Dual tasking and neurocognitive decline.

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Your holiday homework . . . . look for the gait clues Ivo and Shawn have talked about this year (*see below)

Dual tasking and neurocognitive decline.
Mild cognitive impairment (MCI) is considered a predementia state associated with a 10-fold increased risk of progression to dementia. Dual tasking during gait may help predict neurocognitive decline.

So, When you are around aging family this holiday season, pay close attention to them when moving about around them. Dual tasking during gait should not be difficult for most healthy folks, but if you add in things that the aging population are challenged with (things like physical weaknesses, mild vestibular challenges, visual challenges , mild neuropathy, cold feet, proprioceptive losses) and then throw in some dual tasking (talking, carrying bags) we can often bring out predictors of future decline.
Remember, falls in the elderly are huge predictors of near term morbidity.

* Look for the clues during dual tasking or during intimidating situations (ie, crossing a busy street), look for things like slowing of gait, wider or narrower step width, shorter steps, frustration, confusion, reaching for support (grapping your hand or arm), stopping, shuffling, arresting of talk to negotiate an area, etc.

"A dual-task gait test evaluating the cognitive-motor interface may predict dementia progression in older adults with MCI (mild cognitive impairment)."

Association of Dual-Task Gait With Incident Dementia in Mild Cognitive Impairment
Results From the Gait and Brain Study. Manuel M. Montero-Odasso et al.
JAMA Neurol. 2017 Jul; 74(7): 857–865.

The next time they have gait asymmetry, try changing out the insole...

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or putting a textured one in there...or maybe putting a some sand or dirt in their shoe...

image credit: https://torange.biz

image credit: https://torange.biz

Textured insoles change (we like to think for the better) proprioceptive input and can improve balance and gait performance, both statically and dynamically. We have seen this in folks with parkinsons (1) as well as stroke (2), though it can be used in the elderly (3), in diabetes and neuropathy (4), as well as healthy individuals (5,6). Changes from postural stability, to changes in anterior/posterior sway, to medial/lateral sway, to step length and height, the research is there.

These results support the hypothesis that enhanced somatosensory feedback to the sensory system, both through the spinocerebellar and dorsal column pathways, as well as the vestibular system, results in an improved motor output (and most likely coordination) of gait.

  1. Qiu F, Cole MH, Davids KW, et al. Effects of textured insoles on balance in people with Parkinson's disease. PLoS One. 2013;8(12):e83309. Published 2013 Dec 12. doi:10.1371/journal.pone.00833

  2. Ma CC1, Rao N2, Muthukrishnan S3, Aruin AS4. A textured insole improves gait symmetry in individuals with stroke. Disabil Rehabil. 2017 Aug 7:1-5. doi: 10.1080/09638288.2017.1362477. [Epub ahead of print]

  3. Annino G1,2,3, Palazzo F2, Alwardat MS4, Manzi V5, Lebone P2, Tancredi V1,2,3, Sinibaldi Salimei P2,6,7, Caronti A2, Panzarino M2,3, Padua E2,3. Effects of long-term stimulation of textured insoles on postural control in health elderly. J Sports Med Phys Fitness. 2018 Apr;58(4):377-384. doi: 10.23736/S0022-4707.16.06705-0. Epub 2016 Sep 15.

  4. Paton J, Glasser S, Collings R, Marsden J. Getting the right balance: insole design alters the static balance of people with diabetes and neuropathy. J Foot Ankle Res. 2016;9:40. Published 2016 Oct 5. doi:10.1186/s13047-016-0172-3

  5. Steinberg N1, Tirosh O, Adams R, Karin J, Waddington G. Influence of Textured Insoles on Dynamic Postural Balance of Young Dancers. Med Probl Perform Art. 2017 Jun;32(2):63-70. doi: 10.21091/mppa.2017.2012.

  6. Collings R1, Paton J2, Chockalingam N3, Gorst T2, Marsden J2. Effects of the site and extent of plantar cutaneous stimulation on dynamic balance and muscle activity while walking. Foot (Edinb). 2015 Sep;25(3):159-63. doi: 10.1016/j.foot.2015.05.003. Epub 2015 May 11.

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The 5 Point Turn (in a human).  Do you know this gait problem ?

Here is a video link for the full video case study with diagnosis and more details on this client’s gait but our point here today is to look at the uniquely pathologic turning motor pattern deployed by this patient.

Gait analysis is so much more than watching someone move on a treadmill. Forward momentum at a normal speed can blur out many of a person’s gait pathologies.  We discussed this in detail in this blog post on slowing things down with the “3 second gait challenge”.  Furthermore, most gait analysis assessments do not start seated, then watching the client progress to standing, and then initiating movement.  Watching these intervals can show things that simple “gait analysis” will not.  Finding stability over one’s feet and then initiating forward motion can be a problem for many.  Those first moments after attaining the standing position afford momentum to carry the person sideways just as easily as carrying them forward. In other words, once momentum forward begins, a normal paced gait can make it difficult to see frontal plane deficits.  Our point here, transitional movements can show clues to gait problems and turning to change direction is no different.

Typically when we turn we use a classic “plant and pivot” strategy.  We step forward on a foot (right foot for example here), transfer a majority load on that forward right foot, we then pivot the left foot in the next anticipated direction of movement, and then push off the right foot directionally while spinning our body mass onto that left foot before initiating the right limb swing through to continue in the new direction.  This is not what this patient does. Go ahead, stand up and feel these transitions, if you are healthy and normal they are subconscious weight bearing transitions but for some one who is old and losing strength and proprioception/balance or some one with neurologic decline for one reason or another, these directional changes can be extremely difficult as you see in this video here. A full 180 degree progression is often the most difficult when things get really bad.  And more so, if one leg is more compromised than the other, turning one way a quarter turn (a 90 degree directional change) might be met with an alternative 270 degree multiple-point turn in the opposite direction over the more trusted limb to get to the same directional change. When there is posterior column disease or damage this seemingly simple “plant/weight shift/ pivot and push off” cannot be trusted. So a 5 point (or more) turn is deployed to be sure that small choppy steps maximize minimal loss of feel and maximal ground contact feel. This can be seen clearly in this video above.

Full video case link here:https://www.youtube.com/watch?v=AYmzQL_NSeI

Just some more things to think about in  your gait education.  Watch your clients move from sit to stand, from stand to initiating gait, and then watch closely their turning strategies. At the very least, have them make several passes making their about-face turns both to the right and the left. You will often see a difference.  Watch for unsteadiness, arm swing changes, cross over steps, reaching for stability (walls, furniture etc), moving of the arms into abduction for a ballast effect and the like. Then correlate your examination findings to your gait analysis.  Then, intervene with treatment and rehab, and review their gait again. Remember, explaining their deficiencies is a huge part of the learning process. Make them aware of their 5 point turns, troubles pivoting to the right or the left, and make them understand why they are doing the goofy one-sided rehab exercises. Understanding what is wrong is a huge part of fixing your client’s problems.

* Remember: if your client is having troubles on a stable surface (ie. the ground) then they should engage some rehab challenges on the ground. Giving them a tilt board or bosu or foam pad (ie. making the ground more unstable) will make things near impossible.  This is not a logical progression, we like to say, “if you can’t juggle one chainsaw we won’t give you 3”. Improve their function on a stable surface first, then once improvements are seen, then progress them to unstable surfaces.  

Shawn and Ivo

The gait guys.