Ultrasound-guided pulsed radiofrequency for chronic shoulder pain: a prospective study

Pinto, Rita Diogo Torgal; Pinto, Joana Manuela Tenreiro; Loureiro, Maria Céu; Cardoso, Cristina; Assunção, José Pedro

doi:10.1016/j.bjane.2021.08.006

Abstract

Background and objectives:

Chronic shoulder pain is a frequent cause of suffering and impaired quality of life. Treatment includes non-pharmacological and pharmacological therapies, and interventional procedures such as suprascapular nerve blocks and radiofrequency. This prospective study aims to evaluate the efficacy of ultrasound-guided pulsed radiofrequency of suprascapular nerve for chronic shoulder pain in a clinical setting.

Methods:

Therapeutic efficacy was evaluated through pain intensity using numeric pain rating scale at baseline, immediately, 3, and 6 months after, and patient’s motor function improvement. The secondary outcome was patient satisfaction.

Results:

A total of 34 patients were enrolled and all patients presented a reduction in the numeric pain rating scale immediately after treatment. Pain reduction from baseline to 6 months after the procedure was 34.4% and 36.9% static and dynamic, respectively. The median percentage reduction was statistically significant immediately, 3 and 6 months after. There was also an improvement in range of motion, 39.6% in abduction, 24.1% in flexion, and 29.5% in extension. Ninety percent of patients reported patient’s global impression of change superior to six.

Conclusion:

This study concludes that ultrasound-guided pulsed radiofrequency of suprascapular nerve reduces pain intensity for at least 6 months, accompanied by improvement of motor function and higher levels of patients’ satisfaction. Therefore, this technique represents a valid analgesic approach to chronic shoulder pain.

KEYWORDS
Chronic shoulder pain; Ultrasonography; Interventional; Pulsed radiofrequency treatment

Introduction

Shoulder disorders are the third most prevalent type of musculoskeletal complaint in adults. They can significantly impact life quality, entailing considerable health costs, disability, and work absenteeism. Chronic shoulder pain prevalence ranges from 15.5% to 41% in the general population, increasing with age, and is higher for women.¹1 Picavet H, Schouten J. Musculoskeletal Pain in the Netherlands: Prevalences, Consequences and Risk Groups, the DMC(3)-study. Pain. 2003;102:167-78.,²2 Greving K, Dorrestijn O, Winters J, et al. Incidence, prevalence, and consultation rates of shoulder complaints in general practice. Scand J Rheumatol. 2012;41:150-5.,⁴4 Fernandes MR, Barbosa MA, Sousa ALL, Ramos GC. Suprascapular nerve block: important procedure in clinical practice. Braz J Anesthesiol. 2012;62:96-104.,⁵5 Mitchell C, Adebajo A, Hay E, Carr A. Shoulder pain: diagnosis and management in primary care. BMJ. 2005;331:1124-7.

Shoulder pain etiology can be attributable to intrinsic disorders, comprising the rotator cuff, glenohumeral, acromioclavicular, biceps tendonitis, infection, shoulder instability, or as extrinsic shoulder pain such as referred pain, polymyalgia rheumatic, and malignancy.²2 Greving K, Dorrestijn O, Winters J, et al. Incidence, prevalence, and consultation rates of shoulder complaints in general practice. Scand J Rheumatol. 2012;41:150-5.,³3 Pribicevic M. The epidemiology of shoulder pain: a narrative review of the literature. IntechOpen. 2012:147-86.,⁵5 Mitchell C, Adebajo A, Hay E, Carr A. Shoulder pain: diagnosis and management in primary care. BMJ. 2005;331:1124-7.,⁶6 Liliang PC, Lu K, Liang CL, Tsai YD, Hsieh CH, Chen HJ. Pulsed radiofrequency lesioning of the suprascapular nerve for chronic shoulder pain: a preliminary report. Pain Med. 2009;10:70-5.

The nerves supplying the shoulder joint arise from the brachial plexus. The suprascapular nerve supplies 70% of the sensory innervation of the shoulder joint, whereas the remaining 30% is supplied by the subscapular nerve, axillary nerve, and lateral pectoral nerve.⁵5 Mitchell C, Adebajo A, Hay E, Carr A. Shoulder pain: diagnosis and management in primary care. BMJ. 2005;331:1124-7. The suprascapular nerve is a mixed nerve, both motor and sensitive, originated in the upper trunk of brachial plexus, C5 and C6 roots. It runs inferior, posterior, and laterally to reach the supraspinous fossa in the scapula. The sensitive components innervate the posterior and superior shoulder capsule, glenohumeral, and the acromioclavicular joint. The motor components innervate the supra and infraspinatus muscles.

Shoulder pain treatment involves a multimodal approach, including non-pharmacological (physical therapy, transcutaneous electric nerve stimulation), pharmacological therapies, and interventional procedures such as intraarticular steroid injections, suprascapular nerve blocks, radiofrequency of suprascapular nerve and surgery.⁷7 Eyigor C, Eyigor S, Korkmaz OK, Uyar M. Intra-articular corticosteroid injections versus pulsed radiofrequency in painful shoulder: a prospective, randomized, single-blinded study. Clin J Pain. 2010;26:386-92.,⁹9 Chang PH, Chen YJ, Chang KV, Wu WT, Özçakar L. Ultrasound measurements of superficial and deep masticatory muscles in various postures: reliability and influences. Scientific Reports. 2020;10:2045-322.

Pulsed radiofrequency was first reported in 1998 as a non-neurolytic lesioning method delivering an electrical field and heat bursts (temperature < 42°C) for pain relief without evidence of neural damage.⁸8 Cosman ER. A comment on the history of the pulsed radiofrequency technique for pain therapy. J Am Soc Anesthesiol. 2005;103:1312.,¹⁰10 Hsu PC, Chang KV, Wu WT, Wang JC, Özçakar L. Effects of ultrasound-guided peritendinous and intrabursal corticosteroid injections on shoulder tendon elasticity: a post hoc analysis of a randomized controlled trial. Arch Physical Med Rehabilitation. 2021;102:905-13. Previous studies demonstrate significant pain relief and functional improvement in patients with chronic shoulder pain of a wide range of etiologies.¹¹11 Wu YT, Ho CW, Chen YL, Li TY, Lee KC, Chen LC. Ultrasound-guided pulsed radiofrequency stimulation of the suprascapular nerve for adhesive capsulitis. Anesth Analg. 2014;119:686-92.,¹²12 Sir E, Eksert S. Ultrasound-guided pulsed radiofrequency neuromodulation of the suprascapular nerve in partial rotator cuff tears. Turk J Med Sci. 2019;49:1524-8. Throughout most studies, authors use fluoroscopy or computed tomography-guided techniques. However, ultrasound-guidance radiofrequency has advantages over other imaging modalities, for instance, portability, real-time assessment and dynamic evaluation, limited trauma, and avoidance of patient and physician radiation exposure.¹³13 Ergonenc T BeyazSG. Effects of ultrasound-guided suprascapular nerve pulsed radiofrequency on chronic shoulder pain. Med Ultrason. 2018;20:461-6.,¹⁴14 Huang CC, Tsao SL, Cheng CY, Hsin MT, Chen CM. Treating frozen shoulder with ultrasound-guided pulsed mode radiofrequency lesioning of the suprascapular nerve: two cases. Pain Med. 2010;11:1837-40.,¹⁵15 Guerreiro JA, Proença I, Moura N, Cartuxo A. Adaptação transcultural do shoulder rating questionnaire para a língua portuguesa (srq-pt): tradução; validação; análise da consistência interna e replicabilidade. Ifisionline. 2011;1:5-18. Only a few previous studies have evaluated ultrasound efficacy of suprascapular nerve pulsed radiofrequency and patient satisfaction.¹⁵15 Guerreiro JA, Proença I, Moura N, Cartuxo A. Adaptação transcultural do shoulder rating questionnaire para a língua portuguesa (srq-pt): tradução; validação; análise da consistência interna e replicabilidade. Ifisionline. 2011;1:5-18.,¹⁶16 Bautz-Holter E, Juel NG, Ekeberg OM, Tveitå EK. Responsiveness of the Shoulder Pain and Disability Index in Patients with Adhesive Capsulitis. BMC Musculoskeletal Disorders. 2008;9.,¹⁷17 Boonstra AM, Preuper HRS, Balk GA, Stewart RE. Cut-off points for mild, moderate, and severe pain on the visual analogue scale for pain in patients with chronic musculoskeletal pain. Pain. 2014;155:2545-50.,¹⁸18 Chang KV, Hung CY, Wu WT, Han DS, Yang RS, Lin CP. Comparison of the effectiveness of suprascapular nerve block with physical therapy, placebo, and intra-articular injection in management of chronic shoulder pain: a meta-analysis of randomized controlled trials. Arch Physical Med Rehabilitation. 2016;97:1366-80.

In this regard, our main objective was to prospectively evaluate the efficacy of ultrasound-guided suprascapular nerve pulsed radiofrequency for chronic shoulder pain treatment in a chronic pain unit. The primary outcome was efficacy using pain intensity and motor function improvement. The secondary outcome was patient satisfaction.

Methods

This prospective study was conducted at our chronic pain unit between May 2016 and December 2019. A total of thirty-six patients were submitted to a diagnostic block, from which thirty-four patients were included in this study as they matched the inclusion criteria.

Ethics statement

The data was collected after receiving approval from the Ethical Committee of our institution. All patients submitted to the suprascapular block and pulsed radiofrequency received oral and written information and signed informed consent before the procedure.

Inclusion criteria

The following inclusion criteria were used: diagnosis of chronic shoulder pain (> 6 months); over 18 years of age; non-pregnancy; non-allergy to local anesthetic or corticosteroids; non-local or systemic infection; reduction of at least 50% in pain intensity after previous ultrasound-guided suprascapular nerve block.

Patient, clinical and outcome variables

Patient demographics

The following information was collected from patients: gender, age, chronic pain duration, dominant upper limb, and shoulder pain etiology.

Numeric pain rate scale

Pain intensity was assessed at baseline, immediately, three and six months after using the Numeric Pain Rate Scale (NPRS). This unidimensional pain instrument consists of a horizontal line with a beginning point marked as zero (“no pain”) and at the opposite end, marked as 10 (“worst pain possible”). Patients report the number which best represents the pain they are/were feeling. Generally, pain in the 1–3 category is ranked as mild pain, 4–6 as moderate pain and 7–10 as severe pain.

Motor function evaluation

Static and dynamic patient motor function was assessed by the same rehabilitation nurse specialist, before and after suprascapular radiofrequency, measuring range of motion (abduction, flexion, and extension) using a goniometer. Muscle strength was also assessed.

SPADI

A validated Portuguese score of Shoulder Pain and Disability Index (SPADI-VP) was used at baseline as a secondary clinical outcome.¹⁹19 Wu WT, Chen LR, Chang HC, Chang KV, Özcakar L. Quantitative ultrasonographic analysis of changes of the suprascapular nerve in the aging population with shoulder pain. Front Bioeng Biotechnol. 2021;9:121. It contains thirteen issues related to pain and disability associated with shoulder disorders. For each question, there is a scale of 0 to 10. Zero indicates activity without difficulty and ten corresponds to the condition where the individual is not capable of carrying out the proposed activity. The maximum score of the questionnaire is 80 points. The individual obtained score is converted into a percentage, with 100% being the worst condition of shoulder dysfunction. SPADI was designed to measure the impact of shoulder pathology in terms of pain and disability and assess how these metrics evolve.²⁰20 Cohen SP, Moon JY, Brummett CM, White RL, Larkin TM. Medial branch blocks or intra-articular injections as a prognostic tool before lumbar facet radiofrequency denervation: a multicenter, case-control study. Reg Anesth Pain Med. 2015;40:376-83.

Patient satisfaction

Patient satisfaction is a good indicator of the quality of health care. This was evaluated using the Patient’s Global Impression of Change Validated Portuguese (PGIC-VP) questionnaire immediately and six months after the procedure. In this unidimensional tool, patients report their treatment improvement on a 7-item scale, with 1 representing “no change” and 7 representing “a great deal better”.²¹21 Eckmann MS, Johal J, Bickelhaupt B, et al. Terminal sensory articular nerve radiofrequency ablation for the treatment of chronic intractable shoulder pain: a novel technique and case series. Pain Med. 2020;21:868-71.

Ultrasound-guided pulsed radiofrequency

All procedures were performed by the same anesthesiologist with expertise in chronic pain management and ultrasound-guided interventions, using Acuson ultrasound from Siemens P300®, linear probe 12MHz. Patients were placed in a sitting position and standard monitoring was applied. Under aseptic conditions, the linear transducer was positioned just cephalad and parallel to the scapular spine. The suprascapular nerve was identified as a hyperechoic structure below the transverse scapular ligament in the scapular notch. A 22G 60-mm radiofrequency needle was then advanced under ultrasound guidance toward the scapular notch by using the in-plane approach (Fig. 1). Sensory stimulation was performed with 10-200 Hz, 1ms pulse width, up to 0.5 volts and the patients reported paraesthesia in the shoulder joint. After motor stimulation (2 Hz, 1 ms pulse width, up to 1 volt), contractions of the infra- and supraspinatus muscles were observed. Pulsed radiofrequency lesioning was then performed for 180 seconds (2 Hz, 30 ms pulse width, temperature < 42°C). Thirty minutes after the procedure, pain intensity was evaluated using NPRS and patients were discharged home.

Figure 1
Ultrasound identification of the suprascapular nerve in the suprascapular notch.

A chronic pain appointment was schedule one, three, and six months after the procedure.

Statistical analysis

From the Shapiro-Wilk test, it was assessed that the data does not follow a normal distribution. Thus, the correlation coefficients were calculated using the Spearman test to quantify the association between static and dynamic baseline NPRS and immediate, three and six months NPRS, and among NPRS and dominant arm and between NPRS and PGIC-VP. The accepted level of significance for the correlation was p< 0.01 for a strong correlation and p< 0.05 for moderate correlation.

Treatment efficacy was quantified by calculating absolute differences and percentage change from baseline. For each patient, a response was considered clinically relevant if the NPRS was reduced by at least 30% relative to baseline, as is standardly accepted.²²22 Liu A, Zhang W, Sun M, Ma C, Yan S. Evidence-based status of pulsed radiofrequency treatment for patients with shoulder pain: a systematic review of randomized controlled trials. Pain Pract. 2016;16:518-25.

Results

Of thirty-six patients, two were excluded from the study because it was not observed a reduction of at least 50% in pain intensity after ultrasound-guided suprascapular nerve block (did not meet the first inclusion criterion).

The demographic characteristics of the thirty-four patients are presented in Table 1.

Thumbnail

Table 1
Patient demographics (variables are expressed as mean ± standard deviation and relative frequencies are expressed in percentage).

Changes in NPRS

We started by analyzing the change in static and dynamic NPRS between baseline and immediately after the procedure (Table 2). All patients presented a reduction in NPRS immediately after treatment. Of the patients, 94.1% and 91.2% presented a clinically significant reduction in static and dynamic NPRS, respectively. Complete pain relief (NPRS lower or equal to 1) was obtained in 76.5% and 23.5% of patients, regarding static and dynamic NPRS, respectively. Median percentage reduction in the NPRS immediately after the procedure of 86.8 and 69.6% static and dynamic, respectively.

Thumbnail

Table 2
Summary of efficacy evaluation.

To characterize treatment efficacy in the long-term, percentage reduction from baseline to 3 months after the procedure was 54.9% and 53.7%, static and dynamic, respectively (Fig. 2). Then it was mandatory to see if a persistent notorious reduction could be observed over time. To this end, we evaluated NPRS reduction after six months (34.4% and 37.0%, static and dynamic). The median percentage reduction was also statistically significant (p< 0.01 one-sided Wilcoxon signed-rank test); this gauge the treatment effectiveness.

Figure 2
NPRS for each patient before treatment, immediately, 3 and after 6 months for static and dynamic.

A strong correlation with high statistical significance was found between the reduction of static NPRS immediately, 3 and 6 months, and baseline. A strong correlation with high statistical significance was also found among static and dynamic reduction of NPRS after 6 months. Low correlation and high statistical significance were found among PGIC-VP and higher reduction in NPRS for both static and dynamic. A correlation between the dominant arm and the other variables was not found.

SPADI-VP

SPADI was developed to measure current shoulder pain and disability. In our study median SPADI score was 35.17, with a minimum of 27 and a maximum of 65.7.

Motor function

Treatment efficacy was also analyzed regarding improvement of motor function. Therefore, changes in the range of motion (flexion, abduction, and extension) at baseline and after six months were compared. The median baseline of flexion abduction and extension were 12.5º, 22.5º and 20º, respectively. Increased 39.6% in flexion, 24.1% in abduction, and 29.5% in extension after six months.

Patient satisfaction

Regarding self-report measure PGIC-VP: 50% scored “7” representing “a great deal better”; 40% scored “6” indicating “better”; 10% scored “5” representing moderately better. Thus, 90% of our patients had a clinically significant improvement.

Discussion

These results indicate that ultrasound-guided pulsed radiofrequency of suprascapular nerve for chronic shoulder pain provide a statistically significant reduction in static and dynamic pain score and range of motion (flexion, abduction, and extension), and the effect persisted for at least 6 months.

Our study describes an aging population, with 70.6% aged over 60 years. Older individuals have a higher incidence of chronic shoulder pain, mainly due to degenerative rotator cuff pathologies. Recently, a change of the morphology of the suprascapular nerve has been identified in patients with supraspinatus tendon full-thickness tear, resulting in nerve entrapment,²³23 Rohof O. Radiofrequency treatment of peripheral nerves. Pain Pract. 2002;2:257-60. rephrasing the importance of suprascapular nerve interventions as a fundamental tool in chronic shoulder pain treatment. However, as the effect of suprascapular nerve block has a limited duration, diagnostic blocks should be performed to identify patients who should proceed to the treatment. A patient with greater than 50% pain relief is considered to have a positive diagnostic block.¹⁴14 Huang CC, Tsao SL, Cheng CY, Hsin MT, Chen CM. Treating frozen shoulder with ultrasound-guided pulsed mode radiofrequency lesioning of the suprascapular nerve: two cases. Pain Med. 2010;11:1837-40.,¹⁵15 Guerreiro JA, Proença I, Moura N, Cartuxo A. Adaptação transcultural do shoulder rating questionnaire para a língua portuguesa (srq-pt): tradução; validação; análise da consistência interna e replicabilidade. Ifisionline. 2011;1:5-18. While intra-articular injections have diagnostic value, they have less prognostic value for radiofrequency success.²⁴24 Simopoulos TT, Nagda J, AnerMM. Percutaneous radiofrequency lesioning of the suprascapular nerve for the management of chronic shoulder pain: a case series. J Pain Res. 2012;5:91-7.,²⁵25 Gofeld M, Restrepo-Garces CE, Theodore BR, Faclier G. Pulsed radiofrequency of suprascapular nerve for chronic shoulder pain: a randomized double-blind active placebo-controlled study. Pain Pract. 2013;13:96-103.

The mechanism pointed for pulsed radiofrequency long-term pain relief is the neuromodulatory effect created via alternating the expression of a gene such as c-fos in pain processing neurons.²⁶26 Korkmaz OK, Capaci K, Eyigor C, Eyigor S. Pulsed radiofrequency versus conventional transcutaneous electrical nerve stimulation in painful shoulder: a prospective, randomized study. Clin Rehabil. 2010;24:1000-8. Pulsed radiofrequency of suprascapular nerve was applied by Rohof in 2002 with a blind technique.²⁷27 Taverner M, Loughnan T Transcutaneous pulsed radiofrequency treatment for patients with shoulder pain booked for surgery: a double-blind, randomized controlled trial. Pain Practice. 2014;14:101-8. Peripheral pulsed radiofrequency has gained acceptance by pain control with the non-destructive mechanism. Both thermal and pulsed radiofrequency ablation of the suprascapular nerve have been described to treat chronic shoulder pain, but there is a theoretical concern of post-ablation weakness in the supraspinatus and in infraspinatus muscles.²⁸28 Domingues L, Cruz Eb. Adaptação Cultural e Contributo para a Validação da Escala Patient Global Impression of Change. Ifisionline. 2011;2:31-7. Research reported that pulsed radiofrequency of suprascapular nerve was effective in treating chronic shoulder pain. Despite the extensive use of fluoroscopy or computed-tomography guidance in literature,²⁹29 Wyrwich KW, Wolinsky FD. Identifying meaningful intra-individual change standards for health-related quality of life measures. J Evaluation Clin Practice. 2000;6:39-49.,³⁰30 Hirsh At, Atchison Jw, Berger Jj, et al. Patient satisfaction with treatment for chronic pain:predictors and relationship to compliance. Clin J Pain. 2005;21:302-10.,³¹31 Cohen SP, Baber ZB, Buvanendran A, et al. Pain management best practices from multispecialty organizationsduring the COVID-19 pandemic and public health crises. Pain Med. 2020;21:1331-46. recent studies start adopting ultrasound guidance.¹⁵15 Guerreiro JA, Proença I, Moura N, Cartuxo A. Adaptação transcultural do shoulder rating questionnaire para a língua portuguesa (srq-pt): tradução; validação; análise da consistência interna e replicabilidade. Ifisionline. 2011;1:5-18.,¹⁷17 Boonstra AM, Preuper HRS, Balk GA, Stewart RE. Cut-off points for mild, moderate, and severe pain on the visual analogue scale for pain in patients with chronic musculoskeletal pain. Pain. 2014;155:2545-50. Also, some studies did not characterize long-term treatment efficacy.⁹9 Chang PH, Chen YJ, Chang KV, Wu WT, Özçakar L. Ultrasound measurements of superficial and deep masticatory muscles in various postures: reliability and influences. Scientific Reports. 2020;10:2045-322.

The etiology of chronic shoulder pain is diverse, as is its treatment. Rotator cuff pathology treatment has been studied with mixed outcomes and little research has been done to evaluate its efficacy in other shoulder etiologies.¹⁵15 Guerreiro JA, Proença I, Moura N, Cartuxo A. Adaptação transcultural do shoulder rating questionnaire para a língua portuguesa (srq-pt): tradução; validação; análise da consistência interna e replicabilidade. Ifisionline. 2011;1:5-18.,¹⁷17 Boonstra AM, Preuper HRS, Balk GA, Stewart RE. Cut-off points for mild, moderate, and severe pain on the visual analogue scale for pain in patients with chronic musculoskeletal pain. Pain. 2014;155:2545-50. In our work, there was no significant difference in long-term efficacy in both group etiologies (tendinitis/bursitis and arthrosis) for chronic shoulder pain, as such, we cannot pinpoint a specific metric that most prominently factors for the existence of either arthrosis or tendinitis.

Patient satisfaction with chronic shoulder pain treatment has received less attention in previous studies. Satisfaction with treatment of chronic pain is not merely a matter of pain relief. It is important to distinguish satisfaction with care of satisfaction with improvement after treatment. Patient satisfaction is a subjective experience; it can be defined as the emotional feeling resulting from the comparison between the actual perceived performance and quality of the treatment with the original expectations. It is frequently used as an indicator of meaningful change in treatments for chronic pain. The definition of clinically significant change suggests that PGIC-VP values of 6 or more correlate best with actual change. According to PGIC-VP, 90% of our patients had a clinically significant improvement. In our study, patients with higher reduction in NPRS were most closely correlated with PGIC-VP status, regardless of initial pain intensity.

Our study caveat is 2-fold: it was conducted using a small sample size and it lacks a control group. A longer-term follow-up would be desirable.

Future research is needed to assess the best treatment approach for various chronic shoulder pain etiologies.

Conclusions

Ultrasound-guided suprascapular nerve radiofrequency is a safe and effective technique for treating chronic shoulder pain, providing significant improvement in NPRS during at least 6 months, accompanied with improvement of motor function and higher levels of patient satisfaction. Therefore, this technique represents a valid analgesic approach to a multimodal treatment strategy of chronic shoulder pain.

Future randomized control trials are warranted for validating these results.

References

¹
Picavet H, Schouten J. Musculoskeletal Pain in the Netherlands: Prevalences, Consequences and Risk Groups, the DMC(3)-study. Pain. 2003;102:167-78.
²
Greving K, Dorrestijn O, Winters J, et al. Incidence, prevalence, and consultation rates of shoulder complaints in general practice. Scand J Rheumatol. 2012;41:150-5.
³
Pribicevic M. The epidemiology of shoulder pain: a narrative review of the literature. IntechOpen. 2012:147-86.
⁴
Fernandes MR, Barbosa MA, Sousa ALL, Ramos GC. Suprascapular nerve block: important procedure in clinical practice. Braz J Anesthesiol. 2012;62:96-104.
⁵
Mitchell C, Adebajo A, Hay E, Carr A. Shoulder pain: diagnosis and management in primary care. BMJ. 2005;331:1124-7.
⁶
Liliang PC, Lu K, Liang CL, Tsai YD, Hsieh CH, Chen HJ. Pulsed radiofrequency lesioning of the suprascapular nerve for chronic shoulder pain: a preliminary report. Pain Med. 2009;10:70-5.
⁷
Eyigor C, Eyigor S, Korkmaz OK, Uyar M. Intra-articular corticosteroid injections versus pulsed radiofrequency in painful shoulder: a prospective, randomized, single-blinded study. Clin J Pain. 2010;26:386-92.
⁸
Cosman ER. A comment on the history of the pulsed radiofrequency technique for pain therapy. J Am Soc Anesthesiol. 2005;103:1312.
⁹
Chang PH, Chen YJ, Chang KV, Wu WT, Özçakar L. Ultrasound measurements of superficial and deep masticatory muscles in various postures: reliability and influences. Scientific Reports. 2020;10:2045-322.
¹⁰
Hsu PC, Chang KV, Wu WT, Wang JC, Özçakar L. Effects of ultrasound-guided peritendinous and intrabursal corticosteroid injections on shoulder tendon elasticity: a post hoc analysis of a randomized controlled trial. Arch Physical Med Rehabilitation. 2021;102:905-13.
¹¹
Wu YT, Ho CW, Chen YL, Li TY, Lee KC, Chen LC. Ultrasound-guided pulsed radiofrequency stimulation of the suprascapular nerve for adhesive capsulitis. Anesth Analg. 2014;119:686-92.
¹²
Sir E, Eksert S. Ultrasound-guided pulsed radiofrequency neuromodulation of the suprascapular nerve in partial rotator cuff tears. Turk J Med Sci. 2019;49:1524-8.
¹³
Ergonenc T BeyazSG. Effects of ultrasound-guided suprascapular nerve pulsed radiofrequency on chronic shoulder pain. Med Ultrason. 2018;20:461-6.
¹⁴
Huang CC, Tsao SL, Cheng CY, Hsin MT, Chen CM. Treating frozen shoulder with ultrasound-guided pulsed mode radiofrequency lesioning of the suprascapular nerve: two cases. Pain Med. 2010;11:1837-40.
¹⁵
Guerreiro JA, Proença I, Moura N, Cartuxo A. Adaptação transcultural do shoulder rating questionnaire para a língua portuguesa (srq-pt): tradução; validação; análise da consistência interna e replicabilidade. Ifisionline. 2011;1:5-18.
¹⁶
Bautz-Holter E, Juel NG, Ekeberg OM, Tveitå EK. Responsiveness of the Shoulder Pain and Disability Index in Patients with Adhesive Capsulitis. BMC Musculoskeletal Disorders. 2008;9.
¹⁷
Boonstra AM, Preuper HRS, Balk GA, Stewart RE. Cut-off points for mild, moderate, and severe pain on the visual analogue scale for pain in patients with chronic musculoskeletal pain. Pain. 2014;155:2545-50.
¹⁸
Chang KV, Hung CY, Wu WT, Han DS, Yang RS, Lin CP. Comparison of the effectiveness of suprascapular nerve block with physical therapy, placebo, and intra-articular injection in management of chronic shoulder pain: a meta-analysis of randomized controlled trials. Arch Physical Med Rehabilitation. 2016;97:1366-80.
¹⁹
Wu WT, Chen LR, Chang HC, Chang KV, Özcakar L. Quantitative ultrasonographic analysis of changes of the suprascapular nerve in the aging population with shoulder pain. Front Bioeng Biotechnol. 2021;9:121.
²⁰
Cohen SP, Moon JY, Brummett CM, White RL, Larkin TM. Medial branch blocks or intra-articular injections as a prognostic tool before lumbar facet radiofrequency denervation: a multicenter, case-control study. Reg Anesth Pain Med. 2015;40:376-83.
²¹
Eckmann MS, Johal J, Bickelhaupt B, et al. Terminal sensory articular nerve radiofrequency ablation for the treatment of chronic intractable shoulder pain: a novel technique and case series. Pain Med. 2020;21:868-71.
²²
Liu A, Zhang W, Sun M, Ma C, Yan S. Evidence-based status of pulsed radiofrequency treatment for patients with shoulder pain: a systematic review of randomized controlled trials. Pain Pract. 2016;16:518-25.
²³
Rohof O. Radiofrequency treatment of peripheral nerves. Pain Pract. 2002;2:257-60.
²⁴
Simopoulos TT, Nagda J, AnerMM. Percutaneous radiofrequency lesioning of the suprascapular nerve for the management of chronic shoulder pain: a case series. J Pain Res. 2012;5:91-7.
²⁵
Gofeld M, Restrepo-Garces CE, Theodore BR, Faclier G. Pulsed radiofrequency of suprascapular nerve for chronic shoulder pain: a randomized double-blind active placebo-controlled study. Pain Pract. 2013;13:96-103.
²⁶
Korkmaz OK, Capaci K, Eyigor C, Eyigor S. Pulsed radiofrequency versus conventional transcutaneous electrical nerve stimulation in painful shoulder: a prospective, randomized study. Clin Rehabil. 2010;24:1000-8.
²⁷
Taverner M, Loughnan T Transcutaneous pulsed radiofrequency treatment for patients with shoulder pain booked for surgery: a double-blind, randomized controlled trial. Pain Practice. 2014;14:101-8.
²⁸
Domingues L, Cruz Eb. Adaptação Cultural e Contributo para a Validação da Escala Patient Global Impression of Change. Ifisionline. 2011;2:31-7.
²⁹
Wyrwich KW, Wolinsky FD. Identifying meaningful intra-individual change standards for health-related quality of life measures. J Evaluation Clin Practice. 2000;6:39-49.
³⁰
Hirsh At, Atchison Jw, Berger Jj, et al. Patient satisfaction with treatment for chronic pain:predictors and relationship to compliance. Clin J Pain. 2005;21:302-10.
³¹
Cohen SP, Baber ZB, Buvanendran A, et al. Pain management best practices from multispecialty organizationsduring the COVID-19 pandemic and public health crises. Pain Med. 2020;21:1331-46.

Publication Dates

Publication in this collection
11 Mar 2024
Date of issue
2024

History

Received
18 Mar 2021
Accepted
21 Aug 2021
Published
24 Sept 2021

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial No Derivative License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium provided the original work is properly cited and the work is not changed in any way.

[1] ¹
Picavet H, Schouten J. Musculoskeletal Pain in the Netherlands: Prevalences, Consequences and Risk Groups, the DMC(3)-study. Pain. 2003;102:167-78.

[2] ²
Greving K, Dorrestijn O, Winters J, et al. Incidence, prevalence, and consultation rates of shoulder complaints in general practice. Scand J Rheumatol. 2012;41:150-5.

[3] ³
Pribicevic M. The epidemiology of shoulder pain: a narrative review of the literature. IntechOpen. 2012:147-86.

[4] ⁴
Fernandes MR, Barbosa MA, Sousa ALL, Ramos GC. Suprascapular nerve block: important procedure in clinical practice. Braz J Anesthesiol. 2012;62:96-104.

[5] ⁵
Mitchell C, Adebajo A, Hay E, Carr A. Shoulder pain: diagnosis and management in primary care. BMJ. 2005;331:1124-7.

[6] ⁶
Liliang PC, Lu K, Liang CL, Tsai YD, Hsieh CH, Chen HJ. Pulsed radiofrequency lesioning of the suprascapular nerve for chronic shoulder pain: a preliminary report. Pain Med. 2009;10:70-5.

[7] ⁷
Eyigor C, Eyigor S, Korkmaz OK, Uyar M. Intra-articular corticosteroid injections versus pulsed radiofrequency in painful shoulder: a prospective, randomized, single-blinded study. Clin J Pain. 2010;26:386-92.

[8] ⁸
Cosman ER. A comment on the history of the pulsed radiofrequency technique for pain therapy. J Am Soc Anesthesiol. 2005;103:1312.

[9] ⁹
Chang PH, Chen YJ, Chang KV, Wu WT, Özçakar L. Ultrasound measurements of superficial and deep masticatory muscles in various postures: reliability and influences. Scientific Reports. 2020;10:2045-322.

[10] ¹⁰
Hsu PC, Chang KV, Wu WT, Wang JC, Özçakar L. Effects of ultrasound-guided peritendinous and intrabursal corticosteroid injections on shoulder tendon elasticity: a post hoc analysis of a randomized controlled trial. Arch Physical Med Rehabilitation. 2021;102:905-13.

[11] ¹¹
Wu YT, Ho CW, Chen YL, Li TY, Lee KC, Chen LC. Ultrasound-guided pulsed radiofrequency stimulation of the suprascapular nerve for adhesive capsulitis. Anesth Analg. 2014;119:686-92.

[12] ¹²
Sir E, Eksert S. Ultrasound-guided pulsed radiofrequency neuromodulation of the suprascapular nerve in partial rotator cuff tears. Turk J Med Sci. 2019;49:1524-8.

[13] ¹³
Ergonenc T BeyazSG. Effects of ultrasound-guided suprascapular nerve pulsed radiofrequency on chronic shoulder pain. Med Ultrason. 2018;20:461-6.

[14] ¹⁴
Huang CC, Tsao SL, Cheng CY, Hsin MT, Chen CM. Treating frozen shoulder with ultrasound-guided pulsed mode radiofrequency lesioning of the suprascapular nerve: two cases. Pain Med. 2010;11:1837-40.

[15] ¹⁵
Guerreiro JA, Proença I, Moura N, Cartuxo A. Adaptação transcultural do shoulder rating questionnaire para a língua portuguesa (srq-pt): tradução; validação; análise da consistência interna e replicabilidade. Ifisionline. 2011;1:5-18.

[16] ¹⁶
Bautz-Holter E, Juel NG, Ekeberg OM, Tveitå EK. Responsiveness of the Shoulder Pain and Disability Index in Patients with Adhesive Capsulitis. BMC Musculoskeletal Disorders. 2008;9.

[17] ¹⁷
Boonstra AM, Preuper HRS, Balk GA, Stewart RE. Cut-off points for mild, moderate, and severe pain on the visual analogue scale for pain in patients with chronic musculoskeletal pain. Pain. 2014;155:2545-50.

[18] ¹⁸
Chang KV, Hung CY, Wu WT, Han DS, Yang RS, Lin CP. Comparison of the effectiveness of suprascapular nerve block with physical therapy, placebo, and intra-articular injection in management of chronic shoulder pain: a meta-analysis of randomized controlled trials. Arch Physical Med Rehabilitation. 2016;97:1366-80.

[19] ¹⁹
Wu WT, Chen LR, Chang HC, Chang KV, Özcakar L. Quantitative ultrasonographic analysis of changes of the suprascapular nerve in the aging population with shoulder pain. Front Bioeng Biotechnol. 2021;9:121.

[20] ²⁰
Cohen SP, Moon JY, Brummett CM, White RL, Larkin TM. Medial branch blocks or intra-articular injections as a prognostic tool before lumbar facet radiofrequency denervation: a multicenter, case-control study. Reg Anesth Pain Med. 2015;40:376-83.

[21] ²¹
Eckmann MS, Johal J, Bickelhaupt B, et al. Terminal sensory articular nerve radiofrequency ablation for the treatment of chronic intractable shoulder pain: a novel technique and case series. Pain Med. 2020;21:868-71.

[22] ²²
Liu A, Zhang W, Sun M, Ma C, Yan S. Evidence-based status of pulsed radiofrequency treatment for patients with shoulder pain: a systematic review of randomized controlled trials. Pain Pract. 2016;16:518-25.

[23] ²³
Rohof O. Radiofrequency treatment of peripheral nerves. Pain Pract. 2002;2:257-60.

[24] ²⁴
Simopoulos TT, Nagda J, AnerMM. Percutaneous radiofrequency lesioning of the suprascapular nerve for the management of chronic shoulder pain: a case series. J Pain Res. 2012;5:91-7.

[25] ²⁵
Gofeld M, Restrepo-Garces CE, Theodore BR, Faclier G. Pulsed radiofrequency of suprascapular nerve for chronic shoulder pain: a randomized double-blind active placebo-controlled study. Pain Pract. 2013;13:96-103.

[26] ²⁶
Korkmaz OK, Capaci K, Eyigor C, Eyigor S. Pulsed radiofrequency versus conventional transcutaneous electrical nerve stimulation in painful shoulder: a prospective, randomized study. Clin Rehabil. 2010;24:1000-8.

[27] ²⁷
Taverner M, Loughnan T Transcutaneous pulsed radiofrequency treatment for patients with shoulder pain booked for surgery: a double-blind, randomized controlled trial. Pain Practice. 2014;14:101-8.

[28] ²⁸
Domingues L, Cruz Eb. Adaptação Cultural e Contributo para a Validação da Escala Patient Global Impression of Change. Ifisionline. 2011;2:31-7.

[29] ²⁹
Wyrwich KW, Wolinsky FD. Identifying meaningful intra-individual change standards for health-related quality of life measures. J Evaluation Clin Practice. 2000;6:39-49.

[30] ³⁰
Hirsh At, Atchison Jw, Berger Jj, et al. Patient satisfaction with treatment for chronic pain:predictors and relationship to compliance. Clin J Pain. 2005;21:302-10.

[31] ³¹
Cohen SP, Baber ZB, Buvanendran A, et al. Pain management best practices from multispecialty organizationsduring the COVID-19 pandemic and public health crises. Pain Med. 2020;21:1331-46.

Demographics
Gender, n (%)	Male	6 (18%)
Gender, n (%)	Female	28 (82%)
Age, years		67 ± 9
Age, more than 60 years		24 (70.6%)
Clinical Characteristics
Duration of chronic shoulder pain (months)		31.57±24.3
Dominant upper limb		22 (65%)
Shoulder pain etiology	Tendinitis/bursitis	23.5 (%)
Shoulder pain etiology	Arthrosis	76.5 (%)

NPRS	Mean (99%) p-value < 0.01
NPRS	Static			Dynamic
Baseline	5.15 [4.21-6.08]			8.38 [7.74-9.03]
Time	Immediately	3 months	6 months	Immediately	3 months	6 months
Absolute change (mean [ranges])	4.56 [3.48 -5.64]	3.15 [2.05 -4.25]	2.38 [1.09 -3.67]	5.85 [4.83 -6.88]	4.56 [3.59 -5.53]	3.26 [2.15 -4.38]
Percentage change (%) (mean [ranges])	86.81 [75.55 -98.08]	54.86 [37.77 -71.96]	34.37 [10.41 -59.78]	69.63 [59.78 -79.49]	53.68 [43.36 -64.00]	36.96 [24.76 -49.16]
NPRS	Median (99%) p-value < 0.01
NPRS	Static			Dynamic
Baseline	5.00 [4.06-5.94]			8.00 [7.36-8.64]
Time	Immediately	3 months	6 months	Immediately	3 months	6 months
Absolute change (median [ranges])	4.50 [3.42 -5.58]	3.00 [1.90-4.10]	2.00 [0.71 -1.88]	5.50 [4.48 -6.52]	4.50 [3.53 -5.47]	3.00 [1.88 -4.12]
Percentage change (%) (median [ranges])	100.00 [88.74 -100.00]	64.58 [47.49-81.68]	45.00 [21.04 -68.96]	70.71 [60.86 -80.57]	61.25 [50.93 -71.57]	37.50 [25.30 -49.70]

Brasil

Brasil

Ultrasound-guided pulsed radiofrequency for chronic shoulder pain: a prospective study

Abstract

Background and objectives:

Methods:

Results:

Conclusion:

Introduction

Methods

Ethics statement

Inclusion criteria

Patient, clinical and outcome variables

Patient demographics

Numeric pain rate scale

Motor function evaluation

SPADI

Patient satisfaction

Ultrasound-guided pulsed radiofrequency

Statistical analysis

Results

Changes in NPRS

SPADI-VP

Motor function

Patient satisfaction

Discussion

Conclusions

References

Publication Dates

History