Parkinson's Case Study - John (Initial Assessment): Difference between revisions
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== | == Client Characteristics == | ||
John is a 60 years old man who was diagnosed with Parkinson's five years ago. His treatment program was based on medications and exercises which has helped him in managing well. | |||
John is an active family man who still works, attends a gym for regular exercises and does a lot of community work. | |||
He attended a teaching session, reporting his '''main problem''' that he wanted addressed by physiotherapy as '''pain in his right ankle impacting on his walking.''' | |||
== | == Examination == | ||
Observing John in a standing position for a length of time, his body weight was shifted to the left away from the side pain. As he continues to stand for longer,the effects of dystonia as the main cause pulling the right leg into an unnatural position where it takes little weight. This interferes with the proprioeption feedback resulting in poor joint control, altered soft tissue tension to facilitate the correct alignment and movement from the ground upwards. Even his hands were held over to the left side. Increased tone (dystonia) causes John’s right leg to be drawn inward into adduction, or into flexion (possible reflex responses). This becomes (already is) a problem in terms of balance, and a cause of pain, which John mentions as a main problem affecting his mobility, as he doesn’t place the foot correctly in stand/ walking. | |||
'''This observation leads us to think about how to enhance the sensory input to John’s right side so the leg is better aligned to take weight correctly, reducing the strain through his ankle'''. | |||
John also demonstrated asymmetry in his sitting posture and lack of awareness of the position over the right side. | |||
[https://physio-pedia.com/Timed_Up_and_Go_Test_(TUG) The Timed up and go test] of functional mobility was used to assess John while walking. This is a useful tool and although is validated to consider risk for fall through upright function, it gives us an idea of leg strength/ power to stand (vertical lift without use of arms), balance at initial stand, walk pattern including the turn, and control of the sit through eccentric muscle strength of thighs. All the components of the test are related to aspects of body fitness that might be a risk of falling. | |||
<u>The test showed:</u> | |||
* No start hesitation (good) | |||
< | * Asymmetry in step length, but gait continuity | ||
* propulsion gained through a pull forward (especially on right stance) through forward flexion, rather than a push forward through extension, with largely flexed posture. | |||
* Right side specific; arm held in extension at gleno-humeral joint, in flexion at elbow and hand closed (tremor). This is a typical pattern the body uses to help keep a body upright, when it is bent from lower than the waist. The trunk twists backwards on right stance so little pattern of heel contact to set up hip loading and extension for automatic propulsion, yet there was still arm swing generated from the speed of his walk. | |||
<nowiki>*</nowiki>This page forms part of the Parkinson's Disease Outcome Measures Case Study Course | |||
[[Category:Case_Studies]] | [[Category:Case_Studies]] | ||
Revision as of 19:44, 22 July 2019
Original Editor - Mariam Hashem
Top Contributors - Kim Jackson, Mariam Hashem, Tarina van der Stockt, Lauren Lopez, Chelsea Mclene and Stacy Schiurring
Client Characteristics[edit | edit source]
John is a 60 years old man who was diagnosed with Parkinson's five years ago. His treatment program was based on medications and exercises which has helped him in managing well.
John is an active family man who still works, attends a gym for regular exercises and does a lot of community work.
He attended a teaching session, reporting his main problem that he wanted addressed by physiotherapy as pain in his right ankle impacting on his walking.
Examination[edit | edit source]
Observing John in a standing position for a length of time, his body weight was shifted to the left away from the side pain. As he continues to stand for longer,the effects of dystonia as the main cause pulling the right leg into an unnatural position where it takes little weight. This interferes with the proprioeption feedback resulting in poor joint control, altered soft tissue tension to facilitate the correct alignment and movement from the ground upwards. Even his hands were held over to the left side. Increased tone (dystonia) causes John’s right leg to be drawn inward into adduction, or into flexion (possible reflex responses). This becomes (already is) a problem in terms of balance, and a cause of pain, which John mentions as a main problem affecting his mobility, as he doesn’t place the foot correctly in stand/ walking.
This observation leads us to think about how to enhance the sensory input to John’s right side so the leg is better aligned to take weight correctly, reducing the strain through his ankle.
John also demonstrated asymmetry in his sitting posture and lack of awareness of the position over the right side.
The Timed up and go test of functional mobility was used to assess John while walking. This is a useful tool and although is validated to consider risk for fall through upright function, it gives us an idea of leg strength/ power to stand (vertical lift without use of arms), balance at initial stand, walk pattern including the turn, and control of the sit through eccentric muscle strength of thighs. All the components of the test are related to aspects of body fitness that might be a risk of falling.
The test showed:
- No start hesitation (good)
- Asymmetry in step length, but gait continuity
- propulsion gained through a pull forward (especially on right stance) through forward flexion, rather than a push forward through extension, with largely flexed posture.
- Right side specific; arm held in extension at gleno-humeral joint, in flexion at elbow and hand closed (tremor). This is a typical pattern the body uses to help keep a body upright, when it is bent from lower than the waist. The trunk twists backwards on right stance so little pattern of heel contact to set up hip loading and extension for automatic propulsion, yet there was still arm swing generated from the speed of his walk.
*This page forms part of the Parkinson's Disease Outcome Measures Case Study Course
