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== Introduction ==
== Introduction ==
Neurologic gait deviations are a little different than the gait deviations we've been talking about that are associated with painful musculoskeletal syndromes in the following ways. There can be more cognitive impairments limiting our use of explicit motor learning principles and requiring that we use more implicit mechanisms of motor learning and control in the environment. The capacity to alter observed gait deviations may be more limited because of the organic degenerative processes that occur with some of the neurological diagnoses. And it requires more time to alter the observed gait deviations and the swing phase and the double support phase of gait require more attention. When we were talking about the painful musculoskeletal gait deviations, we focused primarily on stance phase. Gait deviations are sensitive for the early diagnosis of neurodegenerative diseases. They're not specific, but they can be an early sign of some of the neurodegenerative diseases. And the observed gait deviations may be the best compensation that that individual has the capacity for. Again, a gait deviation is often synonymous with a compensation. So if we're trying to alter the observed gait deviations, we're gonna need to be a little more proactive in terms of potential side effects or unintended consequences when we try to alter a gait deviation with a neurologic diagnosis.  
[[Gait]] deviation is often synonymous with compensational movement.<ref name=":0">Howell, D. Gait Analysis. Neurologic Gait Deviations. Plus. 2022.</ref> The human body will find a way to make mobility happen, but this sometimes results in less than optimal movement patterns. It is the role of the rehabilitation professional to guide patients through a plan of care to improve and or correct movement dysfunction. The ultimate goal is to achieve an ideal movement for each unique individual.  


So however, neurologic gait deviations are similar to the gait deviations we've been talking about with musculoskeletal pain syndromes in that the motor learning mechanisms and considerations of good verbal cueing that we applied for painful musculoskeletal syndromes are applicable. The same motor learning principles of external focus of attention tends to be what we should be choosing first, using the sensory preference of the client, using positive language and visual imagery as our starting points. And the clinical reasoning process of symptom modification procedures, see something do something, is still applicable and the clinical reasoning of a working hypothesis is still applicable for gait deviations associated with neurological problems.  
There are often two schools of thought in physiotherapy: neurological and musculoskeletal clinical paradigms. A 2014 article<ref name=":1" /> published in Manual Therapy looks at applying the concepts of [[neuroplasticity]] and [[Motor Learning Principles to Alter Gait Deviations|motor learning]] to musculoskeletal physiotherapy practice. The authors found that integrating some of these concepts into traditional musculoskeletal physiotherapy treatments improved participants' outcomes with earlier and greater movement gains.<ref name=":1">Snodgrass SJ, Heneghan NR, Tsao H, Stanwell PT, Rivett DA, Van Vliet PM. [https://www.mvclinic.es/wp-content/uploads/2017/11/2014_Snodgrass_Recognising-neuroplasticity-in-musculoskeletal-rehabilitation.-A-basis-for-greater-collaboration-between-musculoskeletal-and-neurological-physiotherapists.pdf Recognising neuroplasticity in musculoskeletal rehabilitation: a basis for greater collaboration between musculoskeletal and neurological physiotherapists]. Manual therapy. 2014 Dec 1;19(6):614-7.</ref>  <blockquote>"The authors compare and contrast neurological and musculoskeletal physiotherapy clinical paradigms in the context of the motor learning principles of experience-dependent plasticity: part and whole practice, repetition, task-specificity and feedback that induces an external focus of attention in the learner. It is proposed that increased collaboration between neurological and musculoskeletal physiotherapists and researchers will facilitate new discoveries on the neurophysiological mechanisms underpinning sensorimotor changes in patients with musculoskeletal dysfunction."<ref name=":1" />  </blockquote>


== Neurologic Gait Deviations ==
'''The management of neurological gait deviations can differ from that of painful musculoskeletal syndromes in the following ways:'''<ref name=":0" />
So I'm gonna take a moment and define or describe some of the potential neurologic gait deviations that are unique for this class. Walter Pirker et al. in 2017 provided a classification of 14 gait disorders associated with neurologic conditions. He describes a hemispastic, which is a unilateral circumduction; a paraspastic, which is bilateral extension and adduction, a stiff gait; ataxic gait, which is broad based, lacks coordination; sensory ataxic, which is cautious, worsening when you take away visual input; the freezing gait, we're gonna talk about that; the propulsive gait, or what some would describe as a festinating gait where the centre of gravity gets in front of the body or the base of support; the astasia gait, which is a primary impairment of stance and balance; dystonia gait, abnormal posturing of the leg and the foot; the choreatic gait, which is irregular dance-like, broad base of support; steppage gait, which refers to a weakness of foot dorsiflexion; the waddling gait, a broad-based, swinging or dropping of the swinging leg; the antalgic gait, which is basically a limp; the vertiginous gait, which is an insecure and a tendency to fall to one side; and then the psychogenic gait, or some people call it a functional gait. So these classifications are broad and they're a good starting point, but I think we need to get to greater detail and greater clarity before we can begin our clinical reasoning process of seeing something and doing something with a working hypothesis.


So I like the work of Patricia Scheets et al. in 2014 and in a subsequent publication in 2017, movement system classification or signs of neuromuscular conditions. So I'm gonna use those as a starting point and I added a few. She talks about an increased base of support, kind of going with the waddling gait. This is common across many neurologic conditions, and it's more than likely a gait deviation that is a good compensation that rarely do I try to alter to bring in so it's not so wide-based. It's a safe gait. However, you can have the opposite of an increased base of support, which is a decreased base of support. Tends to be more prevalent in our Parkinson's neurodegenerative disease. You can have a lateral shift of centre of mass towards the stance limb. You can have knee hyperextension in stance, genu recurvatum, a sustained hip and knee flexion in stance, weak leg, a vaulting gait, toe walking, especially prevalent with autistic clients. You can have the limp, which is an unequal step length and decreased time on the involved limb. You can have the decreased step length, increased cadence, which is festination. You have a freezing or difficulty initiating gait, variable foot placement is a gait deviation, a pelvic contralateral elevation goes with the listing of centre of mass to the stance phase, circumduction, scissoring gait, decreased hip and knee during swing phase, and then foot drop.
# [[Cognitive Impairments|Cognitive impairments]] can limit the use of explicit motor learning principles and require more implicit mechanisms of motor learning.
# Organic degenerative processes that occur with some [[Neurological Disorders|neurological]] diagnoses can limit the capacity to alter observed gait deviations.
# Gait training for those with neurological gait deviations tends to focus on deviations in the swing phase and double support phase of gait. For musculoskeletal gait deviations, gait training tends to focus primarily on the stance phase of gait.
# Gait deviations can be an early sign of some [[Neurodegenerative Disease|neurodegenerative diseases]]. The observed gait deviation may be the best available movement pattern for that individual to remain ambulatory and independent. For these patients, the rehabilitation professional needs to be more proactive in terms of potential side effects or unintended consequences when attempting to alter a gait deviation.


=== limp ===
So let's talk about the limp. Good verbal cueing, not necessarily because of positive language, but sometimes it works, do you see that you're limping? Don't do that. That's a kind of a default that I'll go to when I'm struggling for an external focus with a visual image. But if I say, imagine or visualise you're walking with smooth rhythmic steps. Take long, even steps. Spend less time on your good leg, spend more time on your weak leg. If you have a sensory preference where they're good at auditory learning, provide a metronome or a rhythm or a song, and then sometimes just swinging the arms will get more symmetry.


=== Slow velocity ===
'''The management of neurological gait deviations are similar to that of painful musculoskeletal syndrome in the following ways:'''<ref name=":0" />
How about the gait deviation that's prevalent with musculoskeletal pain and neurologic conditions majority of the time is slow velocity. Cue them walk faster, step to the beat of the appropriate cadence, greater than 120 steps per minute, if it's too slow. Adjust, we can do implicit training with forced use by adjusting the treadmill speed to a faster speed, and just verbally cue them, walk with spring in your step, as if you're peering over the crowd, that's going to automatically increase their speed a little bit.


=== Knee hyperextension or genu recurvatum ===
# The motor learning mechanisms and considerations of good verbal cueing are applicable to both painful musculoskeletal syndromes and neurological gait deviations.
Let's talk about some neurologic gait deviations during stance phase, the one of knee hyperextension, or genu recurvatum. Give them the cue to imagine or visualise there's a scaffold around your knee, or push off the floor and propel up and forward to use the gastroc to facilitate knee flexion and avoid knee hyperextension. For the kinaesthetic learner, actually tap the gastroc and say, use this muscle to control the knee, give them that kinaesthetic, tactile feedback. And then you can use non-elastic strapping, McConnell taping, or Kinesiotaping, or a Swedish knee cage, an orthosis.  
# The motor learning principles of (1) external focus of attention, (2) using the patient's preferred sensory system preference,  (3) using positive language, and (4) visual imagery are applicable to both painful musculoskeletal syndromes and neurological gait deviations.
# The clinical reasoning process of symptom modification procedures and clinical reasoning of a working hypothesis is still applicable for gait deviations associated with both painful musculoskeletal syndromes and neurological gait deviations.


=== sustained hip and knee flexion in stance phase ===
== Neurological Gait Deviations ==
If it's not supporting them. So stay nice and tall. Push the foot into the ground are verbal cues. Or use a cane in the contralateral hand.
Pirker and Katzenschlager<ref name=":2" /> provided a classification of 14 gait disorders associated with neurological conditions. This classification provides a broad description of different gait deviations. There is a need to provide more detail and sub-classification of deviations which occur during gait.<ref name=":2">Pirker W, Katzenschlager R. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5318488/pdf/508_2016_Article_1096.pdf Gait disorders in adults and the elderly : A clinical guide]. Wien Klin Wochenschr. 2017 Feb;129(3-4):81-95.</ref>
{| class="wikitable"
|+<ref name=":0" /><ref name=":2" />''Please see the video in the Additional Resources section for demonstrations of many of these deviant gait patterns.''
!'''Gait Disorder'''
!'''Characteristics/description'''
|-
|'''[[Hemiplegia|Hemispastic]] gait'''
|Unilateral extension and  circumduction
|-
|'''[[Paraplegia|Paraspastic]] gait'''
|
* Bilateral extension and adduction
* "Stiff"
|-
|'''[[Ataxia|Ataxic]] gait'''
|
* Broad base
* Lack of coordination
|-
|'''Sensory ataxic gait'''
|
* Cautious
* Worsening without visual input
|-
|'''Freezing gait'''
|
* Blockage
* Stopping on turning and or stepping
|-
|'''Propulsive gait'''
|
* [[Centre of Gravity|Centre of gravity]] in front of the body
* Festination
|-
|'''Astasia gait'''
|Primary impairment of stance balance
|-
|'''[[Dystonia|Dystonic]] gait'''
|Abnormal posture of foot and or leg
|-
|'''[[Chorea|Choreatic]] gait'''
|
* Irregular
* Dance-like
* Broad-based
|-
|'''Steppage gait'''
|Weakness of foot extensors
|-
|'''Waddling gait'''
|
* Broad-based
* Swaying
* Drop of swinging leg
|-
|'''[[Gait: Antalgic|Antalgic]] gait'''
|Shortened stance phase on the affected side
|-
|'''Vertiginous gait'''
|
* Insecure
* Tendency to fall to one side
|-
|'''Psychogenic gait'''
|
* Bizarre
* Rarely falls


=== Vaulting ===
|}
There's that excessive ankle plantarflexion from spasticity or limited dorsiflexion. So leave the heel on the ground longer, imagine or visualise you're leaving the imprint of the heel in wet sand, keep that heel down. Or touch the thigh in swing and say, relax that leg. They may be vaulting because of the spasticity and diminished knee flexion during swing phase. An auditory learner, there are gait spot squeakers, little squeakers that you can attach to the sole of the shoe to give them that auditory feedback to get the heel down. And then there's an interesting paper I found recently that was suggesting, on a temporary basis, to apply a shoe lift to the uninvolved side so that they don't have to do that vault to clear the functionally long leg


=== Toe walking ===
Toe walking. In some of our paediatric patients, some of our adult patients. So visually, or cue them, let the heel touch the ground, imagine or visualise you're leaving the heel imprint and walking in wet sand. Take long steps, get the image or motor image that you're doing a goose step walk and getting that heel down. Backwards walking is implicit learning to get that heel down. And again, a gait spot squeaker adaptation to give them auditory feedback


=== difficulty initiating or freezing gait ===
The following is a list of common signs of neuromuscular conditions, which is based on the work of Scheets et al.<ref>Scheets PL, Bloom NJ, MSOT P, Crowner B, MPPA P, McGee PN, PCS P, Norton BJ, FAPTA PP, Sahrmann SA, Stith JS. Movement System Diagnoses Neuromuscular Conditions.</ref> with additions from Dr Damien Howell.<ref name=":0" /> A few of the more common neuromuscular conditions with potential clinical interventions will be outlined in more detail in the chart below.  
JD Schaafsma et al. in 2020 came up with, I think, a pretty good definition or clarity of this difficulty initiating or freezing gait. They described it as episodic and involuntary cessation of normal walking involving one or three different characteristics: shuffling, small shuffling steps with minimal forward movement; the trembling, leg trembling, but without effective forward movement; and akinesia or no observable movement. All of that is different components of this difficulty initiating movement.  


So what do we do when we have this Parkinson's patients that have difficulty initiating movement, what verbal cues, prompting, or feedback is available to us? And this is basically a swing phase gait deviation. Use mental imagery before they practise, when they're sitting, so you could give them descriptions of, visualise you're coming to the threshold of a doorway and you're boldly stepping through into the room. Practise that, think about it when you're not walking. Using self-talk and they can say this out loud or self-talk without. The verb, the vocabulary is stop, stand tall, shake it off, shift weight side to side, step. Stop, stand tall, shake it off, shift weight side to side, and step. Laser pointer or laser line has been used for Parkinson's patients that need that visual cueing or prompting. There are kinaesthetic tricks that have been used where they'll kick a soccer ball or tap a temple or touch their chest to give them that cue to self-trick so that they can initiate it. Several examples of that on the YouTube.  
# Increased base of support (BOS)
# Decreased BOS
# Lateral shift of centre of mass (COM) toward stance limb
# Knee hyper-extension stance
# Sustained hip knee flexion stance
# Vaulting
# Toe walking
# A limp: unequal step length, decreased time on uninvolved limb
# Festination: decreased step length, increased cadence
# Freezing difficulty initiating gait
# Variable placement of foot
# Pelvic elevation contralateral
# Circumduction
# Scissoring
# Decreased hip knee swing phase
# [[Foot drop]]
{| class="wikitable"
|+
<ref name=":0" />
!'''Gait deviation'''
!'''Examples of intervention with possible cue/prompt/feedback'''
|-
|'''Limp'''<ref name=":3">Chang MC, Lee BJ, Joo NY, Park D. [https://bmcneurol.biomedcentral.com/articles/10.1186/s12883-021-02072-4 The parameters of gait analysis related to ambulatory and balance functions in hemiplegic stroke patients: A gait analysis study]. BMC neurology. 2021 Dec;21(1):1-8.</ref>
|
* “See that, don’t do that”
* Imagine / visualise walking with smooth rhythmic steps
* Take long even steps
* Spend less time on good leg
* Spend more time on the weak leg
* Step to the rhythm beat of the metronome
* Swing your arms
|-
|'''Slow gait velocity'''<ref name=":3" />
|
* Walk faster
* Step to the beat of the music at / or greater than 120 beats/minute
* Adjust treadmill speed
* Walk with a spring in your step, peer over the crowd
|-
|'''Knee hyperextension'''
|
* Visualise a scaffold around your knee
* Push off the floor, propel up and forward
* Therapist touches patient's calf muscle and cues "use this to control your knee"
* Orthotic trial: Supportive nonelastic<ref>Wang RY, Lin CY, Chen JL, Lee CS, Chen YJ, Yang YR. [https://www.mdpi.com/2077-0383/11/6/1553/pdf Adjunct Non-Elastic Hip Taping Improves Gait Stability in Cane-Assisted Individuals with Chronic Stroke: A Randomized Controlled Trial]. Journal of Clinical Medicine. 2022 Mar 11;11(6):1553.</ref> or elastic tape, Swedish knee cage
|-
|'''Sustained hip and knee flexion in stance'''
|
* Stay nice and tall
* Push foot into the ground
* Use a cane in the contralateral hand
|-
|'''Vaulting'''<ref name=":4">Fortes CE, Carmo AA, Rosa KY, Lara JP, Mendes FA. [https://www.tandfonline.com/doi/pdf/10.1080/09593985.2020.1771798 Immediate changes in post-stroke gait using a shoe lift on the nonaffected lower limb: A preliminary study]. Physiotherapy Theory and Practice. 2022 Apr 3;38(4):528-33.</ref>
|
* Leave heel on the ground longer
* Imagine / visualise leaving an imprint of heel in wet sand
* Therapist touches thigh of swing leg and cues “relax the knee”
* Walk while keeping a book balanced on top of your head
* Gaitspot squeaker shoe adaptation ''(see handout in additional resources for details)''
* Trial of a shoe lift with nonaffected limb
|-
|'''Toe walking'''
|
* Let the heel touch the ground
* Visualise leaving an imprint of your heel in wet sand
* Take long steps
* Walk/goose-step/march
* Backwards walking
* Gaitspot squeaker shoe adaptation
|-
|'''Freezing'''<ref>Nonnekes J, Růžička E, Nieuwboer A, Hallett M, Fasano A, Bloem BR. [https://www.researchgate.net/profile/Jorik-Nonnekes/publication/331995733_Compensation_Strategies_for_Gait_Impairments_in_Parkinson_Disease_A_Review/links/5c9dd5f145851506d731cbf9/Compensation-Strategies-for-Gait-Impairments-in-Parkinson-Disease-A-Review.pdf Compensation strategies for gait impairments in Parkinson disease: a review]. JAMA neurology. 2019 Jun 1;76(6):718-25.</ref><ref>Tosserams A, Wit L, Sturkenboom IH, Nijkrake MJ, Bloem BR, Nonnekes J. [https://n.neurology.org/content/neurology/97/14/e1404.full.pdf Perception and use of compensation strategies for gait impairment by persons with Parkinson disease]. Neurology. 2021 Oct 5;97(14):e1404-12.</ref>
|
* Mental imagery: visualise coming to the threshold in a doorway and boldly stepping through into the room
* Self-talk, say out loud: “stop, stand tall, shake off, shift weight, step”
* Laser light pointer or line target
* Kinaesthetic specific self-prompting tricks
* Trial of assistive devices
|-
|'''Festination'''
|
* Mental imagery
* Laser light pointer or line target
* Metronome music
* Backwards walking
|-
|'''Circumduction'''<ref name=":4" />
|
* “See that don’t do that”
* Therapist touches the front of the patient's hip and cues "lift from your hip"
* Imagine / visualise walking in deep snow or shallow water
* Walk close to the wall, do not strike the wall, but do not lean away from it either
* Trial of a shoe lift for the nonaffected limb<ref name=":4" />
|-
|'''Foot drop'''
|
* Visualise a firm heel strike
* Trial of a temporary ankle foot orthosis (AFO) with nonelastic tape or an elastic therapy band. ''*** please see video below''
* Shoe lift for the nonaffected leg
* Gaitspot squeaker shoe adaptation
|}


=== festination or decreased step length ===
=== Special Topic: Freezing of Gait (FOG) ===
And so what about this festination or decreased step length? Again, you can use your mental imagery, laser lights, metronome music at the appropriate cadence, and backwards walking.  
FOG can be defined as a “brief, episodic absence, or marked reduction of forward progression of the feet despite the intention to walk”.  FOG related features can include: (1) shuffling, (2) trembling, and (3) complete akinesia.  These features are demonstrated during the brief episode of change in forward progression.<ref name=":5">Kondo Y, Mizuno K, Bando K, Suzuki I, Nakamura T, Hashide S, Kadone H, Suzuki K. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9160378/ Measurement Accuracy of Freezing of Gait Scoring Based on Videos]. Frontiers in Human Neuroscience. 2022;16.</ref>


=== circumduction ===
Kondo et al.<ref name=":5" /> described three phenotypes of FOG based on leg movements:<ref name=":5" />
Staying in swing phase, the gait deviation of circumduction. Again, you could say, see that, don't do that, try that. Touch the front of the hip, give them that kinaesthetic cue. Lift from the hip, lift from the hip. Walk close to the wall to give them that external focus of attention. Don't hit the wall, but don't list away from the wall. And again, because it's a function of a functionally long leg, temporarily put a shoe lift in the uninvolved side.


=== foot drop ===
# FOG with very small shuffling steps and minimal forward movement (shuffling)
Then a frequent gait deviation of swing phase is foot drop. Visualise a firm heel strike, use a visual image, a temporary AFO of a non-elastic ankle-foot orthosis, and on the reference list, there's a YouTube description of using theraband on a temporary basis as an ankle-foot-orthosis. And then again, you could use your shoe lift on the uninvolved side as options.  
# FOG with some leg trembling but no effective forward motion (trembling)
# No observable forward motion of the legs (complete akinesia)
<blockquote>
==== Clinical Pearls: Gait Analysis and the Power of Words ====
According to Dr. Damien Howell:


the decreased step length,
"'''Optimizing human movement requires clarity of description of movement'''.  '''To know where you are going you must first know where you are'''.


increased cadence, which is festination.  
To optimize human movement, analysis of human movement is required.


You have a freezing or difficulty initiating gait,
To identify optimal human movement clear qualitative and quantitative descriptions are needed.


variable foot placement is a gait deviation,
When describing human movement confusion occurs when we fail to clearly identify a frame of reference and reference point.


a pelvic contralateral elevation goes with the listing of centre of mass to the stance phase,
A common description of a gait deviation is the individual is “hip hiking.”  What is “hip hiking”? Is the thigh bone hiking? is the pelvic bone hiking? is the hiking during the stance phase or swing phase? We need a frame of reference and reference points.


circumduction,
A common description of a gait deviation is a “[[Trendelenburg Sign|Trendelenburg sign]].” This description confuses me. I am thinking is the patient is in an upside-down position that is used during a surgical procedure. Is there something wrong with superficial veins? Does he have a limp? Naming clinical tests and descriptions of movements after an individual is not helpful.


scissoring gait,  
Describing gait deviation by pathology is not specific enough to direct treatment. Describing a person's gait as he/she is walking with a Parkinson's gait is very wide-ranging. Is there freezing; shuffling; festinating, all the above? The description of a “hemiplegic gait” is not very helpful.  Whereas relative to vertical line there is a lateral shift of the sacrum (center of mass) towards the stance leg description of movement can provide direction for intervention.


decreased hip and knee during swing phase,
Describing movement or motion requires using a frame of reference and a reference point. There are different frames of reference that are used to describe motion.


and then foot drop.
The Polar coordinate system is a 2-dimensional system in which each point on a plane is determined by a distance from a reference point and the angle of the reference point. It describes the movement, navigation, and travel. Interestingly indigenous people of Australia (Guugu Yimidhirr) use the polar coordinate system to describe human movement. They have no words for left and right. Instead, Guugu Yimidhirr speakers give all their descriptions and directions based on the fixed four cardinal points of the compass: north, south, east, and west. If I was providing Physical Therapy to a Guugu Yimidhirr I ask the individual to move your east arm/shoulder to the northeast instead of flexing your right arm/shoulder.


== Resources ==
The allocentric frame of reference is describing motion with respect to other objects. For example, the person is moving relative towards or away from the window. The high jumper’s center of mass is passing under the bar and his pelvis passing over the bar.
*bulleted list
*x
or


#numbered list
An egocentric frame of reference motion is describing motion with respect to the individual's body axes of self, left-right, front-back, up-down.
#x


There is consensus when describing human motion to use the coordinate system as a frame of reference. The cartesian coordinate system uses two perpendicular lines. We use it to specify a point in the 3-dimensional space.
Describing and analyzing human walking and running the coordinate system the frame of reference uses three perpendicular lines:
* '''Vertical line''' assumed to be a line of gravitational force - The body moves fore/aft or side to side relative to the vertical line.
* '''Horizontal line''' – The body moves up-down relative to the line of the horizon
* '''Line of progression''' – The body moves inward-outward relative to the line of progression.
Given these 3 lines of orientation then specific boney prominences are used as reference points to clearly describe human motion ... Given the frame of reference using vertical line, horizontal line, and line of progression and reference points of boney prominence the time/distance, the motion of joints, and/or body segments (kinematics) can be clearly described.
Using this process describing movement we can analyze motion or gait and make judgments whether the motion is normal, deviant, and optimal ... Avoiding the use of an individual’s name or the name of pathology to describe movement prevents confusion. Take time to describe movement relative to a frame of reference and reference points facilitating clarity. Using terminology that describes the frame of reference and reference points to describe motion will result in a movement system language, development of movement system diagnostic categories, and facilitating optimal movement."<ref>Damien Howell Physical Therapy. Optimizing human movement requires clarity of description of movement. Available from: https://damienhowellpt.com/optimizing-human-movement-description-of-movement/ (accessed 8 November 2023).</ref>
''The above information was used with kind permission of Dr. Damien Howell PT.  For more information, please explore Dr. Howell's professional [https://damienhowellpt.com/blog/ blog].''</blockquote>
=== Resources ===
'''Optional Additional Videos''':
Please view this optional 15-minute video for demonstrations of deviant gait patterns.{{#ev:youtube|v=Ndl8s-Td8mM|500}}<ref>
Internal Medicine Made Easy. Abnormal Gait : Steppage, Trendelenburg, Hemiplegic, Diplegic, Antalgic, Ataxic, Parkinsonian. Available from: https://www.youtube.com/watch?v=Ndl8s-Td8mM [last accessed 6.10.2022]</ref>
Please view this short optional video for a demonstration of two methods to use an elastic therapy band for a soft trial for an AFO.
{{#ev:youtube| iHBJ0f0C2uo |500}}<ref>YouTube. Foot Drop Treatment with Resistance Band - For Walking, Gait, and Function | Saebo. Available from: https://www.youtube.com/watch?v=iHBJ0f0C2uo [last accessed 03/08/2022]</ref>
'''Optional Recommended Physiopedia Pages:'''
* [[Gait Training in Stroke]]
* [[Gait Re-education in Parkinson's|Gait Re-education in Parkinsons]]
'''Clinical Resources:'''
*{{pdf|Gaitspot_shoe_sqeaker.pdf|Handout for Gaitspot squeaker shoe adaptation}}
'''Optional Recommended Reading:'''
*Pirker W, Katzenschlager R. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5318488/pdf/508_2016_Article_1096.pdf Gait disorders in adults and the elderly : A clinical guide]. Wien Klin Wochenschr. 2017 Feb;129(3-4):81-95.
*Snodgrass SJ, Heneghan NR, Tsao H, Stanwell PT, Rivett DA, Van Vliet PM. [https://www.mvclinic.es/wp-content/uploads/2017/11/2014_Snodgrass_Recognising-neuroplasticity-in-musculoskeletal-rehabilitation.-A-basis-for-greater-collaboration-between-musculoskeletal-and-neurological-physiotherapists.pdf Recognising neuroplasticity in musculoskeletal rehabilitation: a basis for greater collaboration between musculoskeletal and neurological physiotherapists]. Manual therapy. 2014 Dec 1;19(6):614-7.
*Tosserams A, Wit L, Sturkenboom IH, Nijkrake MJ, Bloem BR, Nonnekes J. [https://n.neurology.org/content/neurology/97/14/e1404.full.pdf Perception and use of compensation strategies for gait impairment by persons with Parkinson disease]. Neurology. 2021 Oct 5;97(14):e1404-12.
== References  ==
== References  ==


<references />
<references />
[[Category:Course Pages]]
[[Category:Plus Content]]

Revision as of 21:54, 8 November 2023

Original Editor - Stacy Schiurring based on the course by Damien Howell

Top Contributors - Stacy Schiurring, Jess Bell, Kim Jackson, Lucinda hampton and Tarina van der Stockt

Introduction[edit | edit source]

Gait deviation is often synonymous with compensational movement.[1] The human body will find a way to make mobility happen, but this sometimes results in less than optimal movement patterns. It is the role of the rehabilitation professional to guide patients through a plan of care to improve and or correct movement dysfunction. The ultimate goal is to achieve an ideal movement for each unique individual.

There are often two schools of thought in physiotherapy: neurological and musculoskeletal clinical paradigms. A 2014 article[2] published in Manual Therapy looks at applying the concepts of neuroplasticity and motor learning to musculoskeletal physiotherapy practice. The authors found that integrating some of these concepts into traditional musculoskeletal physiotherapy treatments improved participants' outcomes with earlier and greater movement gains.[2]

"The authors compare and contrast neurological and musculoskeletal physiotherapy clinical paradigms in the context of the motor learning principles of experience-dependent plasticity: part and whole practice, repetition, task-specificity and feedback that induces an external focus of attention in the learner. It is proposed that increased collaboration between neurological and musculoskeletal physiotherapists and researchers will facilitate new discoveries on the neurophysiological mechanisms underpinning sensorimotor changes in patients with musculoskeletal dysfunction."[2]

The management of neurological gait deviations can differ from that of painful musculoskeletal syndromes in the following ways:[1]

  1. Cognitive impairments can limit the use of explicit motor learning principles and require more implicit mechanisms of motor learning.
  2. Organic degenerative processes that occur with some neurological diagnoses can limit the capacity to alter observed gait deviations.
  3. Gait training for those with neurological gait deviations tends to focus on deviations in the swing phase and double support phase of gait. For musculoskeletal gait deviations, gait training tends to focus primarily on the stance phase of gait.
  4. Gait deviations can be an early sign of some neurodegenerative diseases. The observed gait deviation may be the best available movement pattern for that individual to remain ambulatory and independent. For these patients, the rehabilitation professional needs to be more proactive in terms of potential side effects or unintended consequences when attempting to alter a gait deviation.


The management of neurological gait deviations are similar to that of painful musculoskeletal syndrome in the following ways:[1]

  1. The motor learning mechanisms and considerations of good verbal cueing are applicable to both painful musculoskeletal syndromes and neurological gait deviations.
  2. The motor learning principles of (1) external focus of attention, (2) using the patient's preferred sensory system preference, (3) using positive language, and (4) visual imagery are applicable to both painful musculoskeletal syndromes and neurological gait deviations.
  3. The clinical reasoning process of symptom modification procedures and clinical reasoning of a working hypothesis is still applicable for gait deviations associated with both painful musculoskeletal syndromes and neurological gait deviations.

Neurological Gait Deviations[edit | edit source]

Pirker and Katzenschlager[3] provided a classification of 14 gait disorders associated with neurological conditions. This classification provides a broad description of different gait deviations. There is a need to provide more detail and sub-classification of deviations which occur during gait.[3]

[1][3]Please see the video in the Additional Resources section for demonstrations of many of these deviant gait patterns.
Gait Disorder Characteristics/description
Hemispastic gait Unilateral extension and circumduction
Paraspastic gait
  • Bilateral extension and adduction
  • "Stiff"
Ataxic gait
  • Broad base
  • Lack of coordination
Sensory ataxic gait
  • Cautious
  • Worsening without visual input
Freezing gait
  • Blockage
  • Stopping on turning and or stepping
Propulsive gait
Astasia gait Primary impairment of stance balance
Dystonic gait Abnormal posture of foot and or leg
Choreatic gait
  • Irregular
  • Dance-like
  • Broad-based
Steppage gait Weakness of foot extensors
Waddling gait
  • Broad-based
  • Swaying
  • Drop of swinging leg
Antalgic gait Shortened stance phase on the affected side
Vertiginous gait
  • Insecure
  • Tendency to fall to one side
Psychogenic gait
  • Bizarre
  • Rarely falls


The following is a list of common signs of neuromuscular conditions, which is based on the work of Scheets et al.[4] with additions from Dr Damien Howell.[1] A few of the more common neuromuscular conditions with potential clinical interventions will be outlined in more detail in the chart below.

  1. Increased base of support (BOS)
  2. Decreased BOS
  3. Lateral shift of centre of mass (COM) toward stance limb
  4. Knee hyper-extension stance
  5. Sustained hip knee flexion stance
  6. Vaulting
  7. Toe walking
  8. A limp: unequal step length, decreased time on uninvolved limb
  9. Festination: decreased step length, increased cadence
  10. Freezing difficulty initiating gait
  11. Variable placement of foot
  12. Pelvic elevation contralateral
  13. Circumduction
  14. Scissoring
  15. Decreased hip knee swing phase
  16. Foot drop
[1]
Gait deviation Examples of intervention with possible cue/prompt/feedback
Limp[5]
  • “See that, don’t do that”
  • Imagine / visualise walking with smooth rhythmic steps
  • Take long even steps
  • Spend less time on good leg
  • Spend more time on the weak leg
  • Step to the rhythm beat of the metronome
  • Swing your arms
Slow gait velocity[5]
  • Walk faster
  • Step to the beat of the music at / or greater than 120 beats/minute
  • Adjust treadmill speed
  • Walk with a spring in your step, peer over the crowd
Knee hyperextension
  • Visualise a scaffold around your knee
  • Push off the floor, propel up and forward
  • Therapist touches patient's calf muscle and cues "use this to control your knee"
  • Orthotic trial: Supportive nonelastic[6] or elastic tape, Swedish knee cage
Sustained hip and knee flexion in stance
  • Stay nice and tall
  • Push foot into the ground
  • Use a cane in the contralateral hand
Vaulting[7]
  • Leave heel on the ground longer
  • Imagine / visualise leaving an imprint of heel in wet sand
  • Therapist touches thigh of swing leg and cues “relax the knee”
  • Walk while keeping a book balanced on top of your head
  • Gaitspot squeaker shoe adaptation (see handout in additional resources for details)
  • Trial of a shoe lift with nonaffected limb
Toe walking
  • Let the heel touch the ground
  • Visualise leaving an imprint of your heel in wet sand
  • Take long steps
  • Walk/goose-step/march
  • Backwards walking
  • Gaitspot squeaker shoe adaptation
Freezing[8][9]
  • Mental imagery: visualise coming to the threshold in a doorway and boldly stepping through into the room
  • Self-talk, say out loud: “stop, stand tall, shake off, shift weight, step”
  • Laser light pointer or line target
  • Kinaesthetic specific self-prompting tricks
  • Trial of assistive devices
Festination
  • Mental imagery
  • Laser light pointer or line target
  • Metronome music
  • Backwards walking
Circumduction[7]
  • “See that don’t do that”
  • Therapist touches the front of the patient's hip and cues "lift from your hip"
  • Imagine / visualise walking in deep snow or shallow water
  • Walk close to the wall, do not strike the wall, but do not lean away from it either
  • Trial of a shoe lift for the nonaffected limb[7]
Foot drop
  • Visualise a firm heel strike
  • Trial of a temporary ankle foot orthosis (AFO) with nonelastic tape or an elastic therapy band. *** please see video below
  • Shoe lift for the nonaffected leg
  • Gaitspot squeaker shoe adaptation

Special Topic: Freezing of Gait (FOG)[edit | edit source]

FOG can be defined as a “brief, episodic absence, or marked reduction of forward progression of the feet despite the intention to walk”. FOG related features can include: (1) shuffling, (2) trembling, and (3) complete akinesia. These features are demonstrated during the brief episode of change in forward progression.[10]

Kondo et al.[10] described three phenotypes of FOG based on leg movements:[10]

  1. FOG with very small shuffling steps and minimal forward movement (shuffling)
  2. FOG with some leg trembling but no effective forward motion (trembling)
  3. No observable forward motion of the legs (complete akinesia)

Clinical Pearls: Gait Analysis and the Power of Words[edit | edit source]

According to Dr. Damien Howell:

"Optimizing human movement requires clarity of description of movement. To know where you are going you must first know where you are.

To optimize human movement, analysis of human movement is required.

To identify optimal human movement clear qualitative and quantitative descriptions are needed.

When describing human movement confusion occurs when we fail to clearly identify a frame of reference and reference point.

A common description of a gait deviation is the individual is “hip hiking.”  What is “hip hiking”? Is the thigh bone hiking? is the pelvic bone hiking? is the hiking during the stance phase or swing phase? We need a frame of reference and reference points.

A common description of a gait deviation is a “Trendelenburg sign.” This description confuses me. I am thinking is the patient is in an upside-down position that is used during a surgical procedure. Is there something wrong with superficial veins? Does he have a limp? Naming clinical tests and descriptions of movements after an individual is not helpful.

Describing gait deviation by pathology is not specific enough to direct treatment. Describing a person's gait as he/she is walking with a Parkinson's gait is very wide-ranging. Is there freezing; shuffling; festinating, all the above? The description of a “hemiplegic gait” is not very helpful.  Whereas relative to vertical line there is a lateral shift of the sacrum (center of mass) towards the stance leg description of movement can provide direction for intervention.

Describing movement or motion requires using a frame of reference and a reference point. There are different frames of reference that are used to describe motion.

The Polar coordinate system is a 2-dimensional system in which each point on a plane is determined by a distance from a reference point and the angle of the reference point. It describes the movement, navigation, and travel. Interestingly indigenous people of Australia (Guugu Yimidhirr) use the polar coordinate system to describe human movement. They have no words for left and right. Instead, Guugu Yimidhirr speakers give all their descriptions and directions based on the fixed four cardinal points of the compass: north, south, east, and west. If I was providing Physical Therapy to a Guugu Yimidhirr I ask the individual to move your east arm/shoulder to the northeast instead of flexing your right arm/shoulder.

The allocentric frame of reference is describing motion with respect to other objects. For example, the person is moving relative towards or away from the window. The high jumper’s center of mass is passing under the bar and his pelvis passing over the bar.

An egocentric frame of reference motion is describing motion with respect to the individual's body axes of self, left-right, front-back, up-down.

There is consensus when describing human motion to use the coordinate system as a frame of reference. The cartesian coordinate system uses two perpendicular lines. We use it to specify a point in the 3-dimensional space.

Describing and analyzing human walking and running the coordinate system the frame of reference uses three perpendicular lines:

  • Vertical line assumed to be a line of gravitational force - The body moves fore/aft or side to side relative to the vertical line.
  • Horizontal line – The body moves up-down relative to the line of the horizon
  • Line of progression – The body moves inward-outward relative to the line of progression.

Given these 3 lines of orientation then specific boney prominences are used as reference points to clearly describe human motion ... Given the frame of reference using vertical line, horizontal line, and line of progression and reference points of boney prominence the time/distance, the motion of joints, and/or body segments (kinematics) can be clearly described.

Using this process describing movement we can analyze motion or gait and make judgments whether the motion is normal, deviant, and optimal ... Avoiding the use of an individual’s name or the name of pathology to describe movement prevents confusion. Take time to describe movement relative to a frame of reference and reference points facilitating clarity. Using terminology that describes the frame of reference and reference points to describe motion will result in a movement system language, development of movement system diagnostic categories, and facilitating optimal movement."[11]

The above information was used with kind permission of Dr. Damien Howell PT. For more information, please explore Dr. Howell's professional blog.

Resources[edit | edit source]

Optional Additional Videos:

Please view this optional 15-minute video for demonstrations of deviant gait patterns.

[12]

Please view this short optional video for a demonstration of two methods to use an elastic therapy band for a soft trial for an AFO.

[13]

Optional Recommended Physiopedia Pages:


Clinical Resources:


Optional Recommended Reading:

References[edit | edit source]

  1. 1.0 1.1 1.2 1.3 1.4 1.5 Howell, D. Gait Analysis. Neurologic Gait Deviations. Plus. 2022.
  2. 2.0 2.1 2.2 Snodgrass SJ, Heneghan NR, Tsao H, Stanwell PT, Rivett DA, Van Vliet PM. Recognising neuroplasticity in musculoskeletal rehabilitation: a basis for greater collaboration between musculoskeletal and neurological physiotherapists. Manual therapy. 2014 Dec 1;19(6):614-7.
  3. 3.0 3.1 3.2 Pirker W, Katzenschlager R. Gait disorders in adults and the elderly : A clinical guide. Wien Klin Wochenschr. 2017 Feb;129(3-4):81-95.
  4. Scheets PL, Bloom NJ, MSOT P, Crowner B, MPPA P, McGee PN, PCS P, Norton BJ, FAPTA PP, Sahrmann SA, Stith JS. Movement System Diagnoses Neuromuscular Conditions.
  5. 5.0 5.1 Chang MC, Lee BJ, Joo NY, Park D. The parameters of gait analysis related to ambulatory and balance functions in hemiplegic stroke patients: A gait analysis study. BMC neurology. 2021 Dec;21(1):1-8.
  6. Wang RY, Lin CY, Chen JL, Lee CS, Chen YJ, Yang YR. Adjunct Non-Elastic Hip Taping Improves Gait Stability in Cane-Assisted Individuals with Chronic Stroke: A Randomized Controlled Trial. Journal of Clinical Medicine. 2022 Mar 11;11(6):1553.
  7. 7.0 7.1 7.2 Fortes CE, Carmo AA, Rosa KY, Lara JP, Mendes FA. Immediate changes in post-stroke gait using a shoe lift on the nonaffected lower limb: A preliminary study. Physiotherapy Theory and Practice. 2022 Apr 3;38(4):528-33.
  8. Nonnekes J, Růžička E, Nieuwboer A, Hallett M, Fasano A, Bloem BR. Compensation strategies for gait impairments in Parkinson disease: a review. JAMA neurology. 2019 Jun 1;76(6):718-25.
  9. Tosserams A, Wit L, Sturkenboom IH, Nijkrake MJ, Bloem BR, Nonnekes J. Perception and use of compensation strategies for gait impairment by persons with Parkinson disease. Neurology. 2021 Oct 5;97(14):e1404-12.
  10. 10.0 10.1 10.2 Kondo Y, Mizuno K, Bando K, Suzuki I, Nakamura T, Hashide S, Kadone H, Suzuki K. Measurement Accuracy of Freezing of Gait Scoring Based on Videos. Frontiers in Human Neuroscience. 2022;16.
  11. Damien Howell Physical Therapy. Optimizing human movement requires clarity of description of movement. Available from: https://damienhowellpt.com/optimizing-human-movement-description-of-movement/ (accessed 8 November 2023).
  12. Internal Medicine Made Easy. Abnormal Gait : Steppage, Trendelenburg, Hemiplegic, Diplegic, Antalgic, Ataxic, Parkinsonian. Available from: https://www.youtube.com/watch?v=Ndl8s-Td8mM [last accessed 6.10.2022]
  13. YouTube. Foot Drop Treatment with Resistance Band - For Walking, Gait, and Function | Saebo. Available from: https://www.youtube.com/watch?v=iHBJ0f0C2uo [last accessed 03/08/2022]
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