Upper extremity Physiotherapy Approaches to minimize pain and maximize function in persons post CVA
Acknowledgements Canadian Stroke Strategy: Best Practice Recommendations and Performance Measures Evidence-Based Review of Stroke Rehabilitation Stroke Canada Optimization of Rehabilitation through Evidence (SCORE)
Upper limb post CVA Flaccid High tone No muscle reaction to passive movement and no voluntary movement and no reflexive reaction High tone Velocity dependant increase in resistance to passive stretch accompanied by hyperactive stretch reflexes
Causes of Shoulder Pain Muscle Imbalance Fracture Tendonitis Glenohumeral Subluxation Bursitis Adhesive Capsulitis Neuropathic (RSD) Estimated to occur in 48-84% of patients post stroke. Many of these will resolve however Lindgren et al 2007 found 27% still had pain at 16 months.
Muscle Imbalance Disorganized muscle activation Flexor tone predominates in the hemiplegic upper extremity and results in scapular retraction and depression as well as internal rotation and adduction of the shoulder Current research suggests relation between spasticity and shoulder pain Also relation between CVA, frozen shoulder and pain Subscapularis and pectoralis major specifically tonically contracted
Shoulder subluxation Occurs in a large percentage of persons post stroke with flaccid upper extremity (29-82%) Possibly a reason for development of pain but inconclusive
Injury Rotator cuff injury is a possibility however no studies showing conclusive evidence of a tear causing pain Also tears found may not be premorbid Questionable cause of pain
Shoulder pain post CVA: Management Prevention is the NUMBER 1 action for health care providers There is no one specific treatment for the reduction and elimination of shoulder pain post stroke currently Once pain is present it is very difficult to treat.
Pain Prevention Positioning
Pain prevention Passive range of motion Slings and straps Recommended to avoid shoulder ranging past 90 degrees of flexion and abduction. Emphasis on external rotation as tolerated Slings and straps Perhaps some benefit to prevent shoulder subluxation however little evidence for pain reduction or prevention Sensation disturbance may not be evident therefore use good clinical judgment in movement and positioning
Slings
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Pain treatment Active treatment Overhead pulleys shown to create pain Moderate evidence showing gentle exercises are preferred approach Limited evidence that nonsteroidal anti-inflamatory medication improves pain, ROM and function Sustained stretch may be as equally harmful as immobile position decreasing range and increasing pain
Pain Treatment Modalities Functional electrical stimulation Conflicting evidence http://www.google.ca/search?hl=en&q=functional+electrical+stimulation+shoulder+pictures&meta= Some evidence is showing that if started before pain occurs there is less incidence of pain. No good studies showing effective pain treatment.
Conclusions of shoulder pain Protection Position properly Use devices consistently Patient and family education Passive ranging Light movement no further than 90 degrees of shoulder flexion and abduction Emphasis on maintaining external rotation and abduction Devices- wheelchair tray, splints, slings..etc
CIMT CIMT-Constraint induced movement therapy Introduced by Edward Taub in the 1960s after working with deafferented monkeys Phrasing learned non-use Monkeys unaffected arms were restrained in slings and affected arms regained movement Monkeys were surgically prevented from receiving sensory information Learned non-use being the lack of movement in the affected arm secondary to removal environment stimulus
Video http://www.youtube.com/watch?v=MMTh2hWvB2g
EXCITE Trial 222 participants, 3-9 month period Multi-site, single blinded randomized Inclusion: 20 degrees wrist extension, 10 degrees MCP and IP extension (high function) 10 degrees wrist extension, 10 degrees thumb abduction, and 10 degrees extension of at least 2 digits (low function)
EXCITE Trial Glove on for 90% of waking hours to less-impaired arm Task practice in lab 6 hours per day, for 2 work weeks (10 days) Conclusion: Improved function shown to be retained 24 months after 2 week program in SIS strength, ADLs, and social participation SIS- stroke impact scale
Modified CIMT: Page et al. 2008 Stroke was 12 + months prior 20 degrees wrist, 10 degrees MCP and IP extension Restraint for 5 hours per day, with 30 minute one-on-one sessions 3 times per week for 10 weeks Outcome measures: action research arm test, fugl-meyer assessment of motor recovery, motor activity log.
Modified CIMT: Page et al. 2008 Conclusion: Improvement in function and quality of arm movement May be more practical program than previous studies
More local input Ploughman et al. 2008 Case study from the Miller Rehabilitation Centre in Newfoundland Same parameters as EXCITE trial Demonstrated remarkable increase in function for a hockey loving adolescent male
Feasibility in NB hospital Inpatient rehab Glove is cheap and easy to create Could be used on appropriate patients with consent Dressing, feeding, toileting would all take more time therefore need health care team, patient and family buy in Compliance is what will make or break this treatment.
Feasibility in NB Outpatient CIMT Labour intensive but there is suggested long term effect Modified CIMT may be beneficial Possibility for group therapy sessions Possible treatment at chronic stage
Questions?