web … . . Please, Correct us when we are sharing inaccuracies, as we try to do the same. There is alot of misguided info on the web and in the wrong hands, people can get hurt … . we feel we are doing our part to carve a safe path. But, when we go astray, please our dear brethren……call us out on it ! We insist. -Shawn and Ivo

Other Gait Guys stuff

Download links:

A. http://traffic.libsyn.com/thegaitguys/pod_88_solid.mp3

B. http://thegaitguys.libsyn.com/podcast-88

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

Gait Guys online /download store (National Shoe Fit Certification and more !) :
http://store.payloadz.com/results/results.aspx?m=80204

other web based Gait Guys lectures:
Monthly lectures at : www.onlinece.com   type in Dr. Waerlop or Dr. Allen,  ”Biomechanics”

Show notes:

New biometric tests invade the NBA
http://espn.go.com/nba/story/_/id/11629773/new-nba-biometric-testing-less-michael-lewis-more-george-orwell

How Exercise Changes Our DNA
http://well.blogs.nytimes.com/2014/12/17/how-exercise-changes-our-dna/

An integrative analysis reveals coordinated reprogramming of the epigenome and the transcriptome in human skeletal muscle after training. Lindholm ME
Epigenetics. 2014 Dec 7:0. [Epub ahead of print]

Hip Dysplasia
http://journals.lww.com/pedorthopaedics/Abstract/2015/01000/Back_carrying_Infants_to_Prevent_Developmental_Hip.11.aspx

Journal of Pediatric Orthopaedics:
January 2015 - Volume 35 - Issue 1 - p 57-61
Back-carrying Infants to Prevent Developmental Hip Dysplasia and its Sequelae: Is a New Public Health Initiative Needed? Graham, Simon M.

Plus: Pavlik harness
https://www.google.com/webhp?sourceid=chrome-instant&ion=1&espv=2&ie=UTF-8#q=pavlik%20harness

Does Correct Head Positioning Make You Run Faster?http://runnersconnect.net/running-injury-prevention/running-form-proper-head-position/

Running surfaces
http://www.slowtwitch.com/Training/Running/Concrete_or_Asphalt__4793.html

How to Read and Interpret the Wear Pattern on Your Running Shoes
http://runnersconnect.net/running-tips/read-wear-pattern-running-shoes/

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Do you know your stuff? Would you correct this child’s gait ? Give them orthotics, exercises, force correction, leave them alone ? 

Is he Internal Tibial torsioned ? Is he “pigeon toed” ,if that is the only lingo one knows, :(  Does he have femoral torsion ?  A pronation problem locally at the foot or an internal spin problem through the entire limb ? Or a combination of the above ? 

What’s your solution?

It MUST be based on the knowledge necessary to fix it, not the limits of YOUR knowledge. You can never know what to do for this lad from his gait evaluation, no matter how expensive your digital, multi-sensor, 3D multi-angle, heat sensor, joint angle measuring, beer can opening, gait analysis set up is. You can never know what to do for this lad if you do not know normal gait, normal neuro-developmental windows, normal biomechanics, know about torsions (femoral, tibial, talar etc), foot types etc.  It is a long list.  You cannot know what to do for this kid if you do not know how to accurately and logically examine them. 


Rule number 1. First do no harm.

If your knowledge base is not broad enough, then rule number one can be easily broken ! Hell, if you do not know all of the parameters to check off and evaluate, you might not even know you are breaking rule number one !  If everything looks like a weak muscle, every solution will be to “activate” and strengthen and not look to find the source of that weakness.  Muscles do not “shut down” or become inhibited because it is 10 minutes before practice or because it is the 3rd Monday of the month. You are doing your client a huge disservice if you think  you are smarter than their brain and activate muscles that their brain has inhibited for a reason. What if it were to prevent joint loading because of a deeper problem ?  If every foot looks flat and hyper pronated, and all you know is orthotics or surgery or shoe fit, guess what that client is prescribed ? If all you see is torsions, that is all you will look to treat. If all you see is sloppy “running form” and all you know is “proper running form” forcing your client into that “round peg-square hole” can also lead to injury and stacking of compensation patterns.  

One’s lack of awareness and knowledge, are one’s greatest enemies. If you don’t know something exists, because you’ve never studied or learned it, how can you be aware of it ? If you’re not spending enough time examining a client, you might not be aware of an issue even though you may be knowledgeable about the issue.
One must have both awareness and knowledge. One must also be aware that compensations are the way of the body. What you see is not your client’s problem. It is their strategy to cope.

Are you helping your client ? Hurting them ?  Adding risk to their activity ? Are you stepping beyond your skill set ?  

Rule Number 1: First do no harm. 

Shawn and Ivo

PS: we will get to this case another time, we just wanted to make a point today about the bigger problems out in the world.

the gait guys

Podcast 87: Podcast 87: The Kenyan's Running Brain & "The" Anterior Compartment.

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Plus, Some unknown facts about going minimalism and barefoot. We POUND anterior compartment strength today gang ! Hope you enjoy !

Show sponsors:
www.newbalancechicago.com

A. Link to our server: 
http://traffic.libsyn.com/thegaitguys/pod_87final.mp3

Direct Download: 
http://thegaitguys.libsyn.com/podcast-87

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 and 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”

Show notes:


On high heels and short muscles: A multiscale model for sarcomere loss in the gastrocnemius muscle

http://www.sciencedirect.com/science/article/pii/S0022519314006262

The Brain Needs Oxygen

Maintained cerebral oxygenation during maximal self-paced exercise in elite Kenyan runners.

http://www.runnersworld.com/racing/the-brain-needs-oxygen
http://www.ncbi.nlm.nih.gov/pubmed/25414248
J Appl Physiol (1985). 2014 Nov 20:jap.00909.2014. doi: 10.1152/japplphysiol.00909.2014. [Epub ahead of print]

The texting lane in China
http://www.theguardian.com/world/shortcuts/2014/sep/15/china-mobile-phone-lane-distracted-walking-pedestrians

Dialogue on endurance training,
NeuroRehabilitation. 2006;21(1):43-50. 
http://www.ncbi.nlm.nih.gov/pubmed/16720937

Effects of dorsiflexor endurance exercises on foot drop secondary to multiple sclerosis.  Mount J1, Dacko S.

APOS Therapy
we were asked out opinion on this
http://apostherapy.com/

Foot instrinsic dialogue
Motor Control. 2014 Jul 15. [Epub ahead of print]

Quantifying the Contributions of a Flexor Digitorum Brevis Muscle on Postural Stability.
Okai LA1, Kohn AF.

There are many factors in adults that impair gait. It is not all biomechanical. This is part of our ongoing dialogue on the aging population and why gait impairments and falls are so prevalent.
Acta Bioeng Biomech. 2014;16(1):3-9.
Differences in gait pattern between the elderly and the young during level walking under low illumination.
Choi JS, Kang DW, Shin YH, Tack GR.


Podcast 86: The Best of The Gait Guys Podcast: Part 1

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Show sponsors:

www.newbalancechicago.com

A. Link to our server: 

http://traffic.libsyn.com/thegaitguys/pod_87_Best_of_Part_1.mp3

Direct Download: 

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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 and 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”

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Test your Mental Clinical Thinking Skills with this pedograph case. 

A few months ago, we discussed this case in great detail. There is likely little chance you will see our thinking progression with these final conclusions without sitting down with a warm cup of coffee and going over these 2 prior blog posts on this case (part 1 and part 2).  Besides, it will be a good review for you and it is great mental gymnastics.  This kind of analysis gets easier each time you do it but we have to through out our standard warning. This is the kind of stuff one needs to be able to go through on the fly in one’s practice, it is something to aspire to.

First of all, caveats:

  • Our discussions on this case were all theoretical.  What we went through was an exercise in static assessment and clinical thinking
  • One cannot, and must not, make clinical decisions from a static assessment. 
  • As in all assessments, information is taken in, digested and then MUST be confirmed, denied and/or at the very least, folded into a functional and clinically relevant assessment of the client before the findings are accepted, dismissed and acted upon. 
  • Gait analysis or pedograph-type assessment are helpful tools, but not the final answer.

Our static exam proposal on this case came up with the following theories (please stand up and mimic as we discuss, trust us, it will help you). *Remember: the foot on YOUR LEFT is the RIGHT foot for the purposes of this discussion. And remember, this is all theoretical, this is an exercise in biomechanical and clinical thinking, nothing more.

  • Suspect Counter-clockwise pelvis distortion pattern (causes relative internal rotation on LEFT and external rotation on RIGHT), this will drive Left knee hyperextension and Right knee flexion (hence foot plantar pressures as we discussed in previous 2 blog posts linked above). This of course cannot be seen, but we are extrapolating from our clinical experiences.
  • poor pronation and internal limb spin control on the left (hence longer foot and toe hammering). Obviously, we would see a dramatic shift of the pressures to the medial foot if this were truly the case.  Perhaps this is because of the greater lateral left pelvis drift forcing the glute and foot pronatory controls to have to work harder and longer, and maybe even quicker, to control the internal spin and pronation. Over time, they fatigue and fail rendering a flatter, more pronated and longer heel:toe ball length ratio. This would also give credence to the left toe hammering/gripping response.
  • static increased left limb weight bearing (left hip drift)
  • abrupt right foot loading pattern (more mid-forefoot strike), perhaps as reflected by the static forefoot loading. Again, supposition.
  • with all of the above, it is suspect that this client will appear to have a subtle limp, coming off the left quickly or prematurely as they speed through uncontrolled pronation and resulting in an abrupt right limb loading response that mostly skips through heel strike and results in a more aggressive mid-forefoot loading response.  This, sort of, creates a catching of the loading response by the quadriceps more than the gluteals. This can cause medial knee drift (valgus loading) if the medial knee stabilizers are not up to task, this also creates a sudden patellofemoral compresson event and unappreciated sudden tension on the extensor mechanism (the quad-patella-patellar tendon complex).  Can you say generic anterior knee pain ?

Just some thoughts. Please go back to the prior 2 blog posts to delve deeper into the conclusions we have brought about here, we have other good reasoning to suspect the above as the scenario. But remember, what you see is not the problem, we see people’s compensations, their strategies. This was just an exercise in “what ifs”, nothing more. But you will see it in your clinic, just substantiate it with an exam, not what you necessarily see in your clients gait or static assessment. Static assessments are for fools, don’t be a fooled fool.  What  you see is not the problem.

Remember this critical fact.  After an injury or a long standing problem, the job of muscles and motor patterns is to stabilize and manage loads (stability and mobility) for adequate and necessary movement. Injuries often leave a mark on the system as a whole because adaptation was necessary during the initial healing phase. This usually spills over during the early movement re-introduction phase, particularly if movement is reintroduced too early or too aggressively.  Plasticity is often a culprit. Just because the injury has come and gone does not mean that new patterns of skill, endurance, strength (S.E.S -our favorite mnemonic), stability and mobility were not subsequently built onto the apparently trivial remnants of the injury. There is nothing trivial if it is abnormal. The forces must, and will, play out somewhere in the body and this is often where pain or injury occurs but it is rarely where the underlying problem lives. Is the compensation top down, bottom up, or both ?

Don;t be a fooled fool. Get the facts.

Shawn and Ivo, the gait guys

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The case of the dropped (plantarflexed) metatarsal head. Or, “How metatarsalgia can happen”.

This gentleman came in with fore foot pain (3rd metatarsal head specifically), worse in the AM upon awakening, with first weight bearing that would improve somewhat during the day, but would again get worse at the end of the day and with increased activity. The began insidiously a few months ago (like so many problems do) and is getting progressively worse.

Rest and ice offer mild respite, as does ibuprofen. You can see his foot above. please note the “dropped” 3rd metatarsal head (or as we prefer to more accurately say, “plantarflexed 3rd metatarsal head”) and puffiness and prominence in that area on the plantar surface of the foot. 

To fully appreciate what is going on, we need to look at the anatomy of the short flexors of the foot. 

The flexor digitorum brevis (FDB) is innervated by the medial plantar nerve and arises from the medial aspect of the calcaneal tuberosity, the plantar aponeurosis (ie: plantar fascia) and the areas bewteen the plantar muscles. It travels distally, splitting at the metatarsal phalangeal articulation (this allows the long flexors to travel forward and insert on the distal phalanges); the ends come together to divide yet another time (see detail in picture above, yes, we are aware it is the hand, but the tendon structure in the foot is remarkably similar)) and each of the 2 portions of that tendon insert onto the middle of the middle phalanyx (1) 

As a result, in conjunction with the lumbricals, the FDB is a flexor of the metatarsal phalangeal joint, and proximal interphalangeal joint (although this second action is difficult to isolate. try it and you will see what we mean). In addition, it moves the axis of rotation of the metatasal phalangeal joint dorsally, to counter act the function of the long flexors, which, when tight or overactive, have a tendency to drive this articulation anteriorly (much like the function of the extensor hallucis brevis above in the drawing from Dr Michauds book, yes, we are aware this is a picture of the 1st MTP).

Can you see the subtle extension of the metatarsal phalangeal joint and flexion of the proximal interphalangeal joint in the picture?

We know that the FDB contracts faster than the other intrinsic muscles (2), playing a tole in postural stability (3) and that the flexors temporally should contract earlier than the extensors (4), assumedly to move this joint axis posteriorly and allow proper joint centration. When this DOES NOT occur, especially if there is a concomitant loss of ankle rocker, the metatarsal heads are driven into the ground (plantarflexion), causing irritation and pain. Metatarsalgia is born….

So what is the fix? Getting the FDB back on line for one. 

  • How about the toe waving exercise? 
  • How about the lift spread reach exercise? 
  • How about retraining ankle rocker and improving hip extension?
  • How about an orthotic with a metatarsal pad in the short term? 
  • How about some inflammation reducing modalities, like ice and pulsed ultrasound. Maybe some herbal or enzymatic anti inflammatories?

The Gait Guys. Increasing your gait and foot literacy with each and every post. 

1. http://en.wikipedia.org/wiki/Flexor_digitorum_brevis_muscle

2. Tosovic D1, Ghebremedhin E, Glen C, Gorelick M, Mark Brown J.The architecture and contraction time of intrinsic foot muscles.J Electromyogr Kinesiol. 2012 Dec;22(6):930-8. doi: 10.1016/j.jelekin.2012.05.002. Epub 2012 Jun 27.

3.Okai LA1, Kohn AF. Quantifying the Contributions of a Flexor Digitorum Brevis Muscle on Postural Stability.Motor Control. 2014 Jul 15. [Epub ahead of print]

4. Zelik KE1, La Scaleia V, Ivanenko YP, Lacquaniti F.Coordination of intrinsic and extrinsic foot muscles during walking.Eur J Appl Physiol. 2014 Nov 25. [Epub ahead of print]

Learning and being humbled.

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There is a quote out there by someone that suggests that in the moments of talking and teaching one will learn nothing, for one is merely spouting off the limits of what one already knows, some of which is likely outdated or incorrect. One cannot teach that which one has not previously heard, experienced and mastered.
*Learning is about listening, and evaluating our prior beliefs against the current wisdom. It is about unlearning the false and relearning the latest truths that have come to light. Learning is not about talking.

Dear Gait brethren: Ivo and I do not have all the answers, but we seek and share what we know daily in this realm of The Gait Guys. Through challenging old and current theories, principles and research, one’s insight and wisdom can only grow. We will get things wrong, and we will admit when we do, and thank those who teach us the present truths. We have no single guru we follow, nor should you. No one person or method has all the answers to all of your client’s woes. The day you only trust one guru and one theory and the day you stop seeking, learning, unlearning, and being humbled to the mistakes one has made and been taught, is the day one begins a journey to being left behind and possibly insignificant in time. Thanks to all of you who correct us, teach us, humble us and trust us. It has been a great year here on TGG, thanks for hanging out with us ! 
“The illiterate of the 21st century will not be those who cannot read and write, but those who cannot learn, unlearn, and relearn.” ~Alvin Toffler.
Enjoy the funny cartoon, it is sort of related to the words above. It is a huge comment on communication, communication in relationships and possibly stuff that gets communicated in seminars. Things get lost in translation everyday, sadly. But perhaps that is a good thing, perhaps that is why theories and principles morph into greater wisdom. Not all change is bad.

Podcast 85: Texting & Walking, 2015 Shoe talk

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Plus: Endurance training and the immune system, hamstring endurance, Ampla Fly shoe, 

Show sponsors:

www.newbalancechicago.com

A. Link to our server: 

http://traffic.libsyn.com/thegaitguys/pod_85f.mp3

Direct Download: 

http://thegaitguys.libsyn.com/podcast-85-texting-walking-2015-shoe-talk

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 and 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”

Show notes:

Exercising Too Long Can Hurt Your Immune System
http://www.outsideonline.com/news-from-the-field/Exercising-for-Too-Long-Can-Hurt-Your-Immune-System.html

Future Shoe: New Ampla Fly Shoe Breaks The Mold
http://running.competitor.com/2014/11/video/nov-30-future-shoe-new-ampla-fly-shoe-breaks-mold_118688

How We Test Shoes
http://www.runnersworld.com/running-shoes/how-we-test-shoes?adbid=10152448718631987&adbpl=fb&adbpr=9815486986&cid=socSG_20141203_36589687

Three minutes of all-out intermittent exercise per week increases skeletal muscle oxidative capacity and improves cardiometabolic health
https://www.readbyqxmd.com/read/25365337/three-minutes-of-all-out-intermittent-exercise-per-week-increases-skeletal-muscle-oxidative-capacity-and-improves-cardiometabolic-health

 

The Gait Guys talk about Cerebellar Afferents

http://youtu.be/tP-PvzB-fYM

Texting and Walking

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2535903/

 
 
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Texting and Walking.  Your gait will change when you are texting on your phone.

You are going to want to put away your cell phone after you read this, or at least hide your parent’s phones. *(the video link attached here has likely been blocked by ABC News, you should see a forwarded link to their youtube feed. If not,

here it is

.  So you think you are a multi-tasker do you ?  Do you know how much cerebral cortex real estate is necessary to walk or drive and text ? Just try texting while walking for 5 seconds in an unfamiliar environment and see what happens.  Dual tasking is difficult especially when one task is cognitive and the other is spacial and motor. At some point something has to give, especially if you are on the edge of tapping out the executive function centers in the brain because of early disease or age related mental decline.  This has never been more prevalent than in the elderly and the number of mounting studies proving that dual attention tasks lead to a dramatic increase in age related fall injuries.  If you look into the literature the fall rate increases from anywhere from 11 to 50%, these are strong numbers correlating falls and dual attention tasking in the elderly.  Certainly the numbers are worse in the frail and gait challenged and fewer in healthier elderly folks, but the correlation seems to be strong particularly when there are even early signs of frontal cortex demise. We have talked about this on several recent podcasts

(check out podcasts 80-85)

and this has been rooted even further from one of our neurology mentors, Dr. Ted Carrick.   Recently in the Journal of Applied Biomechanics, Parr and associated took 30 young able bodied healthy individuals with experience texting on cellular phones. The study used an 11-camera optical motion capture system on a 8m obstacle-free floor. 

The study showed a reduction in gait velocity in addition to significant changes in spatial and temporal parameters, notably, step width, while the double support phase of the gait cycle increased.  Furthermore, and equally disturbing, toe clearance decreased but luckily step length and cadence decreased. 

Thus, it appears that the attention draining texting task generally forced the brain to slow the gait, reduce step length while improving stability via increasing step width and double support phase of gait, keep in mind that these are young healthy experienced individuals with no early cognitive challenges. 

This is not the case in aging adults, or in adults with factors that have either challenged gait stability (degrees of impaired balance, vision, vestibular, proprioception etc) or challenged frontal cortex function where that functionality of the brain is already nearing its tipping point for adequate function.  Sadly, these are all factors in the aging adult and they are why falls are increased and riskier for the elderly. Essentially, what the studies are showing is that dual tasking creates a distraction that can amplify any sensory-motor challenges in the system.  Mind you, there are studies that show that if the dual task is remedial such as talking while walking the effects are more muted, however in those who are at the tipping point capacity of mental executive function, mere talking (cognitive linguistic engagement), can also tip the system into deciding whether to focus on the gait or the talk but not both adequately.  Something will have to give in these folks, safe competent dual tasking is beyond the ability of their system.  As we have eluded to here, there are many factors and variables that can challenge the system. Visual challenges such as low light vision problems or depth perception challenges can act similarly on the system to dual tasking attempts and thus magnify fall risk. What about sensory challenges from a spinal stenosis or peripheral neuropathy such as in advancing diabetes?  Balance and vestibular challenges, let alone factors such as unfamiliar environments (perhaps magnified by vision challenges) as precursors are a foregone conclusion to increase fall risk in anyone let alone the elderly. By this point in this article it should be a given that texting while doing anything else is a dual tasking brain challenge that could lead to a fall, an embarrassing spill into the public pool or into a fountain at the mall let alone driving off a cliff or into a crowd of people.  But are all of these unfortunate people showing signs of frontal cortex/executive function impairment? Perhaps not, especially if they are healthy.  One has to keep in mind that texting is a high demanding cognitive attention task, even though we think nothing of it as a healthy adult. Think about it, one has to engage a separate screen other than the environment they are trying to walk through. Additionally, one has to think about what they are trying to text, engage a seperate motor program to type, then there is spelling, choosing text recipients, sending the message, watching and listening for a response, and the list goes on meanwhile the person is still trying to run the gait subprograms.  We take it for granted but texting is highly engaging and adding walking can tip the system into a challenge or failure if we are in a crowd, unfamiliar environment, low light etc.   So if you have ever wondered why elderly people trip and fall in even the most benign environments, it is likely a compounded result of challenges to situation and spatial awareness and working memory with many possible factor challenges. Again, things like poor lighting, vision limitations, unfamiliar environment, vestibular limitations, numbness in the feet, talking or even if they are simply carrying the afternoon tea to the sun room these things all are dual tasking and some require higher demands from the executive function brain centers.   Any factor(s) which tax the already-reducing executive function centers in the elderly subtract from the most basic elements required for upright posture and gait.  If dual-tasking can impair healthy young individuals, the elderly are a forgone conclusion to have magnified risks.   There can be a plus to all of this however. If the goal were to only reduce falls and fall risks in the elderly, an astute clinician can work this to their favor and do gait challenges and retraining in the office environment while safely stacking dual task challenges to expand and restore some executive function capabilities.  We are never too old to learn and lay down improved motor and cognitive patterns. So, use this information to your advantage to improve function instead of delivering it as a dark cloud to hang over your clients, whether they are elderly or neurologically challenged.  In summary, put down the darn phone, trust us, that text can wait.  Rather, enjoy the sunshine, the smiling faces, the trees.  If you are driving or walking, dump the phone and pay attention to traffic and your environment. Stop and wave to a friend. Teach your kids about this texting problem, they are likely already oblivious to many risks in the world, and this one likely hasn’t crossed their mind either. At the very least, help the elderly lady or man cross the street. By now you should understand all that they are consciously and subconsciously trying to calculate to negotiate the street crossing. Their declining executive function is often a mental feat all on its own, but having to actually add the physical act of walking (which is likely already showing aspects of age related biomechanical decline) might just be their tipping point leading to a fall.  So offer your arm, a warm smile, and think everything of it, because someday it will be you at that street corner with sweaty palms and great fear.  

Dr. Shawn Allen, one of the gait guys

References : 1. 

Eur J Neurol.

 2009 Jul;16(7):786-95. doi: 10.1111/j.1468-1331.2009.02612.x. Epub 2009 Mar 31. Stops walking when talking: a predictor of falls in older adults?

Beauchet O

1, 

Annweiler C

Dubost V

Allali G

Kressig RW

Bridenbaugh S

Berrut G

Assal F

Herrmann FR

. 2. 

J Appl Biomech.

 2014 Dec;30(6):685-8. doi: 10.1123/jab.2014-0017. Epub 2014 Jul 9. Cellular Phone Texting Impairs Gait in Able-bodied Young Adults. 

Parr ND

1, 

Hass CJ

Tillman MD

. 3. 

Gait Posture.

 2014 Aug 20. pii: S0966-6362(14)00671-7. doi: 10.1016/j.gaitpost.2014.08.007. [Epub ahead of print]  Texting and walking: effects of environmental setting and task prioritization on dual task interference in healthy young adults. Plumer, Apple, Dowd, Keith. 4. 

Gait Posture.

 2012 Apr;35(4):688-90. doi: 10.1016/j.gaitpost.2011.12.005. Epub 2012 Jan 5.  Cell Phones change the way we walk.  Lamberg, Muratori 5. 

Int J Speech Lang Pathol.

 2010 Oct;12(5):455-9. doi: 10.3109/17549507.2010.486446.  Talking while walking: Cognitive loading and injurious falls in Parkinson;s disease. 

LaPointe LL

1, 

Stierwalt JA

Maitland CG

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What would you do? This is what we did.

History:

This 7 year old girl is brought in by her mother because of knee misalignment while skiing, L > R. No history of trauma; normal term birth with no complications. No knee pain. Of incidental note, she is deaf in the left ear.

Exam findings:

She has bi-lat. external tibial torsion, left much worse than right (40 degrees transmallolear angle vs 22 degrees. for info on measuring torsions, click here). remember, you should be able to draw a line from the tibial tuberosity down through the 2nd metatarsal head. 

She has a 5mm anatomical leg length deficiency on the right (see top above left).

She has femoral antetorsion right side with very little external rotation, approximately 10 degrees,  internal rotation is in excess of 50.  Left side has normal femoral versions (for a review of femoral versions and torsions, click here).  See last 2 pictures which are full internal and external rotation respectively.

She has a mild uncompensated forefoot varus (cannot really see from the pictures, you will need to take our word for it) with a relatively cavus arch to her foot(see center and last picture on right.

Neurologically, she appeared to have integrity with respect to sensation, motor strength and deep tendon reflexes in the lower extremities.

Assessment:

Pathomechanical alignment as described.  Severe left external tibial torsion. MIld to moderate right. Femoral antetorsion right.

Plan:

We are going to build her a medium heel cup full length modified UCB orthotic inverting the cast bi-lat. left greater than right.  We gave her  balance and coordination exercises, heel walking, lift/spread/reach and one leg balancing. She will follow up for a dispense.  Her mother will try to get a better fitting ski boot as the one she has currently is two sizes too big. She will return for a dispense. She should consider wearing the orthotics in everyday footwear as well. We will do a follow up post in a few weeks. 

The Gait Guys. Teaching you something new in each and every post. Like this post? Tell and share it with a friend. Don’t like this post? Let us know!

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Human Gait Changes following mastectomy.  We first wrote about this a year ago after the news of Angelina Jolie’s double mastectomy decision.Research has confirmed that following a mastectomy there are limitations in the efficiency of the upper limb…

Human Gait Changes following mastectomy. 

We first wrote about this a year ago after the news of Angelina Jolie’s double mastectomy decision.

Research has confirmed that following a mastectomy there are limitations in the efficiency of the upper limb and even changes in the posture of the torso. (1,2,3) 

Following mastectomy, whether unilateral or bilateral, restorative measures are necessary, and not just for cosmetic effects either. From a biomechanical perspective, obviously depending on breast size, removing a considerable mass of tissue is going to change the symmetry of the torso particularly if we are dealing with a unilateral mastectomy.  Not only is it 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.  The literature has even shown that post-mastectomy clients display changes in spatiotemporal gait parameter such as step length and gait velocity.

Breast tissue moves. It oscillates a various cycles depending on speed of walking or running.  There is a rhythmic cycle that eventually sets up during walking and running and the cycle is intimately and ultimately tied to arm swing.  Thus, it would make sense that removing a sizable mass of tissue, particularly when done unilaterally, will change the tissue and joint rhythmicity. And if you have been here 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.)  Here are 2 links for more on these topics,Arm Swing: Part 1 and Arm Swing: Part 2, When Phase is Lost. Plus here from our blog search archives, everything we have talked about on Arm Swing. 

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 that can either consciously or unconsciously alter arm swing and thus global body kinematics.  (Also, do not forget any changes in opposite leg function secondary to a frozen shoulder (adhesive capsulitis) and the like which can impair arm swing.

The bottom line is that because of the neurologically embedded reflexes and reflexive motions and motor patterns, which are things that permeate all human locomotion, anything that changes one of the limbs directly or indirectly can impair and change locomotion, motor pattern choices and programming. 

Obviously the degree to which intervention is taken depends on the amount and location of breast tissue removed and intervention will be determined by physical placement of the prosthesis (whether it be external or internal) as well as the prosthesis weight, shape and possibly several other independent factors such as comparative support to the chest wall in comparison to the opposite breast. (There is a plethora of research out that addresses other methods of intervention such as latissimus dorsi relocation to reform the breast mass. This deserves a blog article all on its own because modifying a major shoulder, scapular and spinal stabilizer and prime mover has never made sense to us clinically or biomechanically.)

In Hojan’s study (below) they found significant differences in the gait parameters in the younger age groups with and without breast prosthesis however there appeared to be no significant differences in the women of the older study group.  However, it appeared that their study did not take into account all of the intimate issues we talk about in gait here on The Gait Guys blog. None the less, in the younger and likely more active study group, the use of a breast prosthesis brought the gait parameters closer to the healthy control group, as we suspected. 

Bottom line, every external and internal parameter that changes affects the human organism and thus affects their gait.

Again, here are those links to our other blog writings on arm swing that are paramount to understanding what we are discussing here today.

Arm Swing Part 1: The Basics   http://thegaitguys.tumblr.com/post/13869907052/arm-swing-in-gait-and-running-part-1-there-is

Arm Swing Part 2: When Phase is Lost   http://thegaitguys.tumblr.com/post/13920283712/arm-swing-part-2-when-phase-is-lost

From our blog search   http://thegaitguys.tumblr.com/search/arm+swing

Shawn and Ivo, The Gait Guys

References:
1.Blomqvist L, Stark B, Engler N, et al. Evaluation of arm and shoulder mobility and strength after modified radical mastectomy and radiother- apy. Acta Oncol. 2004;43(3):280Y283.

2. Rostkowska E, Bak M, Samborski W. Body posture in women after mastectomy and its changes as a result of rehabilitation. Adv Med Sci. 2006;51:287Y297.

3. Crosbie J, Kilbreath SL, Dylke E, et al. Effects of mastectomy on shoulder and spinal kinematics during bilateral upper-limb movement. Phys Ther. 2010;90(5):679Y692.

4. Hojan K, Manikowska F, Molinska-Glura M, Chen PJ, Jozwiak M. Cancer Nurs. 2013 Apr 29. [Epub ahead of print] The Impact of an External Breast Prosthesis on the Gait Parameters of Women After Mastectomy.