Analysis of Surgical Procedures on the Forearm and Hand and Their Relationship with Complex Regional Pain Syndrome: A Cross-sectional Study

Souza, Caio Carvalho dos Santos; Casado Neto, João Miguel; Bocchi, Manoel Vítor Maciel; Grubert, Danielle Horing

doi:10.1055/s-0044-1785659

Abstract

Objective

Complex regional pain syndrome (CRPS) requires further understanding. Thus, the present study aimed to analyze if pre- and intraoperative factors may be related to the development of CRPS in the postoperative period.

Methods

We reviewed 1,183 medical records of patients undergoing forearm and hand surgeries from 2015 to 2021. The data of interest, that is, diagnosis, incisions, synthesis material, and anesthesia, were collected, tabulated, and statistically analyzed, with subsequent calculation of the odds ratios.

Results

Most patients were female, aged between 30 and 59 years, and sought the service electively (67% of the cases). The diagnoses included soft tissue trauma (43%), bone trauma (31.6%), and compressive syndromes (25.5%). During this period, 45 (3.8%) subjects developed CRPS. The statistical analysis showed that the chance of developing CRPS is twice as high in patients with compressive syndrome, especially carpal tunnel syndrome (CTS), which represented most surgeries performed in our service (24%). Two or more incisions occurred in 7.6% of the cases, which tripled the chance of developing postoperative CRPS. Gender, age, use pf synthetic material, type of anesthesia type did not statistically increase the risk of developing postoperative CRPS.

Conclusion

In short, the incidence of CRPS is low; however, it is critical to know and recognize the risk factors for prevention and active screening in the postoperative period.

Keywords
carpal tunnel syndrome; complex regional pain syndromes; hand injuries; nerve compression syndromes; orthopedic precedures

Resumo

Objetivo

A síndrome da dor regional complexa (SDRC) precisa ser mais bem compreendida. Assim, este estudo objetiva analisar se fatores pré e intraoperatórios poderiam estar relacionados ao desenvolvimento de SDRC no pós-operatório.

Métodos

Foram revisados 1.183 prontuários de pacientes submetidos a cirurgias no antebraço e na mão entre 2015 e 2021. Os dados de interesse, como diagnóstico, incisões, material de síntese e anestesia realizada, foram coletados, tabulados e submetidos a testes estatísticos com posterior cálculo da razão de chances.

Resultados

A maioria dos pacientes era do gênero feminino, com idade entre 30 e 59 anos, que buscaram o serviço de forma eletiva (67% dos casos). Os diagnósticos agrupados de forma geral foram: traumas de partes moles (43%), traumas ósseos (31,6%) e síndromes compressivas (25,5%). Durante esse período, 45 pacientes (3,8%) evoluíram com SDRC. A análise estatística mostrou que a chance de desenvolver SDRC é duas vezes maior em pacientes com síndrome compressiva, especialmente a síndrome do túnel do carpo (STC), que representou a maioria dos cirurgias realizadas em nosso serviço (24%). Em 7,6% dos casos, foram realizadas duas ou mais incisões, o que triplicou a possibilidade de SDRC pósoperatória. Gênero, idade, uso de material de síntese, ou tipo de anestesia não aumentaram estatisticamente o risco de SDRC no pós-operatório.

Conclusão

Em suma, a incidência de SDRC é baixa, mas é importante conhecer e reconhecer os fatores de risco para a prevenção e a busca ativa no pós-operatório.

Palavras-chave
lesões da mão; procedimentos ortopédicos; síndrome do túnel do carpo; síndromes da dor regional complexa; síndromes de compressão nervosa

Introduction

Complex regional pain syndrome (CRPS) is a clinical condition characterized by persistent pain disproportionate to the injury, with changes in sensitivity, motricity, and vascularization. If the condition persists, it leads to skin changes and atrophy in the affected area.¹1 Harden RN, McCabe CS, Goebel A, et al. Complex Regional Pain Syndrome: Practical Diagnostic and Treatment Guidelines, 5th Edition. Pain Med 2022;23(Suppl 1):S1–S53–³3 Dutton LK, Rhee PC. Complex Regional Pain Syndrome and Distal Radius Fracture: Etiology, Diagnosis, and Treatment. Hand Clin 2021;37(02):315–322 It occurs predominantly in the peripheral region of the upper limbs,²2 Firat M. Complex regional pain syndrome type 1 of the upper limb following glass cut of the third finger in a patient. J Orthop Traumatol Rehabil 2021;13(01):50–53 but it can affect any portion of the body.¹1 Harden RN, McCabe CS, Goebel A, et al. Complex Regional Pain Syndrome: Practical Diagnostic and Treatment Guidelines, 5th Edition. Pain Med 2022;23(Suppl 1):S1–S53–⁴4 Gofiţă CE, Mușetescu AE, Ciurea PL, et al. Posttraumatic Complex Regional Pain Syndrome and Related Comorbidities. Curr Health Sci J 2019;45(03):321–328 Its etiology is not entirely understood. The diagnosis is clinical, based on the Budapest criteria (Table 1), and, to date, there are no specific supplementary tests.¹1 Harden RN, McCabe CS, Goebel A, et al. Complex Regional Pain Syndrome: Practical Diagnostic and Treatment Guidelines, 5th Edition. Pain Med 2022;23(Suppl 1):S1–S53–³3 Dutton LK, Rhee PC. Complex Regional Pain Syndrome and Distal Radius Fracture: Etiology, Diagnosis, and Treatment. Hand Clin 2021;37(02):315–322 The syndrome often occurs after trauma, surgery, or conditions affecting the local nervous system,²2 Firat M. Complex regional pain syndrome type 1 of the upper limb following glass cut of the third finger in a patient. J Orthop Traumatol Rehabil 2021;13(01):50–53–⁴4 Gofiţă CE, Mușetescu AE, Ciurea PL, et al. Posttraumatic Complex Regional Pain Syndrome and Related Comorbidities. Curr Health Sci J 2019;45(03):321–328 and it is 2 to 4 times more common in women aged between 20 and 50 years.¹1 Harden RN, McCabe CS, Goebel A, et al. Complex Regional Pain Syndrome: Practical Diagnostic and Treatment Guidelines, 5th Edition. Pain Med 2022;23(Suppl 1):S1–S53–⁴4 Gofiţă CE, Mușetescu AE, Ciurea PL, et al. Posttraumatic Complex Regional Pain Syndrome and Related Comorbidities. Curr Health Sci J 2019;45(03):321–328 Patients undergoing surgery are more susceptible to developing CRPS than those not undergoing surgery.³3 Dutton LK, Rhee PC. Complex Regional Pain Syndrome and Distal Radius Fracture: Etiology, Diagnosis, and Treatment. Hand Clin 2021;37(02):315–322,⁵5 Jo YH, Kim K, Lee BG, Kim JH, Lee CH, Lee KH. Incidence of and Risk Factors for Complex Regional Pain Syndrome Type 1 after Surgery for Distal Radius Fractures: A Population-based Study. Sci Rep 2019;9(01):4871 Therefore, the objective of the present study was to analyze whether interventions performed during the surgical procedure to treat the main conditions in the routine of the hand surgery outpatient clinic contribute or not to the development of postoperative CRPS.

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Table 1
Budapest clinical criteria for complex regional pain syndrome

Materials and Methods

The Ethics Committees of the two institutions where the data were collected approved the present study, which complied with institutional guidelines and Resolution no. 466/20112 of the Brazilian National Health Council. The study was cross-sectional, observational, retrospective, and included all patients who underwent a surgical procedure from January 2015 to December 2021. These surgeries were performed by a hand surgeon who is a member of an orthopedics team working at a regional healthcare unit. After hospital discharge, patients were referred to the outpatient clinic for follow-up with the same surgeon to ensure consistency in the clinical analysis. This process is especially relevant in CRPS due to its diverse signs and symptoms and the current lack of a gold-standard diagnosis, leading to the need for uniform clinical assessments throughout medical follow-up. The diagnosis was based on the Budapest criteria, including constant pain inconsistent with any triggering event accompanied by other signs and symptoms, as outlined in Table 1.

Among all operated patients, we selected those diagnosed with CRPS at least 30 days after surgery. Patients with conditions treated non-surgically, duplicate records in the system, or subjects with complications but who had not undergone surgery during the preestablished period were excluded from the study.

Data were collected exclusively by analyzing medical records. Details such as gender, age, year of admission, nature of the admission (elective or emergency), and general and specific diagnoses were recorded, as well as specific information about the surgical procedure, including number of incisions, synthesis materials, type of anesthesia administered during the procedure, and the subsequent development (or not) of postoperative CRPS.

Data tabulation was made through the Excel (Microsoft Corp., Redmond, WA, United States), version 2013, software. Next, we performed the statistical analysis, that is, application of the Chi-squared test followed by univariate logistic regression analysis. We included variables with statistically significant results in the multivariate analysis to identify whether there was an independent association with CRPS. The results were expressed as odds ratios (ORs) and 95% confidence intervals (95%CIs), and OR was established when the p-value was lower than 0.05 (p < 0.05). All these statistical analyses used the R application (R Foundation for Statistical Computing, Vienna, Austria), version 3.8.

Quantitative data were expressed as frequencies and percentages to facilitate understanding. Regarding qualitative information, the most significant values are mentioned in the text, and general data are shown in a table for better analysis and visualization during the discussion.

Results

During the analyzed period, 1,183 subjects underwent surgery, including 770 (65.1%) women and 413 (34.9%) men. The overall mean age was of 49.6 ± 17 years. According to the Budapest criteria, 45 (3.8%) patients, with a mean age of 53.02 ± 13 years, developed CRPS during the postoperative follow-up.

Regarding the nature of the admission, most patients sought the service electively, resulting in 795 procedures (67.2%), while emergency surgeries, mainly resulting from fractures, totaled 388 cases (32.8%).

Patients undergoing surgical procedures were categorized according to the nature of the condition: soft tissue injuries (507; 42.9%), fractures (374; 31.6%), and compressive syndromes (302; 25.5%). This last set included carpal tunnel syndrome (CTS), accounting for 284 (24%) procedures, and ulnar nerve compression, with 18 (1.5%) interventions. The most frequently performed procedures after CTS were fractures of the forearm bones, mainly the distal radius, with 267 surgeries (22.6%), and fractures of the hand bones, with 110 (9.3%) cases.

Regarding the number of incisions performed on the same patient for treatment, most subjects (1,093; 92.4%) required a single surgical approach. On the other hand, 90 (7.6%) cases required 2 or more incisions.

As for the fixation material, 753 (63.7%) cases did not use specific rigid synthetic material, mostly including decompressions and tenorrhaphies. The materials most frequently used in the surgeries were Kirschner wires in 240 (20.3%) cases, and volar plates in 126 (10.7%) cases.

Regarding the choice of anesthesia, intravenous general anesthesia predominated, totaling 607 (51.3%) procedures, closely followed by plexus block in 576 (48.7 %) patients.

The statistical analysis identified an increased risk of developing CRPS in the postoperative period. The presence of disease or compressive syndrome (p = 0.0361), the specific diagnosis of CTS (p = 0.0426), and the performance of 2 or more surgical incisions (p = 0.0194) increased this risk. The multivariate logistic analysis showed that compressive syndrome (OR: 2; 95%CI: 1.09–3.69), CTS (OR: 1.98; 95%CI: 1.07–3.67), and the performance of 2 or more incisions (OR: 2.7; 95%CI: 1.26-6.18) alone increased the chance of developing postoperative CRPS. Table 2 summarizes the results.

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Table 2
Surgical procedures performed and incidence of complex regional pain syndrome (CRPS)

Discussion

Complex regional pain syndrome is a debilitating and complex condition mainly affecting the periphery of the upper limbs. It is predominantly unilateral and associated with sensory, vasomotor, and dystrophic changes.¹1 Harden RN, McCabe CS, Goebel A, et al. Complex Regional Pain Syndrome: Practical Diagnostic and Treatment Guidelines, 5th Edition. Pain Med 2022;23(Suppl 1):S1–S53,²2 Firat M. Complex regional pain syndrome type 1 of the upper limb following glass cut of the third finger in a patient. J Orthop Traumatol Rehabil 2021;13(01):50–53,⁴4 Gofiţă CE, Mușetescu AE, Ciurea PL, et al. Posttraumatic Complex Regional Pain Syndrome and Related Comorbidities. Curr Health Sci J 2019;45(03):321–328 It can be preceded by a local known lesion, but it is idiopathic in 10% of the cases.¹1 Harden RN, McCabe CS, Goebel A, et al. Complex Regional Pain Syndrome: Practical Diagnostic and Treatment Guidelines, 5th Edition. Pain Med 2022;23(Suppl 1):S1–S53,³3 Dutton LK, Rhee PC. Complex Regional Pain Syndrome and Distal Radius Fracture: Etiology, Diagnosis, and Treatment. Hand Clin 2021;37(02):315–322,⁵5 Jo YH, Kim K, Lee BG, Kim JH, Lee CH, Lee KH. Incidence of and Risk Factors for Complex Regional Pain Syndrome Type 1 after Surgery for Distal Radius Fractures: A Population-based Study. Sci Rep 2019;9(01):4871,⁶6 Taylor SS, Noor N, Urits I, et al. Complex Regional Pain Syndrome: A Comprehensive Review. [published correction appears in Pain Ther. 2021;]Pain Ther 2021;10(02):875–892 The symptoms often begin 15 to 30 days after the injury,²2 Firat M. Complex regional pain syndrome type 1 of the upper limb following glass cut of the third finger in a patient. J Orthop Traumatol Rehabil 2021;13(01):50–53,⁷7 A Sousa LH, O Costa C, Novak EM, Giostri GS. Complex Regional Pain Syndrome after Carpal Tunnel Syndrome Surgery: A Systematic Review. Neurol India 2022;70(02):491–503 the diagnosis is clinical, and, currently, there are no validated tests to confirm it. The literature reports divergent data regarding its incidence, with comprehensive estimates,¹1 Harden RN, McCabe CS, Goebel A, et al. Complex Regional Pain Syndrome: Practical Diagnostic and Treatment Guidelines, 5th Edition. Pain Med 2022;23(Suppl 1):S1–S53,²2 Firat M. Complex regional pain syndrome type 1 of the upper limb following glass cut of the third finger in a patient. J Orthop Traumatol Rehabil 2021;13(01):50–53,⁵5 Jo YH, Kim K, Lee BG, Kim JH, Lee CH, Lee KH. Incidence of and Risk Factors for Complex Regional Pain Syndrome Type 1 after Surgery for Distal Radius Fractures: A Population-based Study. Sci Rep 2019;9(01):4871,⁷7 A Sousa LH, O Costa C, Novak EM, Giostri GS. Complex Regional Pain Syndrome after Carpal Tunnel Syndrome Surgery: A Systematic Review. Neurol India 2022;70(02):491–503 and regarding the risk factors, including comorbidities such as depression, fibromyalgia, rheumatoid arthritis, and metabolic disorders.¹1 Harden RN, McCabe CS, Goebel A, et al. Complex Regional Pain Syndrome: Practical Diagnostic and Treatment Guidelines, 5th Edition. Pain Med 2022;23(Suppl 1):S1–S53–⁵5 Jo YH, Kim K, Lee BG, Kim JH, Lee CH, Lee KH. Incidence of and Risk Factors for Complex Regional Pain Syndrome Type 1 after Surgery for Distal Radius Fractures: A Population-based Study. Sci Rep 2019;9(01):4871

The development of CRPS occurs in two main phases, each with its features: in the acute or hot phase, proinflammatory mediators are released, resulting in symptoms such as paresthesia, hyperalgesia, anodynia, signs of vasomotor dys-function, marked edema, and dyskinesia;¹1 Harden RN, McCabe CS, Goebel A, et al. Complex Regional Pain Syndrome: Practical Diagnostic and Treatment Guidelines, 5th Edition. Pain Med 2022;23(Suppl 1):S1–S53,³3 Dutton LK, Rhee PC. Complex Regional Pain Syndrome and Distal Radius Fracture: Etiology, Diagnosis, and Treatment. Hand Clin 2021;37(02):315–322,⁶6 Taylor SS, Noor N, Urits I, et al. Complex Regional Pain Syndrome: A Comprehensive Review. [published correction appears in Pain Ther. 2021;]Pain Ther 2021;10(02):875–892 and the chronic or cold phase is characterized by activation of keratinocytes, fibroblasts, and osteocytes, leading to increased expression of adrenergic receptors and hyperstimulation of the sympathetic nervous system, which causes local vasoconstriction, with pale, cold, and sticky limbs.¹1 Harden RN, McCabe CS, Goebel A, et al. Complex Regional Pain Syndrome: Practical Diagnostic and Treatment Guidelines, 5th Edition. Pain Med 2022;23(Suppl 1):S1–S53,³3 Dutton LK, Rhee PC. Complex Regional Pain Syndrome and Distal Radius Fracture: Etiology, Diagnosis, and Treatment. Hand Clin 2021;37(02):315–322,⁶6 Taylor SS, Noor N, Urits I, et al. Complex Regional Pain Syndrome: A Comprehensive Review. [published correction appears in Pain Ther. 2021;]Pain Ther 2021;10(02):875–892 The symptoms are often subjective and, if the process is not interrupted, it leads to alopecia, nail changes, muscle atrophy, and chronic pain.¹1 Harden RN, McCabe CS, Goebel A, et al. Complex Regional Pain Syndrome: Practical Diagnostic and Treatment Guidelines, 5th Edition. Pain Med 2022;23(Suppl 1):S1–S53,²2 Firat M. Complex regional pain syndrome type 1 of the upper limb following glass cut of the third finger in a patient. J Orthop Traumatol Rehabil 2021;13(01):50–53,⁶6 Taylor SS, Noor N, Urits I, et al. Complex Regional Pain Syndrome: A Comprehensive Review. [published correction appears in Pain Ther. 2021;]Pain Ther 2021;10(02):875–892

Among the 1,138 subjects operated on during the 5 years of research, 45 (3.8%) presented postoperative CRPS. Both in the total group of operated subjects and among those who developed CRPS, most patients were women, with an average age of 49 to 53 years.¹1 Harden RN, McCabe CS, Goebel A, et al. Complex Regional Pain Syndrome: Practical Diagnostic and Treatment Guidelines, 5th Edition. Pain Med 2022;23(Suppl 1):S1–S53–⁴4 Gofiţă CE, Mușetescu AE, Ciurea PL, et al. Posttraumatic Complex Regional Pain Syndrome and Related Comorbidities. Curr Health Sci J 2019;45(03):321–328 Although Harden et al.¹1 Harden RN, McCabe CS, Goebel A, et al. Complex Regional Pain Syndrome: Practical Diagnostic and Treatment Guidelines, 5th Edition. Pain Med 2022;23(Suppl 1):S1–S53 and Dutton and Rhee,³3 Dutton LK, Rhee PC. Complex Regional Pain Syndrome and Distal Radius Fracture: Etiology, Diagnosis, and Treatment. Hand Clin 2021;37(02):315–322 as well as other authors, have highlighted the prevalence of CRPS in women, which is three times higher than in men, this gender association has not been shown to increase the risk of this complication.¹1 Harden RN, McCabe CS, Goebel A, et al. Complex Regional Pain Syndrome: Practical Diagnostic and Treatment Guidelines, 5th Edition. Pain Med 2022;23(Suppl 1):S1–S53,³3 Dutton LK, Rhee PC. Complex Regional Pain Syndrome and Distal Radius Fracture: Etiology, Diagnosis, and Treatment. Hand Clin 2021;37(02):315–322,⁷7 A Sousa LH, O Costa C, Novak EM, Giostri GS. Complex Regional Pain Syndrome after Carpal Tunnel Syndrome Surgery: A Systematic Review. Neurol India 2022;70(02):491–503

Studies with multiple patients with CRPS, as mentioned by Taylor et al.,⁶6 Taylor SS, Noor N, Urits I, et al. Complex Regional Pain Syndrome: A Comprehensive Review. [published correction appears in Pain Ther. 2021;]Pain Ther 2021;10(02):875–892 have identified the origin of this chronic pain, and they mention trauma, fractures, surgeries, and CTS, which together corresponded to more than 50% of the causes.¹1 Harden RN, McCabe CS, Goebel A, et al. Complex Regional Pain Syndrome: Practical Diagnostic and Treatment Guidelines, 5th Edition. Pain Med 2022;23(Suppl 1):S1–S53,³3 Dutton LK, Rhee PC. Complex Regional Pain Syndrome and Distal Radius Fracture: Etiology, Diagnosis, and Treatment. Hand Clin 2021;37(02):315–322,⁶6 Taylor SS, Noor N, Urits I, et al. Complex Regional Pain Syndrome: A Comprehensive Review. [published correction appears in Pain Ther. 2021;]Pain Ther 2021;10(02):875–892 Most patients in the present study sought elective care (67%), scheduling surgical procedures on an outpatient basis, mainly for CTS (284 cases; 24%). The remainder (33%) were treated as urgent or emergent cases due to injuries requiring early intervention, such as fractures.

The different clinical conditions resulting in surgical intervention evaluated in the present study (Table 3)fell into 3 broad groups: soft tissue trauma (43%), bone trauma (31.6%), and compressive syndromes (25.5%). In the statistical analysis of these general groups, only patients with compressive syndromes, mainly CTS, were twice as likely to develop CRPS during the postoperative period compared to any other condition. A review by A. Souza et al.⁷7 A Sousa LH, O Costa C, Novak EM, Giostri GS. Complex Regional Pain Syndrome after Carpal Tunnel Syndrome Surgery: A Systematic Review. Neurol India 2022;70(02):491–503 reported an incidence of 2% to 5% of CRPS after CTS decompression. These authors⁷7 A Sousa LH, O Costa C, Novak EM, Giostri GS. Complex Regional Pain Syndrome after Carpal Tunnel Syndrome Surgery: A Systematic Review. Neurol India 2022;70(02):491–503 also mentioned that chronic tunnel compression leads to hypersensitivity of the median nerve, local ischemia, and pain before treatment. For Gong et al.,⁸8 Gong H, Zhao G, Liu Y, Lu Z. Determinants of complex regional pain syndrome type I in patients with scaphoid waist fracture- a multicenter prospective observational study. BMC Musculoskelet Disord 2022;23(01):34 intense pain before surgery is a significant risk factor for subsequent CRPS development, highlighting the importance of prior sensitization of the nervous system for pain.⁸8 Gong H, Zhao G, Liu Y, Lu Z. Determinants of complex regional pain syndrome type I in patients with scaphoid waist fracture- a multicenter prospective observational study. BMC Musculoskelet Disord 2022;23(01):34 Similarly, this prior stimulation in people with fibromyalgia scheduled for a surgical procedure for carpal tunnel decompression increased the CRPS risk by approximately twofold.⁶6 Taylor SS, Noor N, Urits I, et al. Complex Regional Pain Syndrome: A Comprehensive Review. [published correction appears in Pain Ther. 2021;]Pain Ther 2021;10(02):875–892,⁹9 da Costa VV, de Oliveira SB, Fernandes MdoC, Saraiva RÂ Incidence of regional pain syndrome after carpal tunnel release. Is there a correlation with the anesthetic technique? Rev Bras Anestesiol 2011;61(04):425–433

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Table 3
General and specific diagnoses of the patients

Anesthetic preparation plays an essential role in the intraoperative period. In the present study, the predominant approach was intravenous general anesthesia (51.3%). As mentioned by A. Souza et al.⁷7 A Sousa LH, O Costa C, Novak EM, Giostri GS. Complex Regional Pain Syndrome after Carpal Tunnel Syndrome Surgery: A Systematic Review. Neurol India 2022;70(02):491–503 and Da Costa et al.,⁹9 da Costa VV, de Oliveira SB, Fernandes MdoC, Saraiva RÂ Incidence of regional pain syndrome after carpal tunnel release. Is there a correlation with the anesthetic technique? Rev Bras Anestesiol 2011;61(04):425–433 the anesthetic method, whether general intravenous or plexus block, does not increase the risk of developing postoperative CRPS. However, both studies⁷7 A Sousa LH, O Costa C, Novak EM, Giostri GS. Complex Regional Pain Syndrome after Carpal Tunnel Syndrome Surgery: A Systematic Review. Neurol India 2022;70(02):491–503,⁹9 da Costa VV, de Oliveira SB, Fernandes MdoC, Saraiva RÂ Incidence of regional pain syndrome after carpal tunnel release. Is there a correlation with the anesthetic technique? Rev Bras Anestesiol 2011;61(04):425–433 pointed to an association between the prolonged use of pneumatic tourniquets, regardless of the anesthetic technique, and the development of complex pain. Disproportionate pain in the postoperative period in the week after the traumatic event is another relevant predictive factor for the subsequent development of CRPS.³3 Dutton LK, Rhee PC. Complex Regional Pain Syndrome and Distal Radius Fracture: Etiology, Diagnosis, and Treatment. Hand Clin 2021;37(02):315–322 With this understanding, Da Costa et al.⁹9 da Costa VV, de Oliveira SB, Fernandes MdoC, Saraiva RÂ Incidence of regional pain syndrome after carpal tunnel release. Is there a correlation with the anesthetic technique? Rev Bras Anestesiol 2011;61(04):425–433 consider plexus block a protective factor against CRPS, as it can reduce pain stimulation during surgery and maintain prolonged pain control in the postoperative period.⁹9 da Costa VV, de Oliveira SB, Fernandes MdoC, Saraiva RÂ Incidence of regional pain syndrome after carpal tunnel release. Is there a correlation with the anesthetic technique? Rev Bras Anestesiol 2011;61(04):425–433

Another important consideration in the intraoperative setting involves incisions. Buller et al.¹⁰10 Buller M, Schulz S, Kasdan M, Wilhelmi BJ. The Incidence of Complex Regional Pain Syndrome in Simultaneous Surgical Treatment of Carpal Tunnel Syndrome and Dupuytren Contracture. Hand (N Y) 2018;13(04):391–394 raised concerns about simultaneously performing surgeries for CTS and Dupuytren contracture.¹⁰10 Buller M, Schulz S, Kasdan M, Wilhelmi BJ. The Incidence of Complex Regional Pain Syndrome in Simultaneous Surgical Treatment of Carpal Tunnel Syndrome and Dupuytren Contracture. Hand (N Y) 2018;13(04):391–394 They noted that this approach could slightly increase the likelihood of developing CRPS due to the length of the incisions required for both procedures. On the other hand, Rochlin et al.¹¹11 Rochlin DH, Sheckter CC, Satteson ES, Swan CC, Fox PM, Curtin C. Separating Fact From Fiction: A Nationwide Longitudinal Examination of Complex Regional Pain Syndrome Following Treatment of Dupuytren Contracture. Hand (N Y) 2022;17(05): 825–832 reported a greater risk of CRPS in cases of extensive incisions or incisions performed on multiple fingers; however, they did not identify the specific relationship between the simultaneous performance of fasciotomy and carpal tunnel decompression described by Buller et al.¹⁰10 Buller M, Schulz S, Kasdan M, Wilhelmi BJ. The Incidence of Complex Regional Pain Syndrome in Simultaneous Surgical Treatment of Carpal Tunnel Syndrome and Dupuytren Contracture. Hand (N Y) 2018;13(04):391–394 These authors reported that CRPS incidence does not change even when the procedures are performed in an open or endoscopic fashion.¹⁰10 Buller M, Schulz S, Kasdan M, Wilhelmi BJ. The Incidence of Complex Regional Pain Syndrome in Simultaneous Surgical Treatment of Carpal Tunnel Syndrome and Dupuytren Contracture. Hand (N Y) 2018;13(04):391–394,¹¹11 Rochlin DH, Sheckter CC, Satteson ES, Swan CC, Fox PM, Curtin C. Separating Fact From Fiction: A Nationwide Longitudinal Examination of Complex Regional Pain Syndrome Following Treatment of Dupuytren Contracture. Hand (N Y) 2022;17(05): 825–832 In the present study, we observed that patients undergoing multiple incisions on the forearm and hand (7.6%) are 3 times more likely to develop CRPS, which is consistent with the literature findings on the increase in complex pain complications.¹⁰10 Buller M, Schulz S, Kasdan M, Wilhelmi BJ. The Incidence of Complex Regional Pain Syndrome in Simultaneous Surgical Treatment of Carpal Tunnel Syndrome and Dupuytren Contracture. Hand (N Y) 2018;13(04):391–394,¹¹11 Rochlin DH, Sheckter CC, Satteson ES, Swan CC, Fox PM, Curtin C. Separating Fact From Fiction: A Nationwide Longitudinal Examination of Complex Regional Pain Syndrome Following Treatment of Dupuytren Contracture. Hand (N Y) 2022;17(05): 825–832

For Jo et al.,⁵5 Jo YH, Kim K, Lee BG, Kim JH, Lee CH, Lee KH. Incidence of and Risk Factors for Complex Regional Pain Syndrome Type 1 after Surgery for Distal Radius Fractures: A Population-based Study. Sci Rep 2019;9(01):4871 open fractures or those with significant instability tend to be more associated with the development of CRPS. They result from high-energy trauma with extensive damage to adjacent soft tissues and an intense concomitant inflammatory process.⁵5 Jo YH, Kim K, Lee BG, Kim JH, Lee CH, Lee KH. Incidence of and Risk Factors for Complex Regional Pain Syndrome Type 1 after Surgery for Distal Radius Fractures: A Population-based Study. Sci Rep 2019;9(01):4871 DeGeorge et al.¹²12 DeGeorge BR Jr, Brogan DM, Becker HA, Shin AY. Incidence of Complications following Volar Locking Plate Fixation of Distal Radius Fractures: An Analysis of 647 Cases. Plast Reconstr Surg 2020;145(04):969–976 observed that volar support plates used in unstable fractures or osteoporotic metaphyseal bones present complication rates ranging from 3% to 36%. The main complications included temporary paresthesias and acute CTS. These authors¹²12 DeGeorge BR Jr, Brogan DM, Becker HA, Shin AY. Incidence of Complications following Volar Locking Plate Fixation of Distal Radius Fractures: An Analysis of 647 Cases. Plast Reconstr Surg 2020;145(04):969–976 did not record complex pain among the 647 surgeries evaluated. Most patients evaluated in the present research underwent decompression or tenorrhaphy procedures (63.7%). The treatment of most fractures was percutaneous (20.3%), that is, with low damage to soft tissues, which is consistent with the idea by Jo et al.⁵5 Jo YH, Kim K, Lee BG, Kim JH, Lee CH, Lee KH. Incidence of and Risk Factors for Complex Regional Pain Syndrome Type 1 after Surgery for Distal Radius Fractures: A Population-based Study. Sci Rep 2019;9(01):4871 that the synthetic material is not directly responsible for CRPS progression, in contrast to previous trauma.⁵5 Jo YH, Kim K, Lee BG, Kim JH, Lee CH, Lee KH. Incidence of and Risk Factors for Complex Regional Pain Syndrome Type 1 after Surgery for Distal Radius Fractures: A Population-based Study. Sci Rep 2019;9(01):4871

The incidence of CRPS after surgical procedures in our sample was low, which is in line with the literature.¹1 Harden RN, McCabe CS, Goebel A, et al. Complex Regional Pain Syndrome: Practical Diagnostic and Treatment Guidelines, 5th Edition. Pain Med 2022;23(Suppl 1):S1–S53,³3 Dutton LK, Rhee PC. Complex Regional Pain Syndrome and Distal Radius Fracture: Etiology, Diagnosis, and Treatment. Hand Clin 2021;37(02):315–322,⁵5 Jo YH, Kim K, Lee BG, Kim JH, Lee CH, Lee KH. Incidence of and Risk Factors for Complex Regional Pain Syndrome Type 1 after Surgery for Distal Radius Fractures: A Population-based Study. Sci Rep 2019;9(01):4871,¹²12 DeGeorge BR Jr, Brogan DM, Becker HA, Shin AY. Incidence of Complications following Volar Locking Plate Fixation of Distal Radius Fractures: An Analysis of 647 Cases. Plast Reconstr Surg 2020;145(04):969–976 The most relevant risk factors included previous diagnosis of compressive syndrome, especially CTS, and the performance of two or more incisions in the hands. We suggest a more detailed analysis of CTS decompression surgeries in future studies.

Conclusion

When analyzing the surgical interventions, we concluded that performing two or more incisions substantially increased the risk of developing postoperative complex pain. The present study showed that CRPS is independent of the procedure, approach, synthetic material, or type of anesthesia. We strongly highlight the crucial role of sound preoperative planning and preventative measures to reduce the risk of developing CRPS.

Financial Support

The authors declare that they did not receive funding from agencies in the public, private, or not-for-profit sectors for the conduction of the present study.
Work developed at the Associação Beneficente Bom Samaritano, Maringá, Paraná, Brazil.

References

¹
Harden RN, McCabe CS, Goebel A, et al. Complex Regional Pain Syndrome: Practical Diagnostic and Treatment Guidelines, 5th Edition. Pain Med 2022;23(Suppl 1):S1–S53
²
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Publication Dates

Publication in this collection
26 Aug 2024
Date of issue
2024

History

Received
14 May 2023
Accepted
15 Jan 2024

This is an open access article published by Thieme under the terms of the Creative Commons Attribution 4.0 International License, permitting copying and reproduction so long as the original work is given appropriate credit

[1] Financial Support

The authors declare that they did not receive funding from agencies in the public, private, or not-for-profit sectors for the conduction of the present study.

[2] Work developed at the Associação Beneficente Bom Samaritano, Maringá, Paraná, Brazil.

Continuous pain disproportional to any trigging event in addition to at least one symptomreported by the patient in three of the following four categories, and symptoms from at least two categories evidenced by the doctor during the visit
	Sensory: Reports of hyperalgesia, allodynia, or both
	Vasomotor: Reports of temperature difference, change in skin color, or both
	Sudomotor/edema: Reports of edema, changes in sweating, and/or sweating asymmetry
	Motor/trophic: Reports of decreased range of motion, motor dysfunction (weakness, tremor, dystonia), and/or trophic changes (hair, nail, skin)
Lack of other diagnoses that better explain the signs and symptoms

		Patrients: n(%)	CRPS patients: n(%)	p-value (Chi-squared)	Odds ratio	95% confidence interval
Condition that led to the surgical procedure	Soft tissue lesions	507(42.9)	15(3)	0.074	–	–
	Fractures	374(31.6)	12(3.2)	0.074	–	–
	Compressive syndromes	302(25.5)	18(6)	0.036	2	1.09–3.69
Reason for the surgeries	Carpal tunnel syndrome	284(24)	17(6)	0.042	1.98	1.07–3.67
	Forearm bone fracture	267(22.6)	11(4.1)	0.204	–	–
	Hand bone fracture	110(9.3)	1(0.9)
	Trigger finger	98(8.3)	4(4.1)
	Material removal/debridement	80(6.8)	0
Number of incisions	1	1093(92.4)	37(3.4)	0.019	2.7	1.26–6.18
	≥ 2	90(7.6)	8(8.9)	0.019	2.7	1.26–6.18
Synthesis material	None	753(63.7)	32(4.2)	0.722	–	–
	Kirschner wire	240(20.3)	6(2.5)
	Volar plate	126(10.7)	6(4.8)
	Dynamic compression plate	20(1.7)	1(5)
	Herbert screw	20(1.7)	0
Anesthesia	General intravenous anesthesia	607(51.3)	22(3.8)	1	1.01	0.56–1.83
	Plexus block	576(48.7)	23(3.8)	1	1.01	0.56–1.83

General diagnosis	Specific diagnosis	n	%
Bone trauma	Hand bone fracture	110	9.3
	Forearm bone fracture	267	22.6
Soft tissue trauma	Synovial cyst	69	5.8
	De Quervain	29	2.5
	Trigger finger	98	8.3
	Hammer finger	27	2.3
	Dupuytren	16	1.4
	Material removal/debridement	42	3.6
	Adductor tenoplasty	15	1.3
	Tenorrhaphy	69	5.8
	Scaphoid pseudoarthrosis	15	1.3
	Miscellaneous	44	3.7
Compressive syndrome	Ulnar decompression	18	1.5
	Carpal tunnel syndrome	284	24
Total		1,183	100

Brasil

Brasil

Analysis of Surgical Procedures on the Forearm and Hand and Their Relationship with Complex Regional Pain Syndrome: A Cross-sectional Study

Abstract

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Introduction

Materials and Methods

Results

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References

Publication Dates

History