September 06, 2018

Zonas vs K Tape

September 06, 2018/ The Gait Guys

image source: https://commons.wikimedia.org/wiki/File:Kinesio_Taping_for_Soleus_and_Achilles_tendon.jpg — image source: https://commons.wikimedia.org/wiki/File:Kinesio_Taping_for_Soleus_and_Achilles_tendon.jpg

In this case, flexibility and an elastic component (K Tape), which adds proprioception, rather than rigid (Zonas), which takes it away, seems to work better.

"Compared to Athletic Tape, Kinesio Tape (KT) provides a flexible pulling force that facilitates foot eversion during early stance, while not restricting normal inversion in late stance during walking. KT may be a useful clinical tool in correcting aberrant motion while not limiting natural movement in sports."

Yen SC, Folmar E, Friend KA, Wang YC, Chui KK. Effects of kinesiotaping and athletic taping on ankle kinematics during walking in individuals with chronic ankle instability: A pilot study. Gait Posture. 2018 Aug 28;66:118-123. doi: 10.1016/j.gaitpost.2018.08.034. [Epub ahead of print]

September 05, 2018

What specific movement pattern(s) does a person with chronic ankle instability have?

September 05, 2018/ The Gait Guys

image source: https://en.wikipedia.org/wiki/Ligament

...it is unique and depends on their compensation

"The researchers concluded that multiple distinct movement patterns were found in a high percentage of CAI subjects and each person likely incorporates unique positions and loads that contribute to the chronic nature of instability. Additionally, the data revealed distal joint stiffness was lower in those with CAI than controls generally, while proximal joint stiffness was greater than controls. These data support the theory that the hop plays a vital role in controlling lower extremity movement in CAI subjects."

Hopkins JT, Son SJ, Kim J, et al. Joint Stiffness Alterations, Grouped by Movement Strategy, in Chronic Ankle Instability.

http://lermagazine.com/special-section/conference-coverage/identifying-cai-through-specific-movement-patterns

August 29, 2018

Podcast 138 (for real). Are you fighting your own gait/running neurology?

August 29, 2018/ The Gait Guys

Topics:
1. Running with the extensors. Convergence and divergence of neurons.
2. Fighting your gait neurology. The lies about the Bird dog rehab exercise.
3. ACL and ACL rehab. Surgery or no sugery. Wise? Risks ? How social media discussions might just be getting it wrong.
4. Cross over gait and lateral heel strike and ensuing problems at great toe off. A failure to medial foot tripod high gear toe off ?
5. Are the hip flexors actually hip flexors in gait ? what are your high knee drills doing? Anything good?

Key words: acl, analysis, cross, extensor, flexors, gait, heel, hip, instability, knee, over, plri, pools, problems, running, strike, surgery

Links to find the podcast:

iTunes page: https://itunes.apple.com/us/podcast/the-gait-guys-podcast/id559864138?mt=2

Direct Download:http://traffic.libsyn.com/thegaitguys/pod_138_real_-_82818_2.12_PM.mp3

Permalink URL:http://thegaitguys.libsyn.com/podcast-138-for-real

Libsyn URL: http://directory.libsyn.com/episode/index/id/6978817

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Our podcast is on iTunes and just about every other podcast harbor site, just google "the gait guys podcast", you will find us.

April 04, 2018

Functional Ankle Instability and the Peroneals

April 04, 2018/ The Gait Guys

Lots of links available here with today’s blog post. please make sure to take your time and check out each one (underlined below)

As you remember, the peroneii (3 heads) are on the outside of the lower leg (in a nice, easy to remember order of longus, brevis and tertius, from top to bottom) and help to stabilize the lateral ankle. The peroneus brevis and tertius dorsiflex and evert the foot while the peroneus longus plantarflexes and everts the foot. We discuss the peroneii more in depth here in this post. It then is probably no surprise to you that people with ankle issues, probably have some degree of peroneal dysfunction. Over the years the literature has supported notable peroneal dysfunction following even a single inversion sprain event.

Functional ankle instability (FAI) is defined as “ the subjective feeling of ankle instability or recurrent, symptomatic ankle sprains (or both) due to proprioceptive and neuromuscular deficits."

Arthrogenic muscle inhibition (AMI) is a neurological phenomenon where the muscles crossing a joint become "inhibited”, sometimes due to effusion (swelling) of the joint (as seen here) and that may or may not be the case with the ankle (see here), or it could be due to nociceptive input altering spindle output or possibly higher centers causing the decreased muscle activity.

This paper (see abstract below) merely exemplifies both the peroneals and FAI as well as AMI.

Take home message?

Keep the peroneals strong with lots of balance work!

2009 May;37(5):982-8. doi: 10.1177/0363546508330147. Epub 2009 Mar 6.

Peroneal activation deficits in persons with functional ankle instability.

Palmieri-Smith RM, Hopkins JT, Brown TN.

Source

School of Kinesiology, University of Michigan, 401 Washtenaw Avenue, Ann Arbor, MI 48109, USA. riannp@umich.edu

Abstract

BACKGROUND:

Functional ankle instability (FAI) may be prevalent in as many as 40% of patients after acute lateral ankle sprain. Altered afference resulting from damaged mechanoreceptors after an ankle sprain may lead to reflex inhibition of surrounding joint musculature. This activation deficit, referred to as arthrogenic muscle inhibition (AMI), may be the underlying cause of FAI. Incomplete activation could prevent adequate control of the ankle joint, leading to repeated episodes of instability.

HYPOTHESIS:

Arthrogenic muscle inhibition is present in the peroneal musculature of functionally unstable ankles and is related to dynamic peroneal muscle activity.

RESULTS:

The FAI patients had larger peroneal H:M ratios in their nonpathological ankle (0.399 +/- 0.185) than in their pathological ankle (0.323 +/- 0.161) (P = .036), while no differences were noted between the ankles of the controls (0.442 +/- 0.176 and 0.425 +/- 0.180). The FAI patients also exhibited lower EMG after inversion perturbation in their pathological ankle (1.7 +/- 1.3) than in their uninjured ankle (EMG, 3.3 +/- 3.1) (P < .001), while no differences between legs were noted for controls (P > .05). No significant relationship was found between the peroneal H:M ratio and peroneal EMG (P > .05).

CONCLUSION:

Arthrogenic muscle inhibition is present in the peroneal musculature of persons with FAI but is not related to dynamic muscle activation as measured by peroneal EMG amplitude. Reversing AMI may not assist in protecting the ankle from further episodes of instability; however dynamic muscle activation (as measured by peroneal EMG amplitude) should be restored to maximize ankle stabilization. Dynamic peroneal activity is impaired in functionally unstable ankles, which may contribute to recurrent joint instability and may leave the ankle vulnerable to injurious loads.

October 19, 2016

3 points to use with ankle instability

October 19, 2016/ The Gait Guys

In this study they stimulated 3 points: ST41, BL60 and GB40. Take a look at their locations (above). ST41 is at the base of the long extensor tendons; gee, we never emphasize long extensor function, do we? GB 40 is at the lateral malleolus between the peroneus longus/brevis and peroneus tertius; how important are these for coronal plane stability, not to mention the ability to descend the 1st ray. BL60 is just anterior to the lateral malleolus, right by the peroneus longus and brevis (again). Could they have included K6, under the medial malleolus and near the long flexors? Sure. How about SP4 or 4, in the substance of the flexor hallucis brevis and anterior to the extensor hallucis longus. Of course. You can probably think of other points to include as well.

Do you think it was by accident that their muscle selection included dorsiflexors (excepting the peroneus longus) and everters? How about a muscle that would help descend the 1st ray and complete the medial tripod? Hmmm... There is always a reason and a rationale....

"CONCLUSION: Electroacupuncture can effectively improve the proprioception of athletes with FAI and achieves a superior efficacy as compared with the conventional physiotherapy."...or in this case, low level e stim to the medial and lateral malleolus.

How about adding these points, no matter how you would like to stimulate them, to your CAI toolkit?

Zhu Y, Qiu ML, Ding Y, Qiang Y, Qin BY. [Effects of electroacupuncture on the proprioception of athletes with functional ankle instability]. Zhongguo Zhen Jiu. 2012 Jun;32(6):503-6.

October 05, 2016

Acupuncture/Dry Needling and Proprioception. A Winning combination.

October 05, 2016/ The Gait Guys

What a great combination of therapies for folks with chronic ankle instability, or almost any injury for that matter! Taking 2 modalities that emphasize afferent input from the peripheral mechanoreceptor system, which has such a large influence on the cerebellum as well as the segmental and descending pain inhibition pathways.

Did you notice they used the trigger points in the peroneus longs muscle to needle? Though they didn't say it, did you remember that that the point correlates to a great point: Gallbladder 34, which is an empirical point for musculoskeletal pain? Interesting how this muscle influences both frontal and saggital plan stability.

Though the techniques of exercise could use some refinement (check out the gents posture in the photo, sure looks like he could use some gluteus medius work!), this is a good overview that provides evidence that utilizing spacial summation (combining multiple techniques that provide afferent input to more than one modality to cause an effect) has better outcomes than one alone. Put this one on your reading list : )

Salom-Moreno J, Ayuso-Casado B, Tamaral-Costa B, Sánchez-Milá Z, Fernández-de-Las-Peñas C, Alburquerque-Sendín F.Trigger Point Dry Needling and Proprioceptive Exercises for the Management of Chronic Ankle Instability: A Randomized Clinical Trial. Evid Based Complement Alternat Med. 2015;2015:790209. doi: 10.1155/2015/790209. Epub 2015 Apr 30.

link to FREE FULL TEXT: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4430654/

April 25, 2016 April 25, 2016/ The Gait Guys

Treat the paraspinals in addition to the peripheral muscleAs people who treat a wide variety of gait related disorders we often emphasize needling the paraspinal muscles associated with the segemental innervation of the peripheral muscle you are tre… — **Treat the paraspinals in addition to the peripheral muscle**
As people who treat a wide variety of gait related disorders we often emphasize needling the paraspinal muscles associated with the segemental innervation of the peripheral muscle you are treating. For example, you may facilitate or needle the L2-L4 paraspinals (ie: femoral nerve distribution) along with the quads, or perhaps the C5-C6 PPD’s along with the shoulder muscles for the deltiods or rotator cuff for arm swiing. We do this to get more temporal and spacial summation at a spinal cord level, to hopefully get better clinical results.
White and Panjabi described clinical instability as the loss of the ability of the spine, under physiologic loads, to maintain relationships between vertebrae in such a way that there is neither damage nor subsequent irritation to the spinal cord or nerve roots, and, in addition there is no development of incapacitating deformity or pain due to structural changes.
Increased movement between vertebrae (antero or retrolisthesis) of > 3.5 mm (or 25% of the saggital body diameter) during flexion and/or extension suggests clinical instability. This often leads to intersegmental dysfunction and subsequent neurological sequelae which could be explained through the following mechanisms:
Recall that the spinal nerve, formed from the union of the ventral (motor) and dorsal (sensory) rami, when exiting the IVF splits into an anterior and posterior division, supplying the structures anterior and posterior to the IVF respectively. The posterior division has 3 branches: a lateral branch that supplies the axial muscles such as the iliocostalis and quadratus; an intermediate branch, which innervates the medial muscles, such as the longissimus, spinalis and semispinalis; and a medial branch, which innervates the segmental muscles, (multifidus and rotatores) as well as the joint capsule. Inappropriate intersegmental motion has 2 probable neurological sequelae: I) alteration of afferentation from that level having segmental (reflexogenic muscle spasm or vasoconstrictive/vasodilatory changes from excitation of primary afferents and gamma motoneurons) and suprasegmental (less cerebellar afferentation, less cortical stimulation) effects and II) compression or traction of the medial branch of the PPD, causing, over time, demyelination and resultant denervation, of the intrinsic muscles, resulting in impaired motor control both segmentally and suprasegmentally. The segmental effects are directly measurable with needle EMG. This is a form of paraspinal mapping, which has also been explored by Haig et al. So, in short, instability can lead to denervation and denervation can lead to instability.
We often see clinically that treating a trigger point (needling, dry needling, acupuncture, manual pressure) can alter the function of the associated muscle . Improvements in muscle strength and changes in proprioception are not uncommon. Needling also seems to increase fibroblastic activty through the local inflammation it causes. Wouldn’t better muscle function and some scar tissue be a beneficial thing to someone with instability?
The next time you have a patient with instability, make sure to include the paraspinals in your quest for better outcomes.

July 20, 2015 July 20, 2015/ The Gait Guys

Who’d a thought? Can someone make an “app” for that?

Interesting study that we just found out about in the June 15th LER journal titled “Patients with ankle instability respond to auditory feedback by changing gait”

In this study they put a sensor under the head of the 5th metatarsal in 10 folks with chronic ankle instability that would emit a sound in respose to excessive lateral ankle pressure. They were told to “walk quietly” and not let the beeper beep. After a short time, the people in the study were able to walk with decreased pressures in the lateral forefoot, in addition to the midfoot and central forefoot. EMG showed increase in peroneal and medial gastroc activity.

Interesting implications and also some questions.

This study shows that auditory feedback can alter behavior and gait. Is this a good thing? We suppose this depends on what you are trying to accomplish and does it ultimately benefit the patient?

this sensor could be made into an “app” that has some cool rehabilitation implications. Imagine a moveable sensor or multiple sensors that could track patterns over time and plot them for you? The auditory could be used to discourage some bevaiors/characteristics of gait and the “tracking” feature could provide progress information. Or maybe is it hooked up to some of your favorite music and it stops playing when you are not weighting appropriately. Wondering if your patient is loading the head of the 1st metatarsal? This could provide some feedback.

Check it out:

Donovan l, Hart JM, Saliba S et al. Effects of an auditory feedback device on plantar pressure in participants with chronic ankle instability. Med Sci Sports Exerc 2015; 46(5 suppl); S104