BACKGROUND Yoga is considered to be a good exercise for maintaining proper health and also has a profound effect on the lung functions of an individual. Yogic practices help in prevention, control and rehabilitation of respiratory diseases associated with diabetes, and it also delays and prevent the complications of the disease. Aims and Objectives-To assess the effect of yoga on BMI and pulmonary functions in type 2 diabetes mellitus patients. MATERIALS AND METHODSThis non-randomized control trial was conducted , on 180 type 2 diabetes mellitus patients, classified into case [n=90] with yoga intervention and control [n=90] with no yoga. Baseline parameters, anthropometry and PFT, were recorded at the start and after 3 months. The sample size estimation was done at conveniences. RESULTSResults showed a significant difference in BMI between the groups and significant difference in pulmonary functions parameters like forced vital capacity (FVC), forced expiratory volume at 1st second (FEV1), peak expiratory flow rate (PEFR), and forced expiratory flow (FEF25%-75%), at the end of 3 months, between the case group with yoga intervention and control group with no intervention. CONCLUSIONThus, three (3) months yoga training has been found to be effective in improving BMI and pulmonary functions of patients with type 2 diabetes mellitus, which can prevent the early onset of macrovascular and microvascular complications. KEY WORDSYoga, BMI, Pulmonary Function Tests, Type 2 Diabetes Mellitus. HOW TO CITE THIS ARTICLE: Sutnga T, Ningthoujam S, Oumanath F. Effect of yoga on BMI and PFT among patients with Type 2 diabetes mellitus. J. Evolution Med. Dent. Sci. 2019;8(05):329-332, DOI: 10.14260/jemds/2019/71 BACKGROUND Diabetes Mellitus is a public health problem in developing and developed countries and according to World Health Organization (WHO) at least 366 million people worldwide have diabetes in 2011. This figure will rise to 552 million by 2030 and India will be the World Diabetic Capital by 2025. 1,2Diabetes mellitus is associated with widespread hormonal, metabolic, and microvascular abnormalities, as well as with disturbances of the function of many organ systems. The macroangiopathic and microangiopathic complications affect eyes, kidneys, nerves, cardiovascular system and respiratory system. The biochemical and structural change in basement membrane proteins of different body organ systems are the mainstay for development of diabetic complications. 3 These alterations are reversible to start with, and can be delayed by keeping the blood sugar levels in the normal range. 2
Aims To identify the effect of Video Gaming on Heart rate variability, Autonomic Changes, Visual Evoked Potential, Cognition, and the effect of long hours of video game playing This study is an Method observational study conducted among the volunteered medical students studying at Sri Venkateshwaraa Medical College Hospital and Research centre, Ariyur, Puducherry in the year from 2018 to 2021, who are playing video games, and the study was conducted from January 2021-December-2021. The study subjects were interviewed individually, anthropometric parameters, electrocardiogram, Heart Rate (HR), Blood Pressure (BP), Body Mass Index (BMI), Heart rate variability (HRV), Visual Evoked Potential (VEP), Cognition test using Mini-mental status examination (MMSE) 27 were done and data were collected, recorded, and analyzed. Out of 400 study population, males: females (183 (45.8%): Results 270 (54.2%) with a median age of 20.605 ± 0.9702 based on video games played intermittently in 24 hours students were divided into 3 categories, The 1st category played games for ≤ 3 hours (n= 223), 2nd category who played 4-6 hours (n=123), and students played > 6 hours were 54. 311 students played video games using mobile and 89 students used Laptops there was a statistical signicance among the categories. Among 400 students playing games 145 students' BMI was ≥ 25 (0.00007) (Chi-square - 19.0763) , 47 students' heart rate was abnormal among them 33 showed Bradycardia 14 showed Tachycardic and there was statistical signicance among the categories. 193 students' BP was low, 79 students' BP was high (<0.00001) (Chi-square - 48.0334), and there was a statistical signicance among the categories Among the 400 student's Heart R (0.0314) (Chi-square –10.6033). ate Variability results, <50 milliseconds (unhealthy value) of SDNN was found in 44 students and there was a statistical signicance among the categories below and above the normal range of 53.5-82 milliseconds (0.00001)(Chi-square – 206.655), (unhealthy value) of RMSSD for males was found in 59 students and below and above the normal range of 22-79 milliseconds (unhealthy value) of RMSSD for females was found in 53 students there was a statistical signicance among the categories (0.0422)(Chi-square – 13.053), <50 milliseconds (unhealthy value) of PNN-50 was found in 58 students and there was a statistical signicance among the categories . Out of 400 Students >0.4 milliseconds (<0.00001)(Chi-square – 129.0331) (unhealthy value) of Total Power was found in 115 students and there was a statistical signicance among the categories (0.0471) (Chi-square – 6.1101), >0.4 milliseconds (unhealthy value) of Ratio of High and Low-Frequency Powers of heart rate variability was found in 137 students and there was a statistical signicance among the categories (0.0176) (Chi-square – 8.0746). Among the 400 students' Visual Evoke Potential results, >100 milliseconds (unhealthy value) of were found in 118 students >100 milliseconds (unhealthy value) of N145 were found in 124 students, and there was a statistical signicance among the categories , >100 milliseconds (unhealthy value) of P100 were found in 108 (0.00005) (Chi-square- 19.7573) students, and there was a statistical signicance among the categories . Below and above (<0.00001) (Chi-square – 23.6437) the normal range of 3.9-8.3microVolt (unhealthy value) of N75-P100 amplitude for the right eye was found in 48 males, below and above the normal range of 5.9-12.3 microVolt (unhealthy value) of N75-P100 amplitude for the right eye was found in 49 female students there was a statistical signicance among the categories . Below and (<0.00001) (Chi-square – 121.8749) above the normal range of 3.6-8.0microVolt (unhealthy value) of N75-P100 amplitude for the left eye was found in 34 males, below and above the normal range of 5.1-11.5microVolt (unhealthy value) of N75-P100 amplitude for the left eye was found in 44 female students there was a statistical signicance among the categories . Among the 400 (<0.00001) (Chi-square – 93.632) student's Mini-Mental Status Examinations (MMSE) for cognition results, the delayed response was given for all 5 sections of MMSE by the students who played the games for > 6 hours. The results clearly explain that students Conclusions playing games increases body weight, brings abnormality in heart rate, blood pressure, abnormal heart rate variability markers showing decreased Autonomic Nervous System functions, abnormal visual evoke potential markers showing visual impairment, and delayed responses in MMSE showing lesser cognitive capacities leading to poor quality of life, hence this study will enlighten the knowledge of medical students (study population), and other medical students, psychiatrist, counselors counseling kids, and youths who attempted suicide due to failure in video games, and other health care workers.
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