EFFICACY OF TRANSCUTANEOUS ELECTRICAL NERVE STIMULATION (TENS) IN TREATMENT OF NEUROPATHIC IN PATIENTS WITH DIABETIC NEUROPATHY

Anjan Desai1, Khushbu Desai2 ijcrr 1SPB Physiotherapy College, Surat, Gujarat Vol 04 issue 09 2Nanduba Medical Centre, Surat, Gujarat Category: Research Received on:12/04/12 Revised on:16/04/12 E-mail of Corresponding Author: [email protected] Accepted on:20/04/12

ABSTRACT Introduction: Diabetic Neuropathy is a peripheral nerve disorder caused by diabetes that leads to pain in periphery. Many patients are limited in their physical activity by pain. The study conducted to assess the effect of Transcutaneous Electrical Nerve Stimulation (TENS) application for reduction of pain in patients with diabetic neuropathy. Aim of study: The main objective of this study is to compare the effect of TENS on Diabetic Neuropathy patients in reduction of pain and improving single limb stance. Materials and Methodology: Study Design: An experimental comparative study. Sample Selection: A sample of 30 patients diagnosed as diabetic neuropathy were taken from after giving due consideration to inclusion and exclusion criteria. Sample size: Total 30 including Control Group (Group A): The patients in this group were given therapeutic exercise training only and Experimental Group (Group B): The patients in this group were given treatment with TENS application and therapeutic exercise training. Inclusive Criteria: Patients of diabetic neuropathy affecting unilateral lower limb defined as ≥ 50% loss of strength and sensation of foot relative to non-affected side and complain of pain duration ≥ 5 months. Exclusion Criteria: Patients with age group between the 50-60 years and Patients with other pathological conditions of foot i.e. gout, spondylolysthesis, gangrene and spinal disease. Outcome measures: Visual analogue scale and Single limb stance. Results: The subject‘s parameters calculated by using Paired t test for within group comparison and unpaired t test used for between group comparisons. The mean and standard deviation of the measurement were also calculated. The training induced changes were significantly greater in the experimental group than the control group in Visual analogue scale and Single limb stance. Conclusion: It concluded that the treatment with TENS has good effect on Diabetic Neuropathy patients in reduction of pain and improving single limb stance. ______

Keywords: Diabetic Neuropathy, of diabetes among age increased 90% from 4.8 Transcutaneous electrical nerve stimulation per 1,000 in 1995-1997 to 9.1 in 2005-2007(2). (TENS) Lack of insulin causes the various metabolic imbalances leading to irreversible functional & INTRODUCTION structural changes in cell body with these of Diabetes mellitus is clinical syndrome vascular and nervous system being affected the characterized by hyperglycemia due to absolute most, among people from diabetes or relative deficiency of insulin (1); the incidence

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mellitus, 45% of patient will have neuropathy during the course of disease(3). MATERIALS AND METHODOLOGY Diabetic neuropathy is a peripheral nerve Study Design: An experimental comparative disorder cause by diabetes, is characterized by study. gradual loss of sensations i.e. touch , Materials: temperature, vibration with loss of coordination Cotton, Needle, Hot and cold test tubes, Tuning and balance leading to weakness and wasting of fork, Inch tape, Digital stopwatch, goniometer muscles of hands and feet(4). and TENS. Diabetes changes the way nerve use glucose Sample size: leading to accumulation of sorbitol & depletion A total number of 30 patients diagnosed as of substance called myoinositol within the diabetic neuropathy selected and divided in two nerves.(5) Excessive blood sugar decreases the groups. The study carried out as before and after level of nitric oxide present in the blood leading study design with control group. to constriction of small vessels supplying a Control Group (Group A): nerves contributing to nerve damage. The The patients in this group had given treatment damaged nerve fiber sends incorrect signals to with therapeutic exercise to reduce pain. other pain centers giving rise to Neuropathic Experimental Group (Group B): pain (6). The patients in this group had given treatment The main objective of the treatment is to with TENS application and therapeutic exercise decrease pain & improve single limb stance with to reduce pain. simplify possible regimen. Medical management Study setting: concentrates on oral hypoglycemic drugs aided The study was conducted on patients diagnosed by use of non–steroidal anti-inflammatory drug as diabetic neuropathy, which were referred for along with exercise and dietary changes. physiotherapy management from neurology Transcutaneous Electrical Nerve Stimulation ward of South Central Railway Hospital, (TENS) is a specific therapeutic approach to Secunderabad and experiment was conducted at control the Neuropathic pain in patients with Sri Sai Physiotherapy Clinic, Kothapet, Andhra diabetic neuropathy (7). TENS either activates the Pradesh, India. gate control mechanism or induces the release of Duration: endogenous opiate substances to relieve pain (11). Treatment given for 20 minutes/sessions, 2 Neurological Rehabilitation programme aim at sessions /day for 5 days in a week for the both reducing pain, improve single limb stance, groups for 1 month. functional mobility, activities of daily living, Subject selection criteria: quality of life and perhaps survival in patients Inclusion Criteria: with diabetic neuropathy. Many patients with - Diabetic neuropathy affecting unilateral diabetic neuropathy are limited in their physical lower limb defined as ≥ 50% loss of activity by pain (12). Subjects undergoing strength and sensation of foot relative to treatment with TENS may be beneficial effect in non-affected side. diabetic neuropathy patient to reduce severity of - Complain of pain duration ≥ 5 months. pain and improving the single limb stance (13). Exclusion Criteria: The study conducted to determine whether the - Age group was between 50-60 years. TENS has effective on Diabetic Neuropathic pain. 12 International Journal of Current Research and Review www.ijcrr.com Vol. 04 issue 09 May 2012

- Pathological conditions of foot: gout, knee with both arm hang at side. Patients were spondylolysthesis, gangrene and spinal instructed to stand as motion less as possible, disease. look straight ahead at the point on wall 65cm. Parameters: away. Patients informed to be in position until Visual Analogue Scale: the time they can, with normal time about 60 Visual analogue scale is a most valuable and seconds. highly subjective measure mental scale that tries Procedure to measure a characteristic or attitude that has to Technique of application: range across a continuum of values. Visual Every session started with 5 minutes assessment analogue scale used for determine the intensity of sensation, range of motion and muscle of pain. The amount of pain that patient feels strength. ranges across a continuum from none to an In prone lying position, TENS given with high extreme amount of pain. Operationally a Visual frequency rectangular pulse shape, Pulse width analogue scale is usually horizontal line, 10 cm. between 200 to 400 µsec, Pulse rate between 60 in length, encored by word descriptors at each to 100 Hz, Intensity between 44 to 60 mA and and patient‘s marks on the line that the point that single channel surface electrode was used. they feel represents their perception of current Group A: Subjects in the control group given state. The left side of the line represents no pain. only therapeutic exercise program. The total Moreover, the right side represents the worst exercises training time was 20 minutes daily for pain. Visual analogue scale is consistent reliable 5 to 6 days in a week with total duration of 4 and easy to use and took less time to administer. weeks. Visual analogue scale used before and after to Group B: Subjects in experimental group given measure effectiveness of treatment and a treatment with Transcutaneous electrical nerve patient‘s progress. Visual analogue scale is a stimulation along with exercise programme for valid and reliable measure of chronic and acute pain reduction. The total training time was 20 pain intensity. minutes daily for 5 to 6 days in a week with total Single Limb Stance: duration of 4 weeks. Single limb stance is an objective type of gait variable in which one extremity is in contact with the ground or supporting surface. Foot placed pointing straight forward in relation to reference line in the frontal and sagittal planes. The other leg was flexed 90 degree at hip and

RESULTS Paired t test used for within group comparison and unpaired t test used for between group comparisons. Within group comparison Visual Analogue Scale: pre-exercise mean value post-exercise mean value „t‟ value P value Group A 6.62 6.54 2.442 0.0285

Group B 7.7 7.29 8.100 <0.0001

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Single Limb Stance: pre-exercise mean value post-exercise mean value „t‟ P value value Group A 38.77 42.12 19.77 <0.0001

Group B 38.89 49.05 10.95 <0.0001

On Comparing Group A and Group B:

Group A Group B Outcome Measure „t‟ value P value Mean±SD Mean±SD

VAS 0.073±0.116 0.406±0.194 8.205 <0.0001 Single limb stance 3.346±0.655 9.520±3.366 6.971 <0.0001 Means of differences of VAS score and SLS score of pre exercise and post exercise for Group A and Group B

The Visual Analogue Scale and Single Limb reduces pain and improves single limb stance. Stance have shown a mean improvement The study conducted with great care to ensure indicating the effect of treatment in Group B familiarization with the treatment and the length patients who had beneficial effects. Exercise of the training session as prescribed in clinical only did not show an improvement in a short trials. duration of 4 weeks. The mean improvement in Diabetic neuropathy contributes to pain and the patient‘s condition measured using visual reducing single limb stance (4). The measurement analogue scale and single limb stance indicating recorded after the treatment period in both the the reduction of pain achieved by treatment in groups has variations. The experimental group, this study. Visual analogue scale had a who treated with TENS, had significant significant improvement. The ―t‖ value indicates variations indicating the reduction of pain and the significant change in experimental group improvement in single limb stance. There have than the control group. been earlier studies that reported significant reduction in pain by treatment with TENS. (9) DISCUSSION The study showed that TENS administration was The study measurements assessed for pre- followed by reduction, but not abolition of pain exercise and post-exercise sessions of both in lower extremity at all painful sites. Finally, Group A and Group B. The post exercise the reduction in pain intensity reported here is parameters assessed by paired ―t‖ test and the typical of that observed in patients with diabetic formulated ―t‖ values were compared with the neuropathy who were treated with TENS (7). table values with a degree of freedom 14. The earlier studies for reduction of pain in The study demonstrated that in diabetic diabetic neuropathy had shown that TENS could neuropathy patients, treatment with the TENS relive the pain by altering nociceptive

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transmission in the dorsal horn of the spinal cord and books from where references for this article (15). The other mechanism requires that has been reviewed and discussed. stimulation delivered to the spinal cord segments Conflict of Interest: None that innervate the painful area via ventral rami of spinal nerves (17), however also innervate the skin REFERENCES of lower back via dorsal rami. Thus, TENS 1. The Expert Committee on the Diagnosis delivered to the dorsal columns reduced the and Classification of Diabetes Mellitus: Neuropathic pain in patients with diabetic Report of the Expert Committee on the neuropathy. Diagnosis and Classification of Diabetes Mellitus. Diabetes Care 20: 1183–1197, CONCLUSION 1997. The level of significance of visual analogue 2. State-Specific Incidence of Diabetes among scale and single limb stance had shown change Adults, Participating States, 1995-1997 and after the treatment with TENS and had proved 2005-2007. October 31, 2008 / 57(43); reduction of pain in diabetic neuropathy patients. 1169-1173. The calculated ―t‖ value greater than tabulated 3. Harrison M., Eastman R. Symptoms of ―t‖ value in parameters, standing that the results sensory neuropathy in adults with diabetes are highly significant and so the hypothesis goes mellitus. Diabetes care.1993; 16:1446- in favor of the Experimental hypothesis with the 1452. reduction in pain and improvement in single 4. Archives of Physical Medicine and limb stance. Thus the study concluded by Rehabilitation. Volume 77, Issue 9, rejecting null hypothesis and accepting the September 1996, Pages 849–855. experimental hypothesis. 5. Walkins PJ. Natural history of Diabetic The experimental hypothesis of the study states, neuropathy. Q J Med.1990; 77:1209-1218. ―There is a significant reduction in pain and also 6. Chance P., Lebo R. et al: Motor and improvement in single limb stance by treatment Sensory neuropathy in peripheral with Transcutaneous electrical nerve stimulation neuropathy 1981. application in patients with Diabetic 7. Kumar D., Diabetic Peripheral Neuropathy: Neuropathy.‖ Amelioration of pain with Transcutaneous electrical nerve stimulation. Diabetes care ACKNOWLEDGMENTS 1997, 20:1702-1705. Authors are sincerely grateful to the god who 8. J B Dingwell and associates study in showered his blessings and his helping hand for patients with diabetic neuropathy our research. Sincerely Authors are thankful to contribute to pain and reduction in single our principal who helped us in every walk of our limb stance. J Neurol.2000; 53:789-793. research and his support. The knowledge he 9. Mannheimer J.S. Electrode placement shared and his encouragement helped us a lot. technique. In clinical Transcutaneous Authors would like to mention special thanks to electrical nerve stimulation 1984; 331-495. my entire faculty who were always a standing 10. Galer BS and associates: Development and rock for our great work. Authors are privilege to preliminary validation of a pain measure thank our respected elderly subjects without specific to Neuropathic pain. Neurology whom this research was not been possible. 1997; 48:332-338. Authors heartily thankful to authors, journals 15 International Journal of Current Research and Review www.ijcrr.com Vol. 04 issue 09 May 2012

11. Garrison D and Foreman R suggested that 18. Walsh D.M., Transcutaneous electrical there is decreased activity of spontaneous nerve stimulation: Relevance of stimulation and noxiously evoked dorsal horn cells by parameters to neurophysiologic and hypo Transcutaneous electrical nerve stimulation effect. Am J Phys Med. application. Pain1994; 58:309-315. Rehab.1995; 74:199-206. 12. ANN M. ARING, M.D., Riverside 19. Nalon M.F.: Difference in electrode used Methodist Hospital, Columbus, Ohio. Am with Transcutaneous electrical nerve Fam Physician. 2005 Jun 1; 71(11):2123- stimulation. Phys Ther 1991; 71:746-51. 2128. 20. Lee K H, Chung J M. Inhibition of primate 13. Forster E.L. et al: Effect of Transcutaneous spinothalamic tract cell by transcutaneous electrical nerve stimulation on pain electrical nerve stimulation. following Diabetic neuropathy. 21. Frampton V: Pain control with the aid of Neurol.106:1343-1348. Transcutaneous electrical nerve 14. Wall J C and Scarbrough J: Use of stimulation. Physiotherapy 1982; 68:76-81. multimemory stopwatch to measure gait 22. Cauthen Jc. Transcutaneous electrical nerve parameters. J Ortho Sports Phys Ther. and peripheral nerve stimulation for 1997; 25:277. states. Surg. neurology, 1975; 15. Lamontage A.: electrophysiological studies 4: 134-141. in diabetic neuropathy. Am. Neurol. 1990; 23. Long D M studied the effect of stimulation 27:574-578. to the posterior columns of the spinal cord 16. Walker SC et al: Gait pattern alteration by for relief of intractable pain. Surg sensory stimulation in diabetic patient with Neurol.1975; 4:134-141. peripheral neuropathy. Arch Phy Med 24. U.s. Department of health and human Rehab.1997; 78:853. services National Institutes of Health. NIH 17. Macdonald A. J. R. Transcutaneous Publication No. 09–3185 February 2009. electrical nerve stimulation induces spinal 25. Archives of Physical Medicine and electro analgesia and its relief of chronic Rehabilitation. Volume 77, Issue 11, pain. Physiotherapy 1995; 81:653-61. November 1996, Pages 1152–1156

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Graph-I

Within Group Comparision

8 7.7

7.5 7.29

7 6.62 6.54 pre-exercise mean value 6.5 post-exercise mean value

6

5.5 Group A Group B Visual Analogue Scale

Graph-II

Within Group Comparision

60 49.05 50 42.12 38.77 38.89 40 pre-exercise mean value 30 post-exercise mean value 20 10 0 Group A Group B Single Limb Stance

Graph-III

Between Group A and Group B Comparision

0.45 0.406 0.4

0.35

0.3

0.25 VAS 0.2

0.15 Mean Mean VAS (cm) 0.1 0.073

0.05

0 Group A Group B

Graph-IV

Between Group A and Group B Comparision

10 9.52 9 8 7 6 5 SLS 4 3

Mean Mean SLS(sec.) 3 2 1 0 Group A Group B

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