Does injection of steroids and lidocaine in the shoulder relieve bursitis?

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Clinical Inquiries

Does injection of steroids and lidocaine in the shoulder relieve bursitis?

J Fam Pract. 2004 June;53(6):488-503

By

Greg Gutierrez, MD

Martha Burroughs, MLS

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References

1. Buchbinder R, Green S, Youd JM. Corticosteroid injections for shoulder pain (Cochrane Review). In: The Cochrane Library,Issue 2, 2004. Chichester, UK: John Wiley & Sons.

2. Cohen J. Statistical Power Analysis for the Behavioral Sciences. 2nd ed. Hillsdale, NJ: Lawrence Erlbaum; 1988.

3. Adebajo AO, Nash P, Hazleman BL. A prospective double blind dummy placebo controlled study comparing triamcinolone hexacetonide injection with oral diclofenac 50 mg TDS in patients with rotator cuff tendinitis. J Rheumatol 1990;17:1207-1210.

4. Petri M, Dobrow R, Neiman R, Whiting-O’Keefe O, Seaman WE. Randomized, double-blind, placebo-controlled study of the treatment of the painful shoulder. Arthritis Rheum 1987;30:1040-1045.

5. Green S, Buchbinder R, Glazier R, Forbes A. Interventions for shoulder pain (Cochrane Review). In: The Cochrane Library,Issue 2, 2004. Chichester, UK: John Wiley & Sons.

6. Green S, Buchbinder R, Hetrick S. Physiotherapy interventions for shoulder pain (Cochrane Review). In: The Cochrane Library,Issue 2, 2004. Chichester, UK: John Wiley & Sons.

7. Hay EM, Thomas E, Paterson SM, Dziedzic K, Croft PR. A pragmatic randomised controlled trial of local corticosteroid injection and physiotherapy for the treatment of new episodes of unilateral shoulder pain in primary care. Ann Rheum Dis 2003;62:394-399.

8. van der Heijden GJ, van der Windt DA, Kleijnen J, Koes BW, Bouter LM. Steroid injections for shoulder disorders: a systematic review of randomized clinical trials. Br J Gen Pract 1996;46:309-316.

9. American. Academy of Orthopedic Surgeons. AAOS clinical guideline on shoulder pain: support document. Rosemont, IL: AAOS, 2001. Available at: www.guideline.gov/summary/summary.aspx?doc_id=2998. Accessed on May 5, 2004.

10. Vecchio PC, Hazleman BL, King RH. A double-blind trial comparing subacromial methylprednisolone and ligno-caine in acute rotator cuff tendinitis. Br J Rheumatol 1993;32:743-745.

11. White RH, Paull DM, Fleming KW. Rotator cuff tendinitis: comparison of subacromial injection of a long acting corticosteroid versus indomethacin therapy. J Rheumatol 1986;13:608-613.

12. Berry H, Fernandes L, Bloom B, Clarke R, Hamilton EB. Clinical study comparing acupuncture, physiotherapy, injection and oral anti-inflammatory therapy in shoulder cuff lesions. Curr Med Res Opin 1980;7:121-126.

13. Blair B, Rokito AS, Cuomo F, Jarolem K, Zuckerman JD. Efficacy of injections of corticosteroids for subacromial impingement syndrome. J Bone Joint Surg Am 1996;78:1685-1689.

EVIDENCE-BASED ANSWER

Subacromial steroid injection may provide a small, short-term benefit compared with placebo. The short-term effectiveness of steroid injection compared with nonsteroidal anti-inflammatory agents (NSAIDs) remains unclear.

Steroid injections are better than physiotherapy alone in the short term. However, injection does not appear to provide any meaningful long-term benefit compared with other therapies (strength of recommendation: B). Data are insufficient to make recommendations regarding the proper timing of injection in the sequence of other treatments. Side effects of steroid injection, such as steroid flare and infection, are rare.

Evidence summary

A Cochrane Review of corticosteroid injections for shoulder pain found 7 randomized controlled trials comparing subacromial steroid injections with placebo.¹ The placebos were either injectable anesthetics alone or injectable anesthetics combined with oral placebo tablets. Six of the 7 studies used the anterolateral approach to inject under the acromion.

All studies used a clinical exam for diagnosis that showed pain with range of motion (especially abduction) or pain that was consistent with impingement syndrome. Most of the follow-up times were short, typically 4 to 12 weeks, and the longest study was 33 weeks. Meta-analyses often report the effect size using standard mean difference (SMD). A rule of thumb for interpretation of SMD is a value of 0.2 indicates a small effect, a value of 0.5 indicates a medium effect, and a value of 0.8 or larger indicates a large effect. If the 95% confidence interval [CI] does not include zero, then the SMD is statistically significant at the 5% level (P<.05).²

Two of the studies comparing steroid injection with placebo were methodologically suitable for meta-analysis; these studies showed thatsteroids provided a mild, short-term (4-week)benefit with respect to pain (SMD=0.83; 95% CI,0.39–1.26), function (SMD=0.63; 95% CI,0.20–1.06), and abductive range of motion(SMD=0.82; 95% CI, 0.39–1.25).^3,4

Results of the remaining, less rigorous trialswere conflicting and inconclusive. The reviewersalso found 3 randomized controlled trials comparing subacromial steroid injection with oralNSAIDs. The pooled results of these trials,encompassing 120 patients, found no differences in these 3 outcomes at 4 or 6 weeks. The review of an additional trial of 50 patients comparing subacromial steroid injection plus simultaneous oral NSAIDs with oral NSAIDs alone found no differences at 4 weeks. All 11 studies had small sample sizes, and suffered from variable methodological quality and heterogeneous results.

The reviewers concluded that steroids are probably better than placebo but provide little or no benefit in addition to NSAIDs, and that evidence is insufficient to guide treatment. Likewise, a Cochrane Review of multiple interventions for shoulder pain also found “little evidence to support or refute the efficacy of common interventions” and highlighted the need for new, well-designed trials.⁵

Another Cochrane Review examined 4 randomized controlled trials comparing physiotherapy interventions for shoulder pain.⁶ They found that steroid injections may be superior to physiotherapy for rotator cuff disease, but the type of physiotherapy and injection sites were not consistent across the studies, making creation of summary estimates inappropriate. The individual studies showed significant short-term benefits (3–7 weeks) of steroid injection over physiotherapy; however, long-term (6–52 weeks) benefits ranged from some benefit to no difference. These studies were consistent regarding age (mean age=53–55 years, SD ± 13–14 years) and complications reported, with the only side effect being postinjection soreness.

Hay et al⁷ conducted a multicenter, primary care–based randomized controlled trial with more than 200 patients, which was published too recently for inclusion in the Cochrane Review. They found no statistical difference in improvement between steroid injection without physiotherapy and physiotherapy alone at 6 weeks.

In 1996, van der Heijden et al⁸ systematically reviewed randomized clinical trials of steroid injections for shoulder disorders, including rota-tor cuff disease, adhesive capsulitis, rheumatoid conditions, and periarthritis. They screened more than 200 articles from searches in Medline (1966–1995) and EMBASE (1984–1995) and found 16 articles that met qualifying conditions for further review. Of these, 3 were methodologically adequate for final review. None of these 3 studies provided evidence showing the efficacy of steroid injections. The results of the major trials reviewed can be found in the Table .

TABLE
Major placebo-controlled trials of injectable steroids for shoulder pain

Steroid (n)	Comparison	Follow-up arms (n)	Reported results	Conclusions
Methylprednisolone 1% lignocaine (28)	1% lignocaine (28)	12wks	2 wks:insignificant improvement in steroid arm 2, 4, 6, 12 wks:no difference in pain, range of motion;all P>.05	No significant advantage of subacromial methyl prednisolone over lignocaine10
Triamcinolone, 0.5% lignocaine, placebo tabs (20)	C1:diclofenac, lignocaine (20) C2:placebo tabs, lignocaine (20)	4 wks	4 wks:steroid and C1 showed significant benefit over C2 for pain and range of motion (P<.05) Steroid vs C1:no difference (P=.0268)	Triamcinolone and diclofenac are equivalent, and superior to placebo³
S1:triamcinolone, 1% lidocaine, naproxen (25) S2:triamcinolone, 1% lidocaine, placebo (25)	C1:1% lidocaine, naproxen (25) C2:1% lidocaine, placebo (25)	4 wks	S1 superior to S2, C1, C2 S2 superior to C1, C2 For pain and clinical index at 2 and 4 wks, P<.05	Triamcinolone and naproxen superior to placebo.More severe cases see most benefit⁴
Triamcinolone, placebo tabs (15); reinjection at 3 wks if not better	Saline injection, indomethacin (15); reinjection at 3 wks if not	6 wks	Pain and global scores improved in both groups (P<0.05), but no difference between them (P>.05)	No difference between indomethacin andtriamcinolone better injection¹¹
S1:methylprednisolone, lidocaine, placebo tabs (12) S2:methylprednisolone, NSAID (12)	C1:acupuncture (12) C2:ultrasound (12) C3:placebo tab, placebo U/S (12)	4 wks	All patients improved. No differences in pain scores or abduction measurements at 2 or 4 wks (P=n/a)	Painful stiff shoulder may be self-limiting condition and bene- ficial effect may be natural recovery¹²
Methylprednisolone, 1% lidocaine (104)	Physiotherapy (103)	6 mos, option of other therapies given at 6 weeks	No differences in disability scores 6 wks:mean difference= –.05 (95% CI, –.02 to 3.0) 6 mos:mean difference= 1.4 (95% CI, –0.2 to 3.0) (7) episodes of unilateral	Physiotherapy and steroid injection were of similar short- and long-term effectiveness for treating new shoulder pain
Triamcinolone, 1% lidocaine (19)	1% lidocaine (21)	Mean:33 wk; range:12–52 wk	Steroid:significant improvements of pain (P<.005) and range of motion (P<.005) vs control.No difference in activities of daily living seen (13)	Subacromial injection of steroids is effective for short-term therapy of impingement syndrome

Evidence-based answers from the Family Physicians Inquiries Network