Where your gait might break down.

/

Gait appears most robust to weakness of hip and knee extensors, which can tolerate weakness well and without a substantial increase in muscle stress. In contrast, gait is most sensitive to weakness of plantarflexors, hip abductors, and hip flexors. - van der Krogt

In the past few weeks I have shared my thoughts on some articles regarding low back paraspinal musculature fatigue and the subsequent effects on motorneuron pools, specifically excitability of the soleus and quadriceps. These shared thoughts are from recent papers in the literature (search the blog over the last week). These effects are suggested to indicate a postural response to preserve lower limb function. In other words, as paraspinal fatigue set in, lower extremity muscle compensation ramped up to sustain postural locomotion demands.  Obviously, one should think this a step further and translate it all into questions of assessment of ankle dorsiflexion (ankle rocker) and control of progressing knee and hip flexion when pertaining to these muscles. The issues of stability and mobility should heighten. The one big problem in these studies, and you have even likely had these thoughts during your clinical examinations, is that one cannot truly fatigue one muscle group alone especially during activity, nor can one assess a single muscle group during manual testing. Luckily we have EMG testing capabilities in this day and age and we can more easily look into the function and reaction of a muscle and its’ direct response reactions. 

Today I have an article by van der Krogt that we read long ago, but that which one of our readers brought back into our wheelhouse.  This is pretty amazing stuff.

“This study examines the extent to which lower limb muscles can be weakened before normal walking is affected. We developed muscle-driven simulations of normal walking and then progressively weakened all major muscle groups, one at the time and simultaneously, to evaluate how much weakness could be tolerated before execution of normal gait became impossible. We further examined the compensations that arose as a result of weakening muscles. Our simulations revealed that normal walking is remarkably robust to weakness of some muscles but sensitive to weakness of others. Gait appears most robust to weakness of hip and knee extensors, which can tolerate weakness well and without a substantial increase in muscle stress. In contrast, gait is most sensitive to weakness of plantarflexors, hip abductors, and hip flexors. Weakness of individual muscles results in increased activation of the weak muscle, and in compensatory activation of other muscles. These compensations are generally inefficient, and generate unbalanced joint moments that require compensatory activation in yet other muscles. As a result, total muscle activation increases with weakness as does the cost of walking.“-van der Krogt

So, if your client comes in with knee, hip or ankle pain and a history of low back pain, you might want to pull out these articles. You may want to consider which muscles are, according to this article, most robust and sensitive to weakness. Remember what I mentioned when i reviewed the soleus article ? I mentioned that the reduced ankle dorsiflexion range may be from a soleus muscle postural compensation reaction to low back pain. Today’s article seemed to confirm that this muscle group is sensitive to weakness. In today’s discussion, not only is the impairment of the hip ranges of motion or control of the knee (from quadriceps adaptive compensation) possibly related to low back pain, in this case, paraspinal fatigue but it may be a muscle group robust to weakness which is a darn good thing when the paraspinals go to nap.

Sometimes the problem is from the bottom up, sometimes it is from the top down. It is what makes this game so challenging and mind numbing at times. If this is all too much for you, in teasing out this quagmire of a system, just throw corrective exercises at your client and hope for the best. What is the worst that can happen if you get it wrong ? Stronger compensations on already present compensations … . . why not, it is good for return business (insert sarcasm emoticon).  But, lets be honest, if it was easy everyone would be doing it the right way. But the truth is that it is a long journey, and we are on the same bus of discovery with you all. 

Dr. Shawn Allen, one of the gait guys.

Reference:

Gait Posture. 2012 May;36(1):113-9. doi: 10.1016/j.gaitpost.2012.01.017. Epub 2012 Mar 3.How robust is human gait to muscle weakness?van der Krogt MM1, Delp SL, Schwartz MH.

Low back pain and quadriceps compensation. A study.

/

“Neuromuscular changes in the lower extremity occur while resisting knee and hip joint moments following isolated lumbar paraspinal exercise. Persons with a history of LBP seem to rely more heavily on quadriceps activity while jogging.“- Hart et al.

Recently I discussed a paper (link below) about how soleus  motoneuron pool excitability increased following lumbar paraspinal fatigue and how it may indicate a postural response to preserve lower extremity function.
Today I bring you an article of a similar sort.  This paper discusses the plausibility that a relationship exists between lumbar paraspinal muscle fatigue and quadriceps muscle activation and the subsequent changes in hip and knee function when running fatigue ensued. 


"Reduced external knee flexion, knee adduction, knee internal rotation and hip external rotation moments and increased external knee extension moments resulted from repetitive lumbar paraspinal fatiguing exercise. Persons with a self-reported history of LBP had larger knee flexion moments than controls during jogging. Neuromuscular changes in the lower extremity occur while resisting knee and hip joint moments following isolated lumbar paraspinal exercise. Persons with a history of LBP seem to rely more heavily on quadriceps activity while jogging.”- Hart et al.

Whether this or any study was perfectly performed or has validity does not matter in my discussion here today. What does matter pertaining to my dialogue here today is understanding and respecting the value of the clinical examination (and not depending on a gait analysis to determine your corrective exercise prescription and treatment). When an area fatigues and cannot stabilize itself adequately, compensation must occur to adapt. Protective postural control strategies must be attempted and deployed to stay safely upright during locomotion. The system must adapt or pain or injury may ensue, sometimes this may take months or years and the cause is not clear until clinical examination is performed. Your exam must include mobility and stability assessments, motor pattern evaluation, and certainly skill, coordination, ENDURANCE and strength assessments if you are to get a clear picture of what is driving your clients compensation and pain. 

So, if your client comes in with knee, hip or ankle pain and a history of low back pain, you might want to pull out these articles and bash them and other similar ones into your brain. Remember what I mentioned when i reviewed the soleus article ? I mentioned that the reduced ankle dorsiflexion range may be from a soleus muscle postural compensation reaction to low back pain. In today’s discussion, impairment of the hip ranges of motion or control of the knee (from quadriceps adaptive compensation) may also be related to low back pain, in this case, paraspinal fatigue.  

Sometimes the problem is from the bottom up, sometimes it is from the top down. It is what makes this game so challenging and mind numbing at times. If only it were as simple as, “you need to work on abdominal breathing”, or “you need to strengthen your core”.  If only it were that simple. 

Dr. Shawn Allen, one of the gait guys


References:
J Electromyogr Kinesiol. 2011 Jun;21(3):466-70. doi: 10.1016/j.jelekin.2011.02.002. Epub 2011 Mar 8.
Effects of paraspinal fatigue on lower extremity motoneuron excitability in individuals with a history of low back pain. Bunn EA1, Grindstaff TL, Hart JM, Hertel J, Ingersoll CD.

J Electromyogr Kinesiol. 2009 Dec;19(6):e458-64. doi: 10.1016/j.jelekin.2008.09.003. Epub 2008 Dec 16. Jogging gait kinetics following fatiguing lumbar paraspinal exercise.
Hart JM1, Kerrigan DC, Fritz JM, Saliba EN, Gansneder B, Ingersoll CD

Lower limb muscle strategies in low back pain patients.

/

When your client comes in with knee or foot/ankle issues do not dismiss the history of intermittent or exercise induced low back issues. It is possible that your client may be coming in with a loss of ankle rocker/dorsiflexion.  And, from your physical exam and screens, you may be at a loss as to why their ankle rocker is impaired. This problem further down the chain may simply be a compensation strategy to maintain function and postural integrity due to lumbar functional/fatigue challenges.

So you have sporadic low back pain and knee pain. Could they be linked ?

It has been a long believed rule that it is “all about the core”.  We have learned in recent years that this should be a very loosely accepted rule. 

In an old blog post (link) we stated some deeper truths:

Dr. McGill discusses the basic tenet that the hips and shoulders are used for power production and that the spine and core are used for creating stiffness and stability for the ultimate power transmission through the limb.  He makes it clear that if power is generated from the spine, it will suffer.  As gait experts, you should never forget this principle, if the spine and lumbopelvic interval is not strong/stiff and stable enough, the limbs can over power them and thus your gait, your running, your sport, could be causing you pain as the forces are poorly managed as they attempt to traverse the spine. 

Here we find a study referenced below that suggests that when the lumbopelvic interval is fatigued, that the lower limb muscles may step up activity.  This is a neat concept, not earth shaking by any means, but it nice to have studies that help solidify knowledge of compensation strategies.

“Individuals with low back pain (LBP) have been shown to demonstrate decreased quadriceps activation following lumbar paraspinal fatigue. The response of other lower extremity muscles is unknown. The purpose of this study was to determine changes in motoneuron pool excitability of the vastus medialis, fibularis longus, and soleus following lumbar paraspinal fatigue in individuals with and without a history of LBP.” 

What this study attempted to do was perform a controlled laboratory study designed to compare motoneuron pool excitability before and after a lumbar paraspinal fatiguing exercise. Twenty individuals (10 with history of low back pain) performed isometric lumbar paraspinal exercise until a 25% shift in paraspinal muscle surface electromyography median frequency occurred. 

What they discovered was that the soleus motoneuron pool excitability increased following lumbar paraspinal fatigue independent of group allocation and occurred in the absence of changes in vastus medialis or fibularis longus muscles. 

The authors propose that “increased soleus motoneuron pool excitability may be a postural response to preserve lower extremity function”.

When your client comes in with knee or foot/ankle issues do not dismiss the history of intermittent or exercise induced low back issues. They very well could be coming in with a loss of ankle rocker/dorsiflexion.  And, from your physical exam and screens, you may be at a loss as to why their ankle rocker is impaired.The problem further down the chain may simply be a compensation strategy to maintain function and postural integrity due to lumbar functional/fatigue challenges. 

Dr. Shawn Allen, one of the gait guys.


Reference:

J Electromyogr Kinesiol. 2011 Jun;21(3):466-70. doi: 10.1016/j.jelekin.2011.02.002. Epub 2011 Mar 8.Effects of paraspinal fatigue on lower extremity motoneuron excitability in individuals with a history of low back pain.Bunn EA1, Grindstaff TL, Hart JM, Hertel J, Ingersoll CD.

http://www.ncbi.nlm.nih.gov/pubmed/21388827