Post-stroke shoulder pain is a major rehabilitation problem affecting moderate to severely impaired stroke survivors. Surface electrical stimulation (ES) of muscles surrounding the hemiparetic shoulder has been demonstrated to be beneficial, but despite the evidence for therapeutic benefit, the clinical implementation of surface ES for poststroke shoulder pain has been difficult. In order to address the limitations of surface ES, the investigative team pioneered the development of percutaneous intramuscular (IM) ES for the treatment of post-stroke shoulder pain. However, prior to acceptance by the clinical community, additional gaps in the scientific and clinical knowledge need to be addressed. This study begins to do so. The primary objective is to estimate the relative pain reduction associated with IM ES vs. "usual care." We hypothesize that the IM ES group will exhibit a larger effect size with respect to pain reduction compared to "usual care". A secondary objective is to estimate the effect on health related QOL of IM ES vs. "usual care." Demonstration of improvement in QOL will validate the clinical relevance of the intervention. We hypothesize that the IM ES group will exhibit greater improvement in health related QOL compared to "usual care".
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
25
A sterile percutaneous IM electrode is implanted in the shoulder using a 20-gauge hypodermic needle and connected to an external cable. The exit site and electrode are covered by a bandage, but the cable extends out. After a one week stabilization period, the cable is connected to a stimulator. A self-adhesive surface electrode serves as the indifferent electrode. Stimulation intensity is set by the investigator. The prescription for daily stimulation treatment will be 6 hrs. The duty cycle and daily dose will remain constant throughout the treatment, but stimulus parameters may be adjusted by the research staff as deemed appropriate. The treatment period will be 3 weeks, after which the electrode will be removed. Total time of electrode implantation is no more than 29 days.
Subjects will receive 8 hrs of outpatient therapy over a four week period from a treating therapist, coupled with prescribed daily home exercises. The therapist will implement an individualized treatment plan consistent with the needs of the participant.
MetroHealth Medical Center
Cleveland, Ohio, United States
Brief Pain Inventory Short Form
The BPI is a pain questionnaire, which assesses both pain intensity (sensory dimension) and the interference (reactive dimension) of pain in daily activities. Pain intensity is measured on a 0 - 10 scale, with 0 being no pain and 10 being worst possible.
Time frame: Baseline (Week 0); Start of Treatment (Week 1); End of Treatment (EOT, Week 4); EOT + 6 wks (Week 10); EOT + 12 wks (Week 16)
ShoulderQ VGRS Scale
The ShoulderQ Visual Graphics Rating Scale (VGRS) T is a structured questionnaire designed to assess severity of HSP at rest during the day, on movement, and at night on a 0-30 scale where higher numbers indicate greater pain.
Time frame: Baseline (Week 0); Start of Treatment (Week 1); End of Treatment (EOT, Week 4); EOT + 6 wks (Week 10); EOT + 12 wks (Week 16)
SF-36 Bodily Pain Component
The SF-36v2 is a population-norm based health related quality of life measure, presented in T-scores where population average equals a score of 50 with a standard deviation of 10. Maximum is 100, with higher score indicating greater health realated quality of life.
Time frame: Baseline (Week 0); Start of Treatment (Week 1); End of Treatment (EOT, Week 4); EOT + 6 wks (Week 10); EOT + 12 wks (Week 16)
Pain-free External ROM, Degrees
Passive pain-free Externa ROM is a motor recovery measure. The subject was supine with the shoulder adducted with hand resting on the abdomen, elbow flexed, and with the humerus supported by the mat. The axis of a universal goniometer was centered on the olecranon process of the ulna projecting through the humeral shaft toward the humeral head. The subject's shoulder was externally rotated passively to the pain threshold, defined as the start of any pain. Pain at rest was recorded as 0 degrees.
Time frame: Baseline (Week 0); Start of Treatment (Week 1); End of Treatment (EOT, Week 4); EOT + 6 wks (Week 10); EOT + 12 wks (Week 16)
Fugl-Myer Motor Assessment (FMA) - Upper Extremity
The Fugl-Myer Motor Assessment (FMA) is a motor recovery measure. Volitional movement of the upper limb (shoulder, elbow, forearm, wrist, and hand) is examined in and out of synergies. Each item was graded on a 3-point ordinal scale and summed to provide a maximum score of 66, with higher scores indicating lower impairment.
Time frame: Baseline (Week 0); Start of Treatment (Week 1); End of Treatment (EOT, Week 4); EOT + 6 wks (Week 10); EOT + 12 wks (Week 16)
Pain Interference Questionnaire
BPI-9 from Brief Pain Inventory, Short Form. Pain interference is on a 0 - 10 scale, with 0 being no interference, and 10 being complete interference.
Time frame: Baseline (Week 0); Start of Treatment (Week 1); End of Treatment (EOT, Week 4); EOT + 6 wks (Week 10); EOT + 12 wks (Week 16)
Isometric Shoulder Abduction Moment, Ratio Affected to Unaffected
A measure of isometric strength in response to audio cue. Isometric shoulder abduction moment was measured with a Biodex Biomechanical Measurement System (Biodex Medical Systems, Shirley, NY). The average moment during the last second of the audible tone was calculated for each trial and those values were averaged over the three trials. Subjects underwent testing of both shoulders, non-paretic side first, and the results are presented as the ratio of the paretic shoulder to the non-paretic shoulder to decrease the influence of intra-subject variability between measurements.
Time frame: Baseline (Week 0); Start of Treatment (Week 1); End of Treatment (EOT, Week 4); EOT + 6 wks (Week 10); EOT + 12 wks (Week 16)
Delay in Initiation of Shoulder Abduction EMG Activity
Electromyographic activity from the deltoid was also measured during the isometric abduction moment trials. Surface EMG recording electrodes (2 cm x 2 cm) were placed over the deltoid muscle and spaced approximately 4 cm apart. The EMG amplifier gain was adjusted to record as high-fidelity an EMG signal as possible during shoulder abduction. Delay of initiation (DOI) was defined as the duration between onset of the audibe tone and the onset of EMG signal. Raw EMG signals were analyzed visually to determine the earliest rise in EMG activity relative to steady state for delay of initiation. The mean DOI of the three trials were calculated, and the ratio of the paretic to non-paretic shoulder DOI were used as summary metrics.
Time frame: Baseline (Week 0); Start of Treatment (Week 1); End of Treatment (EOT, Week 4); EOT + 6 wks (Week 10); EOT + 12 wks (Week 16)
Delay in Termination of Shoulder Abduction EMG Activity
Electromyographic activity from the deltoid was also measured during the isometric abduction moment trials. Surface EMG recording electrodes (2 cm x 2 cm) were placed over the deltoid muscle and spaced approximately 4 cm apart. The EMG amplifier gain was adjusted to record as high-fidelity an EMG signal as possible during shoulder abduction. Delay of termination (DOT) was defined as the duration between cessation of the audible tone and return of the EMG signal to baseline. Raw EMG signals were analyzed visually to determine the earliest rise in EMG activity relative to steady state for delay of initiation, and return to steady for delay of termination. The mean DOT of the three trials were calculated, and the ratio of the paretic to non-paretic shoulder DOT were used as summary metrics.
Time frame: Baseline (Week 0); Start of Treatment (Week 1); End of Treatment (EOT, Week 4); EOT + 6 wks (Week 10); EOT + 12 wks (Week 16)
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