Hemiplegic Shoulder Pain Clinical Trial
Official title:
Suprascapular Nerve Block Versus Intraarticular Steroid Injection in Hemiplegic Shoulder Pain: A Randomized Double Blinded Control Trial
Suprascapular nerve block versus(vs) intra-articular steroid injection in the management of
hemiplegic shoulder pain (HSP): a randomised, double blinded, controlled trial
BACKGROUND Hemiplegic shoulder pain (HSP) is a common complication of stroke. It can happen
as early as one week post stroke with a frequency as high as 72%. HSP can result in
significant disability as pain and limited shoulder range of motion (ROM) decrease hand
function, reduce participation in rehabilitation activity and delay functional recovery of
the patients. Management of HSP focused on reducing pain and improving shoulder ROM.
Minimally invasive treatment of HSP with intra-articular shoulder steroid (IAS) injection and
supra-scapular nerve block (SSNB) have gained interest.
OBJECTIVES
Primary objective:
1. To assess the analgesic effect of SSNB vs IAS in HSP among Malaysian stroke population.
Secondary objectives:
2. To assess the improvement of passive ROM post SSNB versus IAS in HSP.
3. To assess for improvement of functional outcome post SSNB versus IAS in HSP.
METHOD
A prospective, double blinded interventional study will be conducted in the Rehabilitation
Medicine Clinic, University of Malaya Medical Centre for a duration of 1 year. Eligible
subjects will be enrolled from all referrals of hemiplegic shoulder pain (HSP), following
computer-generated randomization they will be allocated to either supra-scapular nerve block
(SSNB) (intervention) or intra-articular shoulder steroid injection (IAS) (control) groups.
The subjects and assessors are blinded to the intervention received, which will be performed
by an experienced interventionist, not participating in randomization or data collection and
analysis. Demographics of participants time since stroke, etiology, presence of spasticity,
Numerical Rating Score (NRS) pain score at maximal passive ROM, maximum passive ROM of
shoulder flexion, abduction, internal and external rotation as well as SDQ and SPADI will
recorded prior to injection, 1 hour, 1 month and 3 months post injection. Mann-Whitney U
tests and Chi-Square test of association will be used as appropriate to compare groups at
baseline. Shoulder ROM and NRS pre and post intervention will be analysed using paired t-test
and ANOVA. Functional outcome of SDQ and SPADI pre and post intervention will be analysed
using paired t-test as well.
1. INTRODUCTION
1.1 Research Area
Hemiplegic shoulder pain (HSP) is a common clinical consequence of stroke with reported
frequency as high as 72% (1). Onset of HSP is more common at 2-3 months post stroke(2). HSP
can reduce participation in rehabilitation activities and reduce quality of life(3). The
etiology of HSP includes neurological and mechanical factors, although mechanical factors are
more common. Mechanical factors include structural injury from glenohumeral subluxation, or
rotator cuff pathology (3). In hemiplegic patients, the nociceptive pain ratio was higher at
86.7% compared to neuropathic pain ratio; 13.3% (4). Management of HSP focused on reducing
pain and improving shoulder ROM. Minimally invasive treatment of HSP with intra-articular
steroid (IAS) injection and supra-scapular nerve block (SSNB) have lately gained interest.
However, 2 studies done so far showed that while both SSNB and IAS showed significant
differences in reducing shoulder pain and improving ROM with time, there was no significant
difference of these injection method in comparison to conventional treatment. None of the
studies done to date documents functional outcome of patients post injection with IAS or
SSNB. The main purpose of this study is to assess the analgesic effect of SSNB vs IAS in HSP
among Malaysian stroke population as well as to look at the improvement of shoulder ROM and
functional outcome measure.
1.2 Research Questions
Does supra-scapular nerve block (SSNB) provide better pain relief, passive range of motion
(PROM) and functional outcome compared to intraarticular steroid (IAS) injection in
hemiplegic shoulder pain?
1.3 Significance of this study
SSNB is an effective and safe method for pain relief and increases ROM in many group of
patients who had shoulder pain such as non specific shoulder pain (5),chronic shoulder
pain(6) and rotator cuff tendinitis(7). SSNB can be performed using ultrasound guidance where
injection of Bupivacaine is made at posterior shoulder towards suprascapular notch. Side
effects include; worsening pain, soreness, bruising, nerve damage, allergic reaction.
IAS on the other hand is performed by injecting 40 mg of Triamcinolone Acetonide along with 2
ml of Lidocaine 1% into glenohumeral articular space (8). Systematic reviews of treatments
for sub acromial pain favor IAS over the following options: ergonomic changes, NSAID,
acupuncture, ROM and strengthening exercises, ultrasound, ice, heat, and physical therapy
(9,10). Side effects include; post injection flare, disturbance of menstrual pattern, facial
flushing, subcutaneous tissue atrophy, skin depigmentation, infection, and tendon rupture
(13).
2 studies done so far that compare IAS vs SSNB head to head; Yasar et al,2011 and Jeon et al,
2014 only followed up the patients up to 1/12 only. Besides, there was no functional outcome
measure done (11,12). Other study done with longer follow up times such as Adey-Wakeling et
al, 2013 SSNB vs s/c saline (Placebo) consistently demonstrated superior, statistically
significant pain reduction compared with s/c saline (placebo) even at 12/52 post injection
(13).
Another randomized controlled trial (RCT) by Rah et al,2012 in comparing IAS vs subacromial
lignocaine (placebo) showed significant improvement of visual analogue scale (VAS)-day/night,
ROM as well as SDQ, in the treatment group even at 8/52(14). Besides, stroke is extremely
common in Malaysia and is the 3rd leading cause of death in our country. Stroke patients in
Malaysia is generally younger with mean age of stroke onset between 54.5 and 62.6 (15).
HSP will affect stroke recovery as the pain interfere with rehabilitation and has a potential
to worsen the disability in hemiplegic patients and negatively impaired quality of life (QOL)
(16).
2.0 Methodology
2.1 Study Design
This study design is prospective, double blinded interventional study. In this study, patient
will be blinded from the interventions they are receiving; intraarticular steroid injection
or supra-scapular nerve block. Investigator that will be assessor will also be blinded from
knowing the interventions that patients received.
2.1.1 Enrollment Patients referred to SMART Clinic for hemiplegic shoulder pain will be
examined and recruited. Patients who did not fulfill the inclusion and exclusion criteria
will be excluded.
Numerical rating score (NRS) pain score at maximum passive ROM of shoulder flexion,
abduction, internal and external rotation, Maximum passive ROM of shoulder flexion,
abduction, internal and external rotation, Shoulder Pain and Disability Index (SPADI) and
Shoulder Disability Questionnaire (SDQ) will be measured prior to intervention.
2.1.2 Allocation The patients recruited will then be randomly allocated using a randomization
computer program into 2 separate groups; Suprascapular nerve block(SSNB) group and
Intraarticular steroid(IAS) group. The assessor and patients are blinded to the type of
intervention the patient is receiving. The injector who is a skilled interventionist will not
be blinded.
2.1.3 Intervention Suprascapular nerve block (SSNB) and Intraaticular steoid(IAS) injection
will be performed by skilled interventionist.
2.1.4 Evaluations Numerical rating score (NRS) pain score at maximum passive ROM of shoulder
flexion, abduction, internal and external rotation and maximum passive ROM of shoulder
flexion, abduction, internal and external rotation will be assessed and recorded at 1 hour, 1
month and 3 months after intervention. Shoulder Pain and Disability Index (SPADI) and
Shoulder Disability Questionnaire (SDQ) will be measured at 1 month and 3 months post
intervention.
2.2 Setting
• Rehabilitation Clinic, University of Malaya Medical Center (UMMC)
2.3 Sample Size
A power analysis program G* Power was used to calculate the sample size. The effect size of
study by Jeon et al is 0.3. With the power of study set at 0.8 and alpha set at 0.05, the
sample size for this study based on G* Power sample size calculator is set at 64; 32 each
arm. However, to allow for 25% attrition rate, the sample size is set at 86; 43 each arm.
3.0 Data Collection Methods
Primary Outcome :
- Numerical rating score (NRS) pain score at maximum passive ROM of shoulder flexion,
abduction, internal and external rotation
- To be collected at baseline, 1 hour, 1 month and 3 months post injection
Secondary outcome :
- Maximum passive ROM of shoulder flexion, abduction, internal and external rotation
- Measured at baseline, 1 hour, 1 month and 3 months post injection.
- Shoulder Pain and Disability Index (SPADI) and Shoulder Disability Questionnaire (SDQ)
- Measured at baseline, 1 month and 3 months post intervention.
- Using face to face interview
3.1 Data Analysis
Data from this study will be analysed using Statistical Package for Social Science (SPSS)
software.
Demographics of 2 groups will be analyzed using Mann-Whitney U tests and Chi-Square test of
association.
Primary objective:
Pain reduction:
Pre-post intervention intra-group; post-intervention inter-group: paired t-test
Secondary objectives:
ROM improvement: pre-post intragroup; post-intervention inter-group: paired t-test and
analysis of variance (ANOVA)
Functional improvement of SDQ and SPADI: pre-post intra-group; post-intervention inter-group:
paired t-test
4.0 Strength and Limitation
Strength
- Secondary outcomes include functional outcomes such as SPADI Score and SDQ
- Longer follow up period at 3 months compared to study by Jeon et al and Yasar et al at 1
month
- Bigger sample size Limitation
- Single center study
- Risk of patient loss to follow-up
- Recruitment will be a challenge
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