Acessibilidade / Reportar erro

Changing Concepts for the Diagnosis of Carpal Tunnel Syndrome in Powerlifting Athletes with Disabilities

Abstract

Objective

To examine the prevalence of carpal tunnel syndrome in powerlifting athletes with disabilities.

Methods

The present study evaluated the presence and intensity of pain (numerical scale), nocturnal paresthesia (self-report), and nerve compression (Tinel and Phalen signs) in wheelchair- and non-wheelchair-bound powerlifting athletes with disabilities. The clinical diagnosis of carpal tunnel syndrome was confirmed by the presence of two or more signs/symptoms.

Results

In total, 29 powerlifting athletes with disabilities were evaluated. None of the athletes reported the presence of pain or nocturnal paresthesia. The Tinel sign was present in 1 (3.45%) wheelchair-bound athlete. A positive Phalen test was present in 3 (10.35%) athletes (1 wheelchair-bound and 2 non-wheelchair-bound). Concurrent positive Tinel sign and Phalen sign tests were found in 2 (6.89%) athletes (1 wheelchair-bound and 1 non-wheelchair-bound).

Conclusion

Carpal tunnel syndrome was clinically diagnosed in 2 (6.89%) out of 29 powerlifting athletes with disabilities.

Keywords
athletic injuries; nerve crush; hand; sports medicine

Resumo

Objetivo

Examinar a prevalência da síndrome do túnel do carpo em atletas do halterofilismo do esporte adaptado.

Métodos

Este estudo avaliou a presença e a intensidade da dor (escala numérica), a parestesia noturna (autorrelato), e a compressão nervosa (sinais de Tinel e de Phalen) em atletas do halterofilismo do esporte adaptado em cadeira de rodas e sem cadeira de rodas. O diagnóstico clínico da síndrome do túnel do carpo foi confirmado pela presença de dois ou mais sinais/sintomas.

Resultados

Vinte e nove atletas de halterofilismo de esporte adaptado foram avaliados. Nenhum dos atletas relatou a presença de dor ou parestesia noturna. O sinal de Tinel estava presente em 1 (3,45%) atleta de cadeira de rodas. O teste de Phalen positivo estava presente em 3 (10,35%) atletas (1 em cadeira de rodas e 2 sem cadeira de rodas). Testes positivos de sinais de Tinel e de Phalen foram encontrados concomitantemente em 2 (6,89%) atletas (1 em cadeira de rodas e 1 sem cadeira de rodas).

Conclusão

A síndrome do túnel do carpo foi diagnosticada clinicamente em 2 (6,89%) dos 29 atletas com deficiência física.

Palavras-chave
traumatismos em atletas; compressão nervosa; mão; medicina esportiva

Introduction

A review of the literature11 Rettig AC. Athletic injuries of the wrist and hand: part II: overuse injuries of the wrist and traumatic injuries to the hand. Am J Sports Med 2004;32(01):262-273 regarding the most common injuries related to excessive use of the wrist in athletes demonstrated that acute carpal tunnel syndrome (CTS) is occasionally present in young athletes. Carpal tunnel syndrome is typically secondary to tenosynovitis caused by repetitive activities of the flexors of the fingers.11 Rettig AC. Athletic injuries of the wrist and hand: part II: overuse injuries of the wrist and traumatic injuries to the hand. Am J Sports Med 2004;32(01):262-273 A previous systematic review22 Toth C. McNeilS, Freasby T. Peripheral nervous system injuries in sport and recreation. Sports Med 2005;35(08):717-738 demonstrated the presence of CTS in a variety of athletes, including cyclists, fighters, football players, weightlifters, archers, and athletes in wheelchairs. The spine, shoulders, and knees are the most commonly affected areas in athletes that practice powerlifting,11 Rettig AC. Athletic injuries of the wrist and hand: part II: overuse injuries of the wrist and traumatic injuries to the hand. Am J Sports Med 2004;32(01):262-273 and powerlifters have reported that the hand and wrist pain is worse in the supine position.33 Siewe J, Rudat J, Röllinghoff M, Schlegel UJ, Eysel P, Michael JW. Injuries and overuse syndromes in powerlifting. Int J Sports Med 2011;32(09):703-711

Although the increasing number of athletes with disabilities is a global phenomenon, there are few studies on injury patterns, risk factors, and prevention strategies in disabled athletes. Competitiveness, among other things, has led to an evolution in the process of high-performance training,44 Silva AA, Marques RF, Pena LG, et al. Adapted sport: an approach on the factors that influence the practice of collective sport in a wheelchair. Rev Bras Educ Fís Esporte 2013;27(04):679-687 and pain is typically a part of life for athletes who practice adaptive sports.1111 Impink BG, Boninger ML, Walker H, Collinger JL, Niyonkuru C. Ultrasonographic median nerve changes after awheelchair sporting event. Arch Phys Med Rehabil 2009;90(09):1489-1494 Willik et al.55 Willick SE, Cushman DM, Blauwet CA, et al. The epidemiology of injuries in powerlifting at the London 2012 Paralympic Games: An analysis of 1411 athlete-days. Scand J Med Sci Sports 2016;26(10):1233-1238 reported that the most common injuries of paralympic weightlifting athletes at the London Olympic Games in 2012 were in the shoulders, thorax, and elbows. While previous studies have reported the presence of CTS in athletes who practice adaptive sports,66 Dozono K, Hachisuka K, Hatada K, Ogata H. Peripheral neuropathies in the upper extremities of paraplegicwheelchair marathon racers. Paraplegia 1995;33(04):208-211,77 Jackson DL, Hynninen BC, Caborn DN,McLean J. Electrodiagnostic study of carpal tunnel syndrome inwheelchair basketball players. Clin J Sport Med 1996;6(01):27-31 none have focused on the sport of powerlifting. Therefore, the present study examined the prevalence of CTS in powerlifting athletes with disabilities.

Methods

The present cross-sectional observational study was approved by the Medical Ethics Committee of the University Hospital (no: 2.397.090). Written permission was obtained from all participating athletes.

The authors assessed powerlifting athletes with disabilities at local training centers; both wheelchair and non-wheelchair users were included. Athletes with intellectual disabilities that precluded the clinical evaluations used in the present study were excluded. The parameters measured were the presence and intensity of pain using a numerical pain rating scale, median nerve compression/injury symptoms by the Tinel sign, nocturnal paresthesia by self-report, and the Phalen test. Paresthesia during the Phalen and Tinel sign tests was also evaluated according to self-report. The clinical diagnosis of CTS was confirmed by the presence of two or more signs/symptoms.

Results

A total of 29 powerlifting athletes with disabilities were evaluated in the present study. The mean age ± standard deviation was of 31 ± 12.3 years (range: 14–50 years), and there were 17 (59%) males and 12 (41%) females. In total, 15 (52%) athletes were not wheelchair users and 14 (48%) were. None of the athletes reported the presence of pain (intensity score = 0) or nocturnal paresthesia. The Tinel sign was found in 1 (3.45%) athlete who was a wheelchair user. A positive Phalen test was found in 3 (10.35%) athletes (1 wheelchair user and 2 non-wheelchair users). A steady Tinel sign and positive Phalen test were found in 2 (6.89%) athletes (1 wheelchair user and 1 non-wheelchair user). No relationship was found between the presence of symptoms/signs and wheelchair use.

Discussion

Hand injuries in adaptive sports athletes are often described in the literature.66 Dozono K, Hachisuka K, Hatada K, Ogata H. Peripheral neuropathies in the upper extremities of paraplegicwheelchair marathon racers. Paraplegia 1995;33(04):208-211

7 Jackson DL, Hynninen BC, Caborn DN,McLean J. Electrodiagnostic study of carpal tunnel syndrome inwheelchair basketball players. Clin J Sport Med 1996;6(01):27-31

8 Fagher K, Lexell J. Sports-related injuries in athletes with disabilities. Scand J Med Sci Sports 2014;24(05):e320-e331
-99 Ferreira FA, Bussmann AJC, Greguol M. Incidence of injuries in wheelchair basketball athletes. Rev Ter OcupUniv Sao Paulo 2013; 24(02):134-140 Although several studies have been conducted on CTS in adaptive sports athletes,66 Dozono K, Hachisuka K, Hatada K, Ogata H. Peripheral neuropathies in the upper extremities of paraplegicwheelchair marathon racers. Paraplegia 1995;33(04):208-211,77 Jackson DL, Hynninen BC, Caborn DN,McLean J. Electrodiagnostic study of carpal tunnel syndrome inwheelchair basketball players. Clin J Sport Med 1996;6(01):27-31,1010 Boninger ML, Robertson RN, Wolff M, Cooper RA. Upper limb nerve entrapments in elite wheelchair racers. Am J Phys Med Rehabil 1996;75(03):170-176,1111 Impink BG, Boninger ML, Walker H, Collinger JL, Niyonkuru C. Ultrasonographic median nerve changes after awheelchair sporting event. Arch Phys Med Rehabil 2009;90(09):1489-1494 none have evaluated CTS in powerlifting athletes with disabilities. The clinical diagnosis of CTS is not always simple because of variations in the frequency and intensity of signs and symptoms. Furthermore, because common CTS symptoms, such as numbness and tingling, can appear sporadically in the general population, they do not necessarily indicate clinical CTS.1212 Atroshi I, Gummesson C, Johnsson R, Ornstein E, Ranstam J, Rosén I. Prevalence of carpal tunnel syndrome in a general population. JAMA 1999;282(02):153-158

With the exception of the intense numbness that is sometimes described by patients as painful, pain is not a classical symptom of CTS.1313 Duckworth AD, Jenkins PJ, RoddamP,Watts AC, Ring D, McEachan JE. Pain and carpal tunnel syndrome. J Hand Surg Am 2013;38 (08):1540-1546 According to the American Academy of Orthopedic Surgeons (AAOS) recommendations, the diagnosis of CTS should be made based on clinical examination. While electrical studies should be performed for confirmation or to assist in a differential diagnosis,1414 Keith MW, Masear V, Chung K, et al. Diagnosis of carpal tunnel syndrome. J Am Acad Orthop Surg 2009;17(06):389-396 the diagnosis of CTS should not be made solely by eletrical studies as previous studies have reported the occurrence of false positive results.1515 Sawaya RA, Sakr C. When is the Phalen's test of diagnostic value: an electrophysiologic analysis? J ClinNeurophysiol 2009;26(02):132-133 Moreover, several studies have shown that changes in electroneuromyography are more frequent than clinical symptoms.66 Dozono K, Hachisuka K, Hatada K, Ogata H. Peripheral neuropathies in the upper extremities of paraplegicwheelchair marathon racers. Paraplegia 1995;33(04):208-211,1616 Davidoff G,Werner R,Waring W. Compressivemononeuropathies of the upper extremity in chronic paraplegia. Paraplegia 1991;29(01):17-24 However, we believe some studies overestimate electroneuromyography findings in relation to the clinical symptoms in athletes who practice adaptive sports.77 Jackson DL, Hynninen BC, Caborn DN,McLean J. Electrodiagnostic study of carpal tunnel syndrome inwheelchair basketball players. Clin J Sport Med 1996;6(01):27-31,1717 Krivickas LS, Wilbourn AJ. Peripheral nerve injuries in athletes: a case series ofover 200injuries. SeminNeurol 2000;20(02):225-232,1818 Tun CG, Upton J. The paraplegic hand: electrodiagnostic studies and clinical findings. J Hand Surg Am 1988;13(05):716-719

Chammas et al.,1919 Chammas M, Boretto J, Burmann LM, et al. Síndrome do túnel do carpo - Parte I (anatomia,fisiologia,etiologia e diagnóstico). Rev Bras Ortop 2014;49(05):429-436 in their studies, reported that the existence of nocturnal paresthesia is the most sensitive symptom with a sensitivity of 96%. The test with the best sensitivity is direct compression (Paley and McMurphy) with 89%, followed by the Semmes-Weinstein Phalen and monofilament tests, with 83%. The score of Katz et al.2020 Katz JN, Stirrat CR, Larson MG, Fossel AH, Eaton HM, Liang MH. A self-administered hand symptom diagram for the diagnosis and epidemiologic study of carpal tunnel syndrome. J Rheumatol 1990;17(11):1495-1498 has a sensitivity of 76% in its typical form with tingling, numbness, swelling or hypoesthesia with or without pain that affects at least two of the first three fingers, palm and dorsum of the excluded hand. The most specific tests are the score of Katz et al.2020 Katz JN, Stirrat CR, Larson MG, Fossel AH, Eaton HM, Liang MH. A self-administered hand symptom diagram for the diagnosis and epidemiologic study of carpal tunnel syndrome. J Rheumatol 1990;17(11):1495-1498 (76%) and Tine’l signal (71%). The authors reported that the diagnosis of CTS has a probability of 0.86, provided that 4 tests show an abnormal combined result (compression test, monofilaments, Katz et al.2020 Katz JN, Stirrat CR, Larson MG, Fossel AH, Eaton HM, Liang MH. A self-administered hand symptom diagram for the diagnosis and epidemiologic study of carpal tunnel syndrome. J Rheumatol 1990;17(11):1495-1498 score, and nocturnal symptoms). If these four tests present normal results, the probability of the patient having CTS is of 0.0068.

Fulcher et al.2121 Fulcher SM, Kiefhaber TR, Stern PJ. Upper-extremity tendinites and overuse syndromes in the athlete. Clin Sports Med 1998;17(03):433-448 reported the presence of compression syndrome during the palmar grasp of a club, racket, or paddle; when the hand acts against a ball, as in volleyball or handball; and when flexion and flattening of the hand is required to support body weight, as in gymnastics. Our search for symptoms of CTS in powerlifting disabled athletes was motivated by the palmar grip on bars associated with the use of wheelchairs or crutches in their daily lives. The absence of pain in the hand and lack of nocturnal paresthesia was surprising considering the intense hand and wrist use by these athletes during the practice of sports and in their daily lives.

In our study, for the diagnosis of CTS, the athletes were asked about the presence of pain in the hands along with the presence of nocturnal paresthesia and the presence of the Phalen test and the Tinel sign. Unlike some studies55 Willick SE, Cushman DM, Blauwet CA, et al. The epidemiology of injuries in powerlifting at the London 2012 Paralympic Games: An analysis of 1411 athlete-days. Scand J Med Sci Sports 2016;26(10):1233-1238,88 Fagher K, Lexell J. Sports-related injuries in athletes with disabilities. Scand J Med Sci Sports 2014;24(05):e320-e331,1717 Krivickas LS, Wilbourn AJ. Peripheral nerve injuries in athletes: a case series ofover 200injuries. SeminNeurol 2000;20(02):225-232, our sample was not composed of symptomatic patients, but of a group of athletes who could develop the symptoms. The absence of nocturnal paresthesia in our results determined that other tests were not to be performed. It was not possible to apply the Katz et al.2020 Katz JN, Stirrat CR, Larson MG, Fossel AH, Eaton HM, Liang MH. A self-administered hand symptom diagram for the diagnosis and epidemiologic study of carpal tunnel syndrome. J Rheumatol 1990;17(11):1495-1498 score due to the absence of symptoms. The Paley and McMurphy tests were not used because they are not the most used tests. One of the six AAOS criteria for clinical diagnosis of CTS is the finger sensibility test. We believe the sensibility test is very important for the clinical diagnosis, as well as a useful tool for the evaluation of treatment outcomes. This test was not performed because the evaluation of the athletes was made inside the training center, with no ideal conditions for an accurate sensitivity test. We believe this one of the weakness of our research.

The athletes who presented paresthesia during the Tinel sign or Phalen tests claimed that the frequency and intensity of the symptoms were not sufficient to seek medical treatment, and they were not interested in performing electrical tests for diagnostic confirmation.

Despite the numerous studies reporting CTS in athletes who practice adaptive sports, few have discussed treatment. Dozono et al.66 Dozono K, Hachisuka K, Hatada K, Ogata H. Peripheral neuropathies in the upper extremities of paraplegicwheelchair marathon racers. Paraplegia 1995;33(04):208-211 reported that changes in wrist and hand position were sufficient for the remission of symptoms. Finsen2222 Finsen V. Commentary on Akbar et al. Prevalence of carpal tunnel syndromeand wrist osteoarthritis in long-term paraplegic patients compared with controls. J Hand Surg Eur Vol 2014;39(02):139 questioned the high prevalence of the diagnosis and the need for treatment in patients diagnosed with CTS. In the present study, the prevalence of CTS in adaptive sport athletes was lower than that reported in the literature, and the patients rarely need treatment.

Conclusion

The prevalence of CTS in powerlifting athletes with disabilities is of 2 in 29 (7%).

Key Points

Findings: The prevalence of CTS in powerlifting athletes with disabilities is only of 2 in 29 (6,89%).

Implications: CTS may not be as frequent in disabled athletes as expected.

Care: Pain and tingling do not always correspond to CTS.

Acknowledgments

The authors would like to thank professor Murilo Arsenio Spina (PE, MsC) and the Powerlifting Athletes with Disabilities involved in this study for their participation and cooperation.

References

  • 1
    Rettig AC. Athletic injuries of the wrist and hand: part II: overuse injuries of the wrist and traumatic injuries to the hand. Am J Sports Med 2004;32(01):262-273
  • 2
    Toth C. McNeilS, Freasby T. Peripheral nervous system injuries in sport and recreation. Sports Med 2005;35(08):717-738
  • 3
    Siewe J, Rudat J, Röllinghoff M, Schlegel UJ, Eysel P, Michael JW. Injuries and overuse syndromes in powerlifting. Int J Sports Med 2011;32(09):703-711
  • 4
    Silva AA, Marques RF, Pena LG, et al. Adapted sport: an approach on the factors that influence the practice of collective sport in a wheelchair. Rev Bras Educ Fís Esporte 2013;27(04):679-687
  • 5
    Willick SE, Cushman DM, Blauwet CA, et al. The epidemiology of injuries in powerlifting at the London 2012 Paralympic Games: An analysis of 1411 athlete-days. Scand J Med Sci Sports 2016;26(10):1233-1238
  • 6
    Dozono K, Hachisuka K, Hatada K, Ogata H. Peripheral neuropathies in the upper extremities of paraplegicwheelchair marathon racers. Paraplegia 1995;33(04):208-211
  • 7
    Jackson DL, Hynninen BC, Caborn DN,McLean J. Electrodiagnostic study of carpal tunnel syndrome inwheelchair basketball players. Clin J Sport Med 1996;6(01):27-31
  • 8
    Fagher K, Lexell J. Sports-related injuries in athletes with disabilities. Scand J Med Sci Sports 2014;24(05):e320-e331
  • 9
    Ferreira FA, Bussmann AJC, Greguol M. Incidence of injuries in wheelchair basketball athletes. Rev Ter OcupUniv Sao Paulo 2013; 24(02):134-140
  • 10
    Boninger ML, Robertson RN, Wolff M, Cooper RA. Upper limb nerve entrapments in elite wheelchair racers. Am J Phys Med Rehabil 1996;75(03):170-176
  • 11
    Impink BG, Boninger ML, Walker H, Collinger JL, Niyonkuru C. Ultrasonographic median nerve changes after awheelchair sporting event. Arch Phys Med Rehabil 2009;90(09):1489-1494
  • 12
    Atroshi I, Gummesson C, Johnsson R, Ornstein E, Ranstam J, Rosén I. Prevalence of carpal tunnel syndrome in a general population. JAMA 1999;282(02):153-158
  • 13
    Duckworth AD, Jenkins PJ, RoddamP,Watts AC, Ring D, McEachan JE. Pain and carpal tunnel syndrome. J Hand Surg Am 2013;38 (08):1540-1546
  • 14
    Keith MW, Masear V, Chung K, et al. Diagnosis of carpal tunnel syndrome. J Am Acad Orthop Surg 2009;17(06):389-396
  • 15
    Sawaya RA, Sakr C. When is the Phalen's test of diagnostic value: an electrophysiologic analysis? J ClinNeurophysiol 2009;26(02):132-133
  • 16
    Davidoff G,Werner R,Waring W. Compressivemononeuropathies of the upper extremity in chronic paraplegia. Paraplegia 1991;29(01):17-24
  • 17
    Krivickas LS, Wilbourn AJ. Peripheral nerve injuries in athletes: a case series ofover 200injuries. SeminNeurol 2000;20(02):225-232
  • 18
    Tun CG, Upton J. The paraplegic hand: electrodiagnostic studies and clinical findings. J Hand Surg Am 1988;13(05):716-719
  • 19
    Chammas M, Boretto J, Burmann LM, et al. Síndrome do túnel do carpo - Parte I (anatomia,fisiologia,etiologia e diagnóstico). Rev Bras Ortop 2014;49(05):429-436
  • 20
    Katz JN, Stirrat CR, Larson MG, Fossel AH, Eaton HM, Liang MH. A self-administered hand symptom diagram for the diagnosis and epidemiologic study of carpal tunnel syndrome. J Rheumatol 1990;17(11):1495-1498
  • 21
    Fulcher SM, Kiefhaber TR, Stern PJ. Upper-extremity tendinites and overuse syndromes in the athlete. Clin Sports Med 1998;17(03):433-448
  • 22
    Finsen V. Commentary on Akbar et al. Prevalence of carpal tunnel syndromeand wrist osteoarthritis in long-term paraplegic patients compared with controls. J Hand Surg Eur Vol 2014;39(02):139

Publication Dates

  • Publication in this collection
    03 Feb 2021
  • Date of issue
    Nov-Dec 2020

History

  • Received
    10 Feb 2019
  • Accepted
    27 Jan 2020
Sociedade Brasileira de Ortopedia e Traumatologia Al. Lorena, 427 14º andar, 01424-000 São Paulo - SP - Brasil, Tel.: 55 11 2137-5400 - São Paulo - SP - Brazil
E-mail: rbo@sbot.org.br