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'''Original Editor '''- [[User:Abbey Cain|Abby Cain]] as part of the [[WCPT Network for Amputee Rehabilitation Project]]  
'''Original Editor '''- [[User:Abbey Cain|Abby Cain]] as part of the [[World Physiotherapy Network for Amputee Rehabilitation Project]]  


'''Top Contributors''' - {{Special:Contributors/{{FULLPAGENAME}}}} &nbsp;
'''Top Contributors''' - {{Special:Contributors/{{FULLPAGENAME }}}}</div>  
</div>  
== Introduction  ==
== Introduction  ==


While assessing amputee gait it is important to be aware of normal gait and how normal gait in the amputee is affected. You can learn about this on the [[Gait in prosthetic rehabilitation|Gait in prosthetic rehabilitation page]].  
While assessing amputee gait it is important to be aware of normal gait and how normal gait in the amputee is affected. You can learn about this on the [[Gait in prosthetic rehabilitation|Gait in prosthetic rehabilitation page]].  


Furthermore there may be deviations which an amputee will adopt to compensate for the prosthesis, muscle weakness or tightening, lack of balance and fear. These deviations create an altered gait pattern and it is important that these are recognised, as rehabilitation of the gait will need to encompass corrections of these deviations<ref name="AUSTPAR" /><ref name="Smith" />.  
Furthermore, there may be deviations which an amputee will adopt to compensate for the prosthesis, muscle weakness or tightening, lack of balance and fear. These deviations create an altered gait pattern and it is important that these are recognised, as rehabilitation of the gait will need to encompass corrections of these deviations<ref>Esquenazi A. Gait analysis in lower-limb amputation and prosthetic rehabilitation. Physical Medicine and Rehabilitation Clinics. 2014 Feb 1;25(1):153-67.</ref><ref name=":0">Silverman AK, Fey NP, Portillo A, Walden JG, Bosker G, Neptune RR. Compensatory mechanisms in below-knee amputee gait in response to increasing steady-state walking speeds. Gait & posture. 2008 Nov 1;28(4):602-9.</ref><ref>Murphy DP, editor. Fundamentals of amputation care and prosthetics. Demos Medical Publishing; 2013 Aug 28.</ref><ref name=":1">Pasquina PF, Cooper RA. l-ower Extremity Amputation.</ref><ref name=":2">REhABiLitAtion A. Evidence Based Clinical Guidelines for the Physiotherapy Management of Adults with Lower Limb Prostheses.</ref>.  


Common deviations are listed in the tables below:  
Gait deviations in lower limb amputees can be broadly broken into the patient and the prosthetic causes:<ref>LE VAN TU. ''Evaluation of Trans-femoral Prosthesis Function Using Finite Element Analysis'' (Doctoral dissertation, SHIBAURA INSTITUTE OF TECHNOLOGY).</ref>


== Transtibial ==
*Patient Causes:
**Muscle weakness
**Contracture
**Pain
**Decreased confidence in the prosthesis or residual limb
**Habitual/learned behaviours
*Prosthetic Causes:
**Prosthetic malalignment
**Poor-fitting prosthetic socket
Important things to note about the gait of people with lower-limb amputations:<ref name=":3">Varrecchia T, Serrao M, Rinaldi M, Ranavolo A, Conforto S, De Marchis C, Simonetti A, Poni I, Castellano S, Silvetti A, Tatarelli A. Common and specific gait patterns in people with varying anatomical levels of lower limb amputation and different prosthetic components. Human movement science. 2019 Aug 1;66:9-21.</ref>
* Gait patterns are different than age-matched people without an amputation
* "Transtibial and transfemoral amputees show a common and specific gait pattern"<ref name=":3" />
* Transfemoral amputees have a more asymmetric gait than transtibial amputees
* The level of the amputation and the type of prosthesis affect gait, for e.g. in transfemoral amputees, the type of prosthesis will influence the gait pattern of the same person, in both performance and adaptation. <ref name=":3" />
The trunk and lower limb gait:<ref name=":4">Yoder AJ, Silder AB, Farrokhi S, Dearth CL, Hendershot BD. Lower extremity joint contributions to trunk control during walking in persons with transtibial amputation. Scientific reports. 2019 Aug 22;9(1):1-8.</ref>
* Someone with a lower limb amputation can have altered trunk motion during functional tasks
* Increased trunk flexion and trunk velocity can be some of the risks associated with falling for this population. 
* Assessment and rehab should include not only trunk-pelvis, core, and hip abductor strength but also focus on training of the placement of the prosthetic knee and foot to help modify trunk movement during gait. <ref name=":4" />
Common deviations are listed in the tables below:
==Transtibial Gait Deviations :<ref name=":0" /><ref>Winter DA, Sienko SE. Biomechanics of below-knee amputee gait. Journal of biomechanics. 1988 Jan 1;21(5):361-7.</ref><ref name=":1" />==


{| width="100%" border="1" align="center" cellpadding="1" cellspacing="1"
{| class="wikitable"
|-
|+Table 1. Transtibial Gait Deviations
| Name  
|'''Name'''
| Description
| Causes
| Illustration
|-
| Absent knee flexion
| Knee fully extended at heel strike
|
Faulty suspension of the prosthesis - too soft heel cushion or plantar flexor bumpers
 
Foot placement too far forward on stepping


Lack of pre-flexion of the socket
|'''Description'''
 
|'''Causes'''
Discomfort/pain
|'''Illustration'''
 
Quads weakness<ref name="Smith" /><ref name="Hunter New England">Hunter New England. NSW Health Duff K. Prosthetic gait deviations. Page link on Australian Physiotherapist in Amputee Rehabilitation. http://www.austpar.com/portals/gait/docs-and-presentations/ProstheticGaitDeviations.pps (accessed 6 February 2015)</ref>
 
|  
|-
|-
| Excessive Knee Flexion
!'''Absent/inadequate knee flexion'''
| Increased knee flexion at heel strike (or mid stance), patient feels as though walking downhill<br>
|Knee fully extended at heel strike
|  
|
Faulty suspension of prosthesis  
* Faulty suspension of the prosthesis - too soft heel cushion or plantar flexor bumpers
 
* Foot placement too far forward on stepping
Prosthetic foot set in too much dorsiflexion
* Lack of pre-flexion of the socket
 
* Discomfort/pain
Stiff heel cushion  
* Quads weakness.
 
Flexion contracture of the knee
 
Foot too posterior in relation to socket<ref name="Smith" /><ref name="Berger" /><ref name="Hunter New England" />
 
| {{#ev:youtube|boSPDItTtco|200}}
| {{#ev:youtube|boSPDItTtco|200}}
|-
|-
| External Rotation of Foot at Heel Strike
|'''Excessive Knee Flexion'''
| External rotation of the prosthesis/foot at heel strike.&nbsp;
|Increased knee flexion at heel strike (or mid stance), the patient feels as though walking downhill<br>
|
|
heel to hard
* Faulty suspension of the prosthesis
* Prosthetic foot set in too much dorsiflexion
* Stiff heel cushion
* Flexion contracture of the knee
* Foot too posterior in relation to the socket


loose socket<ref name="Hunter New England" />  
|
|-
|'''External Rotation of Foot at Heel Strike'''
| External rotation of the prosthesis/foot at heel strike.&nbsp;
|
* heel to hard
* loose socket.<ref name="Hunter New England">Hunter New England. NSW Health Duff K. Prosthetic gait deviations. Page link on Australian Physiotherapist in Amputee Rehabilitation. http://www.austpar.com/portals/gait/docs-and-presentations/ProstheticGaitDeviations.pps (accessed 6 February 2015)</ref>


| {{#ev:youtube|TRDldHblPs4|200}}  
|{{#ev:youtube|TRDldHblPs4|200}}  
{{#ev:youtube|hiidXLz1Q-k|200}}  
{{#ev:youtube|hiidXLz1Q-k|200}}


|-
|-
| Knee instability  
|'''Knee instability'''
| Knee flexion ‘jerky’ in presentation during heel strike to foot flat  
|Knee flexion ‘jerky’ in the presentation during heel strike to foot flat  
| Weak Quadriceps<ref name="Smith" />
|
| {{#ev:youtube|I7KI9nZnbWo|200}}
* Weak Quadriceps
|{{#ev:youtube|I7KI9nZnbWo|200}}
|-
|-
| Valgus/Varus Moment  
|'''Valgus/Varus Moment'''
| Knee shifts medially or laterally during prosthetic stance phase<br>  
| Knee shifts medially or laterally during prosthetic stance phase<br>
|  
|
Foot placement (medial placement causes lateral thrust and vice versa)  
* Foot placement (medial placement causes lateral thrust and vice versa)
 
* Foot alignment on the prosthesis
Foot alignment on the prosthesis  
* Socket loose.<ref name="Hunter New England" />
 
Socket loose<ref name="Smith" /><ref name="Hunter New England" />  


| {{#ev:youtube|fol4gSdI128|200}}  
|{{#ev:youtube|fol4gSdI128|200}}  
{{#ev:youtube|qB5UcQtiK3g|200}}  
{{#ev:youtube|qB5UcQtiK3g|200}}


|-
|-
| Drop Off  
|'''Drop Off'''
| Heel off occurs too early causing early knee flexion&nbsp;  
|Heel off occurs too early causing early knee flexion&nbsp;
|  
|
Foot too posterior on the prosthesis in relation to the socket  
* Foot too posterior on the prosthesis in relation to the socket
 
* Excessive dorsiflexion of the foot on the prosthesis
Excessive dorsiflexion of the foot on the prosthesis  
* Soft heel bumper on the prosthesis.<ref name="Hunter New England" />
 
Soft heel bumper on the prosthesis<ref name="Smith" /><ref name="Hunter New England" />  


| {{#ev:youtube|N1mhIeeMlGU|200}}
|{{#ev:youtube|N1mhIeeMlGU|200}}
|-
|-
| Knee Hyperextension  
|'''Knee Hyperextension'''
| Delayed heel causing hyperextension of the knee, walking up hill sensation  
|Delayed heel causing hyperextension of the knee, walking uphill sensation
|  
|
Foot set too far forward on the prosthesis in relation to socket  
* Foot set too far forward on the prosthesis in relation to the socket
* Too hard a heel cushion
* Too much plantar flexion on the foot.


Too hard a heel cushion
|{{#ev:youtube|VWHGWEP_vC8|200}}
 
Too much plantar flexion on the foot<ref name="Berger" />
 
| {{#ev:youtube|VWHGWEP_vC8|200}}
|-
|-
| Whip  
|'''Whip'''
| During swing phase foot ‘whips’ laterally or medially
|
Poor suspension


Knee internally or externally rotated<ref name="Smith" /><ref name="Hunter New England" />  
|During swing phase foot ‘whips’ laterally or medially
 
|
| {{#ev:youtube|wfG7sg7dQMA|200}}
* Poor suspension
{{#ev:youtube|VsbrSRwoaSGU|200}}
* Knee internally or externally rotated<ref name="Hunter New England" />


|{{#ev:youtube|wfG7sg7dQMA|200}}
|-
|-
| Pistoning  
|'''Pistoning'''
| Amputee drops into the socket as the foot moves into flat foot, tibia moves vertically during alternately weight bearing and non-weight bearing periods of gait  
|Amputee drops into the socket as the foot moves into flat foot, tibia moves vertically during alternately weight bearing and non-weight bearing periods of gait
|  
|
Lack of prosthetic socks  
* Lack of prosthetic socks
* Suspension loose or inadequate
* Too large or faulty socket<br>


Suspension loose or inadequate
|{{#ev:youtube|GtdsMzBOgqs|200}}
 
Too large or faulty socket
 
<br>
 
| {{#ev:youtube|GtdsMzBOgqs|200}}
|}
|}
<br>
<br>


== Transfemoral Gait Deviations ==
==Transfemoral Gait Deviations:<ref name=":1" />==


{| width="100%" border="1" align="center" cellpadding="1" cellspacing="1"
{| class="wikitable"
|-
|+Table 2. Transfemoral Gait Deviations
| Name  
|'''Name'''
| Description  
|'''Description'''
| Causes  
|'''Causes'''
| Illustration
|'''Illustration'''
|-
|-
| Prosthetic Instability  
!'''Prosthetic Instability'''
| The prosthetic knee has a tendency to buckle on weight bearing<br>  
|The prosthetic knee has a tendency to buckle on weight bearing<br>
|  
|
Knee set too far anterior <br>  
* Knee set too far anterior <br>Heel cushion too firm <br>
 
* Weak hip extensors <br>
Heel cushion too firm <br>  
* The heel of the shoe too high causing the pylon of the prosthesis to move anteriorly <br>
 
* Severe hip flexion contracture<ref name="Hunter New England" />
Weak hip extensors <br>  
|{{#ev:youtube|guzHBE_TDVY|200}}  
 
{{#ev:youtube|yF24Lqhdq1s|200}}
Heel of the shoe too high causing the pylon of the prosthesis to move anteriorly <br>  
 
Severe hip flexion contracture<ref name="Smith" /><ref name="Hunter New England" />  
 
| {{#ev:youtube|guzHBE_TDVY|200}}  
{{#ev:youtube|yF24Lqhdq1s|200}}  


|-
|-
| Foot Slap  
|'''Foot Slap'''
| Foot progresses too quickly from heel strike to foot flat, creating a slapping noise<br>  
|Foot progresses too quickly from heel strike to foot flat, creating a slapping noise<br>
|  
|
Patient forcing foot contact to gain knee stability <br>  
* Patient forcing foot contact to gain knee stability <br>
* Heel cushion too soft <br>
* Plantar flexion cushion too soft <br>
* Excessive dorsiflexion.<ref name="Hunter New England" />


Heel cushion too soft <br>
|{{#ev:youtube|O9xB_SivZ7E|200}}  
 
{{#ev:youtube|hmrUx488WM0|200}}
Plantar flexion cushion too soft <br>
 
Excessive dorsiflexion<ref name="Smith" /><ref name="Hunter New England" /><ref name="Evans" />
 
| {{#ev:youtube|O9xB_SivZ7E|200}}  
{{#ev:youtube|hmrUx488WM0|200}}  


|-
|-
| Abducted Gait  
|'''Abducted Gait'''
| Increased base of support during mobility, prosthetic foot placement is lateral to the normal foot placement during the gait cycle<ref name="Evans" />
|Increased base of support during mobility, prosthetic foot placement is lateral to the normal foot placement during the gait cycle.
|  
|
Prosthesis too long <br>  
* Prosthesis too long <br>
* Socket too small <br>
* Suspension belt may be insufficient-band may be too far from the ileum <br>
* Pain in the groin or medial wall of the prosthesis <br>
* Hip abductor contractures <br>
* Lateral wall of the prosthesis not supporting the femur sufficiently <br>
* The socket of prosthesis abducted in alignment <br>
* Fear/lack of confidence transferring weight onto prosthesis <br>
* Alignment of the lower half of the pylon of the prosthesis in relation to socket<ref name="Hunter New England" />.


Socket too small <br>
|{{#ev:youtube|3Dj-qBmFGbY|200}}
 
Suspension belt may be insufficient-band may be too far from the ileum <br>
 
Pain in the groin or medial wall of the prosthesis <br>
 
Hip abductor contractures <br>
 
Lateral wall of the prosthesis not supporting the femur sufficiently <br>
 
Socket of prosthesis abducted in alignment <br>
 
Fear/lack of confidence transferring weight onto prosthesis <br>
 
Alignment of the lower half of the pylon of the prosthesis in relation to socket<ref name="Smith" /><ref name="Hunter New England" /><ref name="Evans" />
 
| {{#ev:youtube|3Dj-qBmFGbY|200}}
|-
|-
| Lateral Trunk Bending&nbsp;  
|'''Lateral Trunk Bending&nbsp''';
| Trunk flexes towards prosthesis during prosthetic stance phase
|
Prosthesis too short <br>
 
Short stump length <br>
 
Weak or contracted hip abductors <br>
 
Foot outset excessively in relation to socket <br>
 
Lack of prosthetic lateral wall support <br>
 
Pain on the lateral distal end of the stump <br>
 
Lack of balance <br>


Habit<ref name="Smith" /><ref name="Hunter New England" /><ref name="Evans" />
|Trunk flexes towards prosthesis during prosthetic stance phase
|
* Prosthesis too short <br>
* Short stump length <br>
* Weak or contracted hip abductors <br>
* Foot outset excessively in relation to socket <br>
* Lack of prosthetic lateral wall support <br>
* Pain on the lateral distal end of the stump <br>
* Lack of balance <br>
* Habit<ref name="Hunter New England" />.


| {{#ev:youtube|b2n0USprXmQ|200}}
|{{#ev:youtube|b2n0USprXmQ|200}}
|-
|-
| Anterior Trunk Bending&nbsp;  
|'''Anterior Trunk Bending&nbsp''';
| Trunk flexes forwards during prosthetic stance phase  
|Trunk flexes forwards during prosthetic stance phase
|  
|
| {{#ev:youtube|S5Xb_FBDroo|200}}
|{{#ev:youtube|S5Xb_FBDroo|200}}
|-
|-
| Increased Lumbar Lordosis  
|'''Increased Lumbar Lordosis'''
| Lumbar lordosis is exaggerated during prosthetic stance phase<br><br>  
|Lumbar lordosis is exaggerated during prosthetic stance phase<br><br>
|  
|
Poor shaping of posterior wall of the prosthesis or pain on ischial weight bearing, resulting in anterior pelvic rotation <br>  
* Poor shaping of the posterior wall of the prosthesis or pain on ischial weight bearing, resulting in anterior pelvic rotation <br>
 
* Flexion contracture at the hip <br>
Flexion contracture at the hip <br>  
* Weak hip extensor <br>
 
* Habit <br>
Weak hip extensor <br>  
* Poor abdominal muscles <br>
 
* Lack of support from the anterior wall of the socket <br>
Habit <br>  
* Insufficient socket flexion<ref name="Hunter New England" />.


Poor abdominal muscles <br>
|
 
Lack of support from the anterior wall of the socket <br>
 
Insufficient socket flexion<ref name="Smith" /><ref name="Hunter New England" /><ref name="Evans" />
 
|  
|-
|-
| Whip (during swing phase)  
|'''Whip (during swing phase)'''
| At toe off heel moves laterally (lateral whip) or medially (medial whip)<br>  
|At toe-off heel moves laterally (lateral whip) or medially (medial whip)<br>
|  
|
Prosthetic knee alignment <br>  
* Prosthetic knee alignment <br>
 
* Incorrect donning of the prosthesis i.e. applied internally rotated or externally rotated weakness around the femur <br>
Incorrect donning of the prosthesis i.e. applied internally rotated or externally rotated weakness around femur <br>  
* Prosthetic too tight.
 
Prosthetic too tight<ref name="Smith" /><ref name="Evans" />


| {{#ev:youtube|wfG7sg7dQMA|200}}  
|{{#ev:youtube|wfG7sg7dQMA|200}}  
{{#ev:youtube|sbrSRwoaSGU|200}} {{#ev:youtube|tu_wWjZYpDI|200}}  
{{#ev:youtube|sbrSRwoaSGU|200}} {{#ev:youtube|tu_wWjZYpDI|200}}


|-
|-
| Pistoning
|'''Pistoning'''
| Socket dropping off when prosthesis lifted  
|Socket dropping off when prosthesis lifted
|  
|
Insufficient suspension <br>  
* Insufficient suspension <br>
* Socket too loose or delayed knee flexion during toe off (‘free knee only’) caused by increased resistance of the prosthesis <br>
* Alignment of prosthesis


Socket too loose<ref name="Smith" /> or delayed knee flexion during toe off (‘free knee only’) caused by increased resistance of the prosthesis <br>
|{{#ev:youtube|88_197aMC9Q|200}}
 
Alignment of prosthesis<ref name="Smith" />
 
| {{#ev:youtube|88_197aMC9Q|200}}
|-
|-
| Excessive Heel Rise  
|'''Excessive Heel Rise'''
| Prosthetic heel rises more than sound side  
|Prosthetic heel rises more than sound side
|  
|
Lack of friction on prosthetic knee <br>  
* Lack of friction on prosthetic knee <br>
* Amputee generating more force than required to gain knee flexion <br>
* Poor/lack of extension aid<ref name="Hunter New England" />


Amputee generating more force then required to gain knee flexion <br>
|{{#ev:youtube|3sH3DAePmLk|200}}
 
Poor/lack of extension aid<ref name="Smith" /><ref name="Hunter New England" /><ref name="Evans" />
 
| {{#ev:youtube|3sH3DAePmLk|200}}
|-
|-
| Reduced Heel Rise  
|'''Reduced Heel Rise'''
| Prosthetic heel does not rise as much as sound side<br>  
|Prosthetic heel does not rise as much as sound side<br>
|  
|
Locked knee <br>  
* Locked knee <br>
* Lack of hip flexion <br>
* Too much friction on free knee <br>
* Extension aid to tight<ref name="Hunter New England" />


Lack of hip flexion <br>
|
 
Too much friction on free knee <br>
 
Extension aid to tight<ref name="Hunter New England" />
 
|  
|-
|-
| Circumduction  
|
| Lateral curvature of swing phase of prosthesis  
'''Circumduction'''
|  
|Lateral curvature of the swing phase of prosthesis
Prosthesis too long <br>  
|
 
* Prosthesis too long <br>
Fixed knee and poor hip hitching <br>  
* Fixed knee and poor hip hitching <br>
* Poor suspension causing prosthesis to slip <br>
* Excessive plantar flexion of the foot <br>
* Abduction contractures <br>
* Habit <br>
* Weak hip flexors <br>
* Socket too small <br>
* Insufficient knee flexion<ref name="Hunter New England" />.


Poor suspension causing prosthesis to slip <br>
|{{#ev:youtube|a-m9D2GRTPU|200}}
 
Excessive plantar flexion of the foot <br>
 
Abduction contractures <br>
 
Habit <br>
 
Weak hip flexors <br>
 
Socket too small <br>
 
Insufficient knee flexion<ref name="Smith" /><ref name="Hunter New England" /><ref name="Evans" />
 
| {{#ev:youtube|a-m9D2GRTPU|200}}
|-
|-
| Vaulting  
|'''Vaulting'''
| Amputee rises onto toe of the non prosthetic limb during prosthetic swing phase  
|Amputee rises onto the toe of the non-prosthetic limb during the prosthetic swing phase  
|  
|
Prosthesis too long <br>  
* Prosthesis too long <br>
 
* Habit <br>
Habit <br>  
* Fear of catching the toe of the prosthesis on the floor <br>
 
* Insufficient knee flexion (free knee) due to decreased confidence <br>
Fear of catching toe on the floor <br>  
* Lack of ‘hip hitching’ with a ‘locked/fixed knee’ <br>
 
* Poor suspension prosthesis-slips off during swing phase <br>
Insufficient knee flexion (free knee) due to decreased confidence <br>  
* Socket too small <br>
 
* Excessive friction on knee flexion of the prosthesis<ref name="Hunter New England" />.
Lack of ‘hip hitching’ with a ‘locked/fixed knee’ <br>  
 
Poor suspension prosthesis-slips off during swing phase <br>  
 
Socket too small <br>  
 
Excessive friction on knee flexion of the prosthesis<ref name="Smith" /><ref name="Berger" /><ref name="Hunter New England" /><ref name="Evans" />


| {{#ev:youtube|i2bxODibvb0|200}}  
|{{#ev:youtube|i2bxODibvb0|200}}  
{{#ev:youtube|xtVeTV59hI4|200}}  
{{#ev:youtube|xtVeTV59hI4|200}}


|-
|-
| Terminal Impact
|'''Terminal Impact'''
| Forcible impact as knee goes into extension at end of terminal swing phase, just before heel strike  
|Forcible impact as the knee goes into extension at end of terminal swing phase, just before heel strike  
|  
|
Lack of friction of knee flexion <br>  
* Lack of friction of knee flexion <br>
 
* Extension aid too excessive <br>
Extension aid too excessive <br>  
* Absent extension bumper <br>
 
* Amputee deliberately snaps knee into extension by excessive force to ensure extension.<br>
Absent extension bumper <br>  
 
Amputee deliberately snaps knee into extension by excessive force to ensure extension<ref name="Smith" /><ref name="Evans" /><br>  


| {{#ev:youtube|tyVKxmvFBVQ|200}}  
|{{#ev:youtube|tyVKxmvFBVQ|200}}
|}
|}
<br>
<br>
 
==Both Transfemoral and Transtibial: <ref>Gailey R. Rehabilitation of a traumatic lower limb amputee. Physiotherapy Research International. 1998 Nov;3(4):239-43.</ref><ref name=":2" />==
== Both Transfermoral and Transtibial ==


Steps are of uneven duration or length, usually a short stance phase on the prosthetic side  
Steps are of uneven duration or length, usually a short stance phase on the prosthetic side  
 
{| class="wikitable"
{| width="100%" border="1" align="center" cellpadding="1" cellspacing="1"
|+Table 3. Both Transfemoral and Transtibial Gait Deviations
|'''Name'''
|'''Description'''
|'''Causes'''
|'''Illustration'''
|-
|-
| Name
!'''Uneven Step Length'''
| Description
| Steps are of uneven duration or length, usually a short stance phase on the prosthetic side&nbsp;&nbsp;
| Causes
|
| Illustration
* Fixed flexion deformity at the knee
|-
* Insufficient friction of prosthetic knee creating an increased step length on prosthetic side,
| Uneven Step Length  
* Hip flexion contracture
| Steps are of uneven duration or length, usually a short stance phase on the prosthetic side&nbsp;&nbsp;  
* Pain leading to decreased weight bearing on the prosthetic side&nbsp;
|  
* Fear
Fixed flexion deformity at knee  
* Poor balance
* Painful poorly fitting socket


Insufficient friction of prosthetic knee creating an increased step length on prosthetic side,
|{{#ev:youtube|ZdOAW4T652I|200}}
 
Hip flexion contracture
 
Pain leading to decreased weight bearing on prosthetic side<ref name="Smith" /><ref name="Evans" />&nbsp;
 
Fear
 
Poor balance
 
Painful poorly fitting socket
 
| {{#ev:youtube|ZdOAW4T652I|200}}
|-
|-
| Uneven Arm Swing  
|'''Uneven Arm Swing (secondary deviation)'''
| Arm on the prosthetic side is held close to the body  
|The arm on the prosthetic side is held close to the body
|  
|
Poor prosthetic fit  
* Poor prosthetic fit
* Poor balance
* Fear
* Habit
* Always due to other gait deviations and lack of training


Poor balance
|
 
|}
Fear
<br>
 
Habit<ref name="Evans" />  
 
|
|-
|
| Unequal weight bearing/reduced stance phase on prosthesis
|
Poor fitting socket leading to reduced stability
 
Pain
 
Muscle weakness
 
Poor balance
 
Fear and insecurity


Poor extension aid or insufficient knee friction resulting in early excessive heel off and reduce stance time on prosthesis
This is not an exhaustive list and the deviation described for each level of amputation is not exclusive to that level, but is more likely to occur for that amputation.


Inadequate prosthetic foot position<ref name="Evans" />
==Resources==
 
{{#ev:youtube|VtPQrHmnmhw|300}}<ref>PT Final Exam. PT Final Exam. June 2019.  Available from: https://youtu.be/VtPQrHmnmhw</ref>
|  
|}


<br>
[https://www.youtube.com/playlist?list=PLC4C0A7332DA05CFF YouTube Playlist with Amputee Gait Deviations]


This is not an exhaustive list and the deviation described for each level of amputation is not exclusive to that level, but is more likely to occur for that amputation.f
==References==
<references />
[[Category:Course Pages]]
[[Category:Plus Content]]
[[Category:Assessment]]
[[Category:Prosthetics and Orthotics]]
[[Category:Amputees]]
[[Category:Gait]]

Latest revision as of 17:52, 7 May 2024

Original Editor - Abby Cain as part of the World Physiotherapy Network for Amputee Rehabilitation Project

Top Contributors - Admin, Shaimaa Eldib, Kalyani Yajnanarayan, Naomi O'Reilly, Kim Jackson, Tarina van der Stockt and Tony Lowe

Introduction[edit | edit source]

While assessing amputee gait it is important to be aware of normal gait and how normal gait in the amputee is affected. You can learn about this on the Gait in prosthetic rehabilitation page.

Furthermore, there may be deviations which an amputee will adopt to compensate for the prosthesis, muscle weakness or tightening, lack of balance and fear. These deviations create an altered gait pattern and it is important that these are recognised, as rehabilitation of the gait will need to encompass corrections of these deviations[1][2][3][4][5].

Gait deviations in lower limb amputees can be broadly broken into the patient and the prosthetic causes:[6]

  • Patient Causes:
    • Muscle weakness
    • Contracture
    • Pain
    • Decreased confidence in the prosthesis or residual limb
    • Habitual/learned behaviours
  • Prosthetic Causes:
    • Prosthetic malalignment
    • Poor-fitting prosthetic socket

Important things to note about the gait of people with lower-limb amputations:[7]

  • Gait patterns are different than age-matched people without an amputation
  • "Transtibial and transfemoral amputees show a common and specific gait pattern"[7]
  • Transfemoral amputees have a more asymmetric gait than transtibial amputees
  • The level of the amputation and the type of prosthesis affect gait, for e.g. in transfemoral amputees, the type of prosthesis will influence the gait pattern of the same person, in both performance and adaptation. [7]

The trunk and lower limb gait:[8]

  • Someone with a lower limb amputation can have altered trunk motion during functional tasks
  • Increased trunk flexion and trunk velocity can be some of the risks associated with falling for this population.
  • Assessment and rehab should include not only trunk-pelvis, core, and hip abductor strength but also focus on training of the placement of the prosthetic knee and foot to help modify trunk movement during gait. [8]

Common deviations are listed in the tables below:

Transtibial Gait Deviations :[2][9][4][edit | edit source]

Table 1. Transtibial Gait Deviations
Name Description Causes Illustration
Absent/inadequate knee flexion Knee fully extended at heel strike
  • Faulty suspension of the prosthesis - too soft heel cushion or plantar flexor bumpers
  • Foot placement too far forward on stepping
  • Lack of pre-flexion of the socket
  • Discomfort/pain
  • Quads weakness.
Excessive Knee Flexion Increased knee flexion at heel strike (or mid stance), the patient feels as though walking downhill
  • Faulty suspension of the prosthesis
  • Prosthetic foot set in too much dorsiflexion
  • Stiff heel cushion
  • Flexion contracture of the knee
  • Foot too posterior in relation to the socket
External Rotation of Foot at Heel Strike External rotation of the prosthesis/foot at heel strike. 
  • heel to hard
  • loose socket.[10]
Knee instability Knee flexion ‘jerky’ in the presentation during heel strike to foot flat
  • Weak Quadriceps
Valgus/Varus Moment Knee shifts medially or laterally during prosthetic stance phase
  • Foot placement (medial placement causes lateral thrust and vice versa)
  • Foot alignment on the prosthesis
  • Socket loose.[10]
Drop Off Heel off occurs too early causing early knee flexion 
  • Foot too posterior on the prosthesis in relation to the socket
  • Excessive dorsiflexion of the foot on the prosthesis
  • Soft heel bumper on the prosthesis.[10]
Knee Hyperextension Delayed heel causing hyperextension of the knee, walking uphill sensation
  • Foot set too far forward on the prosthesis in relation to the socket
  • Too hard a heel cushion
  • Too much plantar flexion on the foot.
Whip During swing phase foot ‘whips’ laterally or medially
  • Poor suspension
  • Knee internally or externally rotated[10]
Pistoning Amputee drops into the socket as the foot moves into flat foot, tibia moves vertically during alternately weight bearing and non-weight bearing periods of gait
  • Lack of prosthetic socks
  • Suspension loose or inadequate
  • Too large or faulty socket


Transfemoral Gait Deviations:[4][edit | edit source]

Table 2. Transfemoral Gait Deviations
Name Description Causes Illustration
Prosthetic Instability The prosthetic knee has a tendency to buckle on weight bearing
  • Knee set too far anterior
    Heel cushion too firm
  • Weak hip extensors
  • The heel of the shoe too high causing the pylon of the prosthesis to move anteriorly
  • Severe hip flexion contracture[10]
Foot Slap Foot progresses too quickly from heel strike to foot flat, creating a slapping noise
  • Patient forcing foot contact to gain knee stability
  • Heel cushion too soft
  • Plantar flexion cushion too soft
  • Excessive dorsiflexion.[10]
Abducted Gait Increased base of support during mobility, prosthetic foot placement is lateral to the normal foot placement during the gait cycle.
  • Prosthesis too long
  • Socket too small
  • Suspension belt may be insufficient-band may be too far from the ileum
  • Pain in the groin or medial wall of the prosthesis
  • Hip abductor contractures
  • Lateral wall of the prosthesis not supporting the femur sufficiently
  • The socket of prosthesis abducted in alignment
  • Fear/lack of confidence transferring weight onto prosthesis
  • Alignment of the lower half of the pylon of the prosthesis in relation to socket[10].
Lateral Trunk Bending&nbsp; Trunk flexes towards prosthesis during prosthetic stance phase
  • Prosthesis too short
  • Short stump length
  • Weak or contracted hip abductors
  • Foot outset excessively in relation to socket
  • Lack of prosthetic lateral wall support
  • Pain on the lateral distal end of the stump
  • Lack of balance
  • Habit[10].
Anterior Trunk Bending&nbsp; Trunk flexes forwards during prosthetic stance phase
Increased Lumbar Lordosis Lumbar lordosis is exaggerated during prosthetic stance phase
  • Poor shaping of the posterior wall of the prosthesis or pain on ischial weight bearing, resulting in anterior pelvic rotation
  • Flexion contracture at the hip
  • Weak hip extensor
  • Habit
  • Poor abdominal muscles
  • Lack of support from the anterior wall of the socket
  • Insufficient socket flexion[10].
Whip (during swing phase) At toe-off heel moves laterally (lateral whip) or medially (medial whip)
  • Prosthetic knee alignment
  • Incorrect donning of the prosthesis i.e. applied internally rotated or externally rotated weakness around the femur
  • Prosthetic too tight.
Pistoning Socket dropping off when prosthesis lifted
  • Insufficient suspension
  • Socket too loose or delayed knee flexion during toe off (‘free knee only’) caused by increased resistance of the prosthesis
  • Alignment of prosthesis
Excessive Heel Rise Prosthetic heel rises more than sound side
  • Lack of friction on prosthetic knee
  • Amputee generating more force than required to gain knee flexion
  • Poor/lack of extension aid[10]
Reduced Heel Rise Prosthetic heel does not rise as much as sound side
  • Locked knee
  • Lack of hip flexion
  • Too much friction on free knee
  • Extension aid to tight[10]

Circumduction

Lateral curvature of the swing phase of prosthesis
  • Prosthesis too long
  • Fixed knee and poor hip hitching
  • Poor suspension causing prosthesis to slip
  • Excessive plantar flexion of the foot
  • Abduction contractures
  • Habit
  • Weak hip flexors
  • Socket too small
  • Insufficient knee flexion[10].
Vaulting Amputee rises onto the toe of the non-prosthetic limb during the prosthetic swing phase
  • Prosthesis too long
  • Habit
  • Fear of catching the toe of the prosthesis on the floor
  • Insufficient knee flexion (free knee) due to decreased confidence
  • Lack of ‘hip hitching’ with a ‘locked/fixed knee’
  • Poor suspension prosthesis-slips off during swing phase
  • Socket too small
  • Excessive friction on knee flexion of the prosthesis[10].
Terminal Impact Forcible impact as the knee goes into extension at end of terminal swing phase, just before heel strike
  • Lack of friction of knee flexion
  • Extension aid too excessive
  • Absent extension bumper
  • Amputee deliberately snaps knee into extension by excessive force to ensure extension.


Both Transfemoral and Transtibial: [11][5][edit | edit source]

Steps are of uneven duration or length, usually a short stance phase on the prosthetic side

Table 3. Both Transfemoral and Transtibial Gait Deviations
Name Description Causes Illustration
Uneven Step Length Steps are of uneven duration or length, usually a short stance phase on the prosthetic side  
  • Fixed flexion deformity at the knee
  • Insufficient friction of prosthetic knee creating an increased step length on prosthetic side,
  • Hip flexion contracture
  • Pain leading to decreased weight bearing on the prosthetic side 
  • Fear
  • Poor balance
  • Painful poorly fitting socket
Uneven Arm Swing (secondary deviation) The arm on the prosthetic side is held close to the body
  • Poor prosthetic fit
  • Poor balance
  • Fear
  • Habit
  • Always due to other gait deviations and lack of training


This is not an exhaustive list and the deviation described for each level of amputation is not exclusive to that level, but is more likely to occur for that amputation.

Resources[edit | edit source]

[12]

YouTube Playlist with Amputee Gait Deviations

References[edit | edit source]

  1. Esquenazi A. Gait analysis in lower-limb amputation and prosthetic rehabilitation. Physical Medicine and Rehabilitation Clinics. 2014 Feb 1;25(1):153-67.
  2. 2.0 2.1 Silverman AK, Fey NP, Portillo A, Walden JG, Bosker G, Neptune RR. Compensatory mechanisms in below-knee amputee gait in response to increasing steady-state walking speeds. Gait & posture. 2008 Nov 1;28(4):602-9.
  3. Murphy DP, editor. Fundamentals of amputation care and prosthetics. Demos Medical Publishing; 2013 Aug 28.
  4. 4.0 4.1 4.2 Pasquina PF, Cooper RA. l-ower Extremity Amputation.
  5. 5.0 5.1 REhABiLitAtion A. Evidence Based Clinical Guidelines for the Physiotherapy Management of Adults with Lower Limb Prostheses.
  6. LE VAN TU. Evaluation of Trans-femoral Prosthesis Function Using Finite Element Analysis (Doctoral dissertation, SHIBAURA INSTITUTE OF TECHNOLOGY).
  7. 7.0 7.1 7.2 Varrecchia T, Serrao M, Rinaldi M, Ranavolo A, Conforto S, De Marchis C, Simonetti A, Poni I, Castellano S, Silvetti A, Tatarelli A. Common and specific gait patterns in people with varying anatomical levels of lower limb amputation and different prosthetic components. Human movement science. 2019 Aug 1;66:9-21.
  8. 8.0 8.1 Yoder AJ, Silder AB, Farrokhi S, Dearth CL, Hendershot BD. Lower extremity joint contributions to trunk control during walking in persons with transtibial amputation. Scientific reports. 2019 Aug 22;9(1):1-8.
  9. Winter DA, Sienko SE. Biomechanics of below-knee amputee gait. Journal of biomechanics. 1988 Jan 1;21(5):361-7.
  10. 10.00 10.01 10.02 10.03 10.04 10.05 10.06 10.07 10.08 10.09 10.10 10.11 10.12 Hunter New England. NSW Health Duff K. Prosthetic gait deviations. Page link on Australian Physiotherapist in Amputee Rehabilitation. http://www.austpar.com/portals/gait/docs-and-presentations/ProstheticGaitDeviations.pps (accessed 6 February 2015)
  11. Gailey R. Rehabilitation of a traumatic lower limb amputee. Physiotherapy Research International. 1998 Nov;3(4):239-43.
  12. PT Final Exam. PT Final Exam. June 2019. Available from: https://youtu.be/VtPQrHmnmhw
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