EVALUATION OF THE THERAPEUTIC EFFECTS OF TRANSCUTANEOUS INTERFERENTIAL CURRENT THERAPY AND THERAPEUTIC EXERCISES ON MUSCULOSKELETAL SYMPTOMS IN PATIENTS WITH POST COVID-19

Galina Мratskova

doi:10.35120/medisij020131m

Authors

Galina Мratskova Department of Medical Rehabilitation and Ergotherapy, Physical Medicine and Sports, Faculty of Medicine, Trakia University, Stara Zagora, Bulgaria

DOI:

https://doi.org/10.35120/medisij020131m

Keywords:

Post-COVID-19 Rehabilitation, Musculoskeletal symptom, Transcutaneous electrical nerve stimulation, Deep Oscillation® therapy, Therapeutic exercise, Functional activity

Abstract

The aim of this research was to investigate the therapeutic effectiveness of a multi-component rehabilitation program including: transcutaneous interferential current therapy and therapeutic exercises in patients with musculoskeletal symptoms in post COVID-19 syndrome. Materials and Methods: 62 patients, mean age 55.9(13.99), aged 21 to 79 years, with persistent musculoskeletal symptoms in the recovery phase after experiencing COVID-19 were included in this study. All patients underwent a ten-day treatment course in an outpatient setting, including transcutaneous application of interferential current with four electrodes. The therapeutic parameters were selected with analgesic, trophic and stimulating effects (90-100 Hz, 5min and 0-100 Hz, 15min). Immediately after electrotherapy, kinesitherapy was performed including: breathing exercises, aerobic training, active and resistance exercises for the limbs, postural control exercises and exercises to improve the mobility of the peripheral joints and the axial skeleton. Results were evaluated by: Visual Analogue Scale (VAS) for assessment of back pain, Numerical Rating Scale (NRS) for arthralgia and myalgia assessment, Brief Fatigue Inventory (BFI) – fatigue assessment, functional tests of mobility, Goniometry in the spine, Ott Sign- for measuring the range of motion (ROM) of the thoracic spine, Schober’s test to determine a lumbar spine range of motion (flexion), Tom Meyer’s test for total hip joint and spine flexion mobility. The results were reported before and after the rehabilitation. The statistical significance level was specified as (p<0.05). Results: Musculoskeletal symptoms in the observed patients persisted for an average of 12 weeks, ranging from 7 to 20 weeks, and included: myalgia in 46.8% (29), arthralgia 29.0% (18), pain in various back departments 79.0% (49), fatigue 66.1% (41). Inpatient treatment for acute COVID-19 was performed in 35.5% (22) of patients, and home and outpatient treatment in 64.5% (40). There was a statistically significant reduction (Mean (SD)) after therapy in back pain (VAS) from 4.88(1.5) to 1.93(1.1), myalgia (NRS) from 3.66(1.2) to 1.29(1.1), arthralgia (NRS) from 3.27(1.2) to 0.89 (0.8), and fatigue index (BFI) showed a reduction from 5.73(1.4) to 3.22(1.4). There was an increase in mobility in Ott’s symptom from 2.24(1.2) to 2.86(0.9) cm, Schober’s test 1.41(1.2) to 2.38(0.9) cm, Tom Meyer’s test from - 8.23(6.5) to - 2.46(3.7) cm. Conclusion: In the recovery phase post COVID-19, some of the patients had long-time persistent musculoskeletal symptoms (fatigue, myalgia, arthralgia, back pain). These are a common reason for these patients to be referred for outpatient rehabilitation. In order to design a multi-component rehabilitation programme, it is necessary to take into account individual characteristics and comorbidities. The inclusion of physical modalities such as electrotherapy requires an accurate assessment of the rehabilitation potential and the presence of any counterindications. Therapeutic exercises have been proven to be effective in post COVID-19 patients. The results of this study show that the combination of interferential current therapy and therapeutic exercise can effectively reduce back pain, myalgia, arthralgia, and perception of fatigue. On the other hand, this multicomponent program resulted in improvement in functional tests in the studied patients. Due to the small sample size, it is advisable to continue the study in the future, covering a larger number of patients with long-standing musculoskeletal symptoms as part of post-COVID-19 syndrome, in order to design an effective strategy that can efficiently reduce negative health consequences and improve functional activity in these patients.

Downloads

Download data is not yet available.

References

Adedoyin, R.A, Olaogun, M.O.B, Oyeyemi, A.L. (2005) Transcutaneous electrical nerve stimulation and interferential current combined with exercise for the treatment of knee osteoarthritis: a randomised controlled trial. Hong Kong Phys J; 23:13-9

Akbarialiabad, H., Taghrir, M. H., Abdollahi, A. et al. (2021). Long COVID, a Comprehensive Systematic Scoping Review. Infection 49, 1163–1186.

Almeida N, Paladini LH, Korelo RIG et al. (2020) Immediate Effects of the Combination of Interferential Therapy Parameters on Chronic Low Back Pain: A Randomized Controlled Trial. Pain Pract. 20: 615–625.

Azadvari, M., Haghparast, A., Nakhostin-Ansari, A. et al. (2022). Musculoskeletal symptoms in patients with long COVID: A cross-sectional study on Iranian patients. Heliyon, 8(8), e10148.

Asly, M., & Hazim, A. (2020). Rehabilitation of post-COVID-19 patients. The Pan African medical journal, 36, 168.

Baig A. M. (2021). Chronic COVID syndrome: Need for an appropriate medical terminology for long-COVID and COVID long-haulers. Journal of medical virology, 93(5), 2555–2556.

Barker-Davies, R. M., O’Sullivan, O., Senaratne, K., et al. (2020). The Stanford Hall consensus statement for post-COVID-19 rehabilitation. British journal of sports medicine, 54(16), 949–959.

Betschart, M., Rezek, S., Unger, I., et al. (2021). Feasibility of an Outpatient Training Program after COVID-19. International journal of environmental research and public health, 18(8), 3978.

Burch F.X, Tarro J.N, Greenberg, J.J, Carroll, W.J. (2008) Evaluating the benefits of patterned stimulation in the treatment of osteoarthritis of the knee: a multi-center, randomized, single-blind, controlled study with an independent masked evaluator. Osteoarthritis Cartilage;16 (8):865-72.

Castro, J. P., Kierkegaard, M., & Zeitelhofer, M. (2022). A Call to Use the Multicomponent Exercise Tai Chi to Improve Recovery From COVID-19 and Long COVID. Frontiers in public health, 10, 827645.

Chen, Z., Lan, W., Yang, G., Li, Y., Ji, X., Chen, L., Zhou, Y., & Li, S. (2020). Exercise Intervention in Treatment of Neuropsychological Diseases: A Review. Frontiers in psychology, 11, 569206.

Cifrek, M., Medved, V., Tonković, S., & Ostojić, S. (2009). Surface EMG based muscle fatigue evaluation in biomechanics. Clinical biomechanics (Bristol, Avon), 24(4), 327–340.

Cipollaro, L., Giordano, L., Padulo, J., Oliva, F., & Maffulli, N. (2020). Musculoskeletal symptoms in SARS-CoV-2 (COVID-19) patients. Journal of orthopaedic surgery and research, 15(1), 178.

Corrêa, J. B., Costa, L. O., de Oliveira, N. T., Sluka, K. A., & Liebano, R. E. (2013). Effects of the carrier frequency of interferential current on pain modulation in patients with chronic nonspecific low back pain: a protocol of a randomised controlled trial. BMC musculoskeletal disorders, 14, 195.

Defrin, R., Ariel, E., & Peretz, C. (2005). Segmental noxious versus innocuous electrical stimulation for chronic pain relief and the effect of fading sensation during treatment. Pain, 115(1-2), 152–160.

De-la-Cruz-Torres, B., Martínez-Jiménez, E., Navarro-Flores, E. et al. (2021). Heart Rate Variability Monitoring during Interferential Current Application in the Lower Back Area: A Cross-Sectional Study. International journal of environmental research and public health, 18(7), 3394.

Disser, N. P., De Micheli, A. J., Schonk, M. M. et al. (2020). Musculoskeletal Consequences of COVID-19. The Journal of bone and joint surgery. American volume, 102(14), 1197–1204.)

Dos Santos et al Dos Santos PK, Sigoli E, Bragança LJG, Cornachione AS. (2022) The Musculoskeletal Involvement After Mild to Moderate COVID-19 Infection. Front Physiol.13:813924.

Fujita K, Inoue A, Kuzuya M, et al. (2021) Mental Health Status of the Older Adults in Japan During the COVID-19 Pandemic. J Am Med Dir Assoc. 22(1):220-221.

Greenhalgh et al. (2020) Greenhalgh T, Knight M, A’Court C, Buxton M, Husain L. Management of post-acute covid-19 in primary care. BMJ. 2020;370:m3026.

Hockele, L. F., Sachet Affonso, J. V., Rossi, D., & Eibel, B. (2022). Pulmonary and Functional Rehabilitation Improves Functional Capacity, Pulmonary Function and Respiratory Muscle Strength in Post COVID-19 Patients: Pilot Clinical Trial. International journal of environmental research and public health, 19(22), 14899.

Hosey MM, Needham DM. (2020). Survivorship after COVID-19 ICU stay. Nature reviews. Disease primers, 6(1), 60.

Hou WK, Lai FT, Ben-Ezra M, Goodwin R. (2020) Regularizing daily routines for mental health during and after the COVID-19 pandemic. J Glob Health.10(2):020315.

Hussein, H. M., Alshammari, R. S., Al-Barak, S. S., (2022). A Systematic Review and Meta-analysis Investigating the Pain-Relieving Effect of Interferential Current on Musculoskeletal Pain. American journal of physical medicine & rehabilitation, 101(7), 624–633.

Itoh, K., Hirota, S., Katsumi, Y., Ochi, H., & Kitakoji, H. (2008). A pilot study on using acupuncture and transcutaneous electrical nerve stimulation (TENS) to treat knee osteoarthritis (OA). Chinese medicine, 3, 2.

Jiang, F., Deng, L., Zhang, L., Cai, Y., Cheung, C. W., & Xia, Z. (2020). Review of the Clinical Characteristics of Coronavirus Disease 2019 (COVID-19). Journal of general internal medicine, 35(5), 1545–1549.

Jimeno-Almazán, A., Pallarés, J.G., Buendía-Romero, Á. et al. (2021). Post-COVID-19 Syndrome and the Potential Benefits of Exercise. Int J Environ Res Public Health. 18(10), 5329.

Jin HK, Hwang TY, Cho SH. (2017) Effect of Electrical Stimulation on Blood Flow Velocity and Vessel Size. Open Med (Wars); 12:5-11.

Koleva I., Yoshinov B., Yoshinov. (2022) Physical medicine and rehabilitation in patients with neurological consequences of COVID-19: Basis principles. Collection of reports. International scientific conference Multidisciplinary Approach to Ensure the Normal Functioning of Health and Public Systems in Pandemics June 22-24, 2022, Stara Zagora

Lauwers M, Au M, Yuan S, Wen C. (2022) COVID-19 in Joint Ageing and Osteoarthritis: Current Status and Perspectives. Int J Mol Sci. 2022;23(2):720.

Mackenzie, J. S., & Smith, D. W. (2020). COVID-19: a novel zoonotic disease caused by a coronavirus from China: what we know and what we don’t. Microbiology Australia, MA20013. Advance online publication.

Magro, C., Mulvey, J.J, Berlin, D. et al. (2020) Complement associated microvascular injury and thrombosis in the pathogenesis of severe COVID-19 infection: a report of five cases. Transl Res;220: 1–13.

Mendoza, T. R., Wang, X. S., Cleeland, C. S. et al. (1999). The rapid assessment of fatigue severity in cancer patients: use of the Brief Fatigue Inventory. Cancer, 85(5), 1186–1196.

Mollova, K., Valeva, S., Bekir, N., & Uzunova, A. (2021). Pulmonary rehabilitation in post - covid syndrome. Knowledge - International Journal, 49(4), 661–666.

Motaqi M, Hatef B, Askari Ashtiani A, Ghanjal A. (202) 1Musculoskeletal Problems in Patients with COVID-19: A Review Study. Asian J Sports Med;12(3): e111040.

Мratskova G., Dimitrov, N., Goycheva, P., & Petrov, D. (2021). Assesment of the rehabilitation program for patients with knee osteoarthritis and diabetes mellitus type 2. Knowledge - International Journal, 45(4), 853–859.

Negm, A. M., Salopek, A., Zaide, M. et al. (2022). Rehabilitation at the Time of Pandemic: Patient Journey Recommendations. Frontiers in aging neuroscience, 14, 781226.

Noble GJ, Lowe AS, Walsh DM. (2000) Interferential Therapy Review. Part 1. Mechanism of Analgesic Action and Clinical Usage, Physical Therapy Reviews, 5:4, 239-245

Ozcan J, Ward AR, Robertson VJ. A comparison of true and premodulated interferential currents. Arch Phys Med Rehabil. 2004;85(3):409-415.

Petrova M, Takuchevа K, Mollovа K. (2023) Recovery of post COVID-19 survivors with the methods of sanatorial and SPA treatmen. Knowledge – International Journal, 55(4), 699-704)

Pfefferbaum, B., & North, C. S. (2020). Mental Health and the Covid-19 Pandemic. The New England journal of medicine, 383(6), 510–512.

Pinfildi, C. E., Andraus, R. A. C., Iida, L. M., & Prado, R. P. (2018). Neuromuscular electrical stimulation of medium and low frequency on the quadriceps femoris. Acta ortopedica brasileira, 26(5), 346–349.

Rampazo, É. P., & Liebano, R. E. (2022). Analgesic Effects of Interferential Current Therapy: A Narrative Review. Medicina (Kaunas, Lithuania), 58(1), 141.

Simpson, R., & Robinson, L. (2020). Rehabilitation After Critical Illness in People With COVID-19 Infection. American journal of physical medicine & rehabilitation, 99(6), 470–474.

Takeva I, Popova I, Ilieva E. (2021) Rehabilitation of patients with COVID-19 and post-COVID symptoms. Physical medicine Rehabilitation Health; 19(3-4):18-26.

Taradaj, J., Halski, T., Kucharzewski, M. et al. (2013). The effect of neuromuscular electrical stimulation on quadriceps strength and knee function in professional soccer players: return to sport after ACL reconstruction. BioMed research international, 2013, 802534.

Youn, J. I., Lee, H. S., & Lee, S. (2016). Determination of effective treatment duration of interferential current therapy using electromyography. Journal of physical therapy science, 28(8), 2400–2403.

Zhang, C., Shi, L., & Wang, F. S. (2020). Liver injury in COVID-19: management and challenges. The lancet. Gastroenterology & hepatology, 5(5), 428–430.