Title:Impact of vitamin D administration on cardiac autonomic tone in Asthma Chronic Obstructive Pulmonary Disease (COPD) Overlap patients: A blinded randomized control trial. Background: Respiratory disease is closely associated with cardiovascular disease. Reduced Heart Rate Variability (HRV), reflecting impaired autonomic activity have been reported in both asthma and COPD. Vitamin D deficiency is a common feature in Asthma COPD Overlap (ACO) patient. Relationship between vitamin D deficiency and low HRV has been reported. Vitamin D administration has been reported to improve cardiac autonomic modulation in healthy subjects in response to external stressor. Objective: To assess the changes in cardiac autonomic tone after vitamin D administration for 90 days in vitamin D deficient ACO patients. Hypothesis:Null: Vitamin D administration does not have impact on cardiac autonomic tone in vitamin D3 deficient ACO patient. .Method: This randomized controlled trial will be conducted by Department of Physiology, Bangabandhu Sheikh Mujib Medical University (BSMMU), Shahbag, Dhaka from September' 2017 to August' 2018. For this study, a total number of 60 subjects (age \> 40 years, both male and female) will be randomly selected. 30 diagnosed vitamin D deficient Asthma COPD Overlap (ACO) patients will form group A and another 30 diagnosed vitamin D3 deficient ACO patients with similar age, sex, (Body Mass Index) BMI will constitute control group B. Patients of study group B0 will take vitamin D3 with a prescribed schedule for 3 months and followed up after 3 months (group B90). On the other hand patients of group A1 will be given placebo and followed up after 3 months (group A90). All these patients will continue their medication prescribed by physician during these 3 months. On the basis of data recording - group B1 and group B90 will constitute pre and post vitamin D group whereas group A0 and group A90 will represent pre and post placebo follow up at day 0 and day 90. Cardiac autonomic nerve function will be assessed by recording ECG \& Heart Rate Variability (HRV) analysis by a data acquisition device, powerlab 8/35, AD instruments, Australia. HRV measures of all patients will be recorded at baseline.Then after 3 months of follow up it will be recorded in both groups at day 90. Serum 25(OH)D level will be measured of all subject at day 0 and day 90. For statistical analysis unpaired and paired "t" test will be done by using Microsoft Office Excel Word version 2016
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vitamin D concentration
Timeframe: Change from Baseline Serum vitamin D level at 90 days
Mean R-R interval in milliseconds
Timeframe: Change from Baseline Mean R-R interval at 90 days
Mean Heart Rate in beats/min
Timeframe: Change from Baseline Mean Heart Rate at 90 days
Standard deviation of RR interval (SDRR) in milliseconds
Timeframe: Change from Baseline Standard deviation of RR interval (SDRR) at 90 days
Coefficient of variation of all the R-R interval (CVRR)
Timeframe: Change from Baseline Coefficient of variation of all the R-R interval (CVRR) at 90 days
Square root of the mean squared differences of successive RR interval (RMSSD) in milliseconds
Timeframe: Change from Baseline Square root of the mean squared differences of successive RR interval (RMSSD) at 90 days
Standard deviation of successive RR interval differences between adjacent RR intervals (SDSD) in milliseconds
Timeframe: Change from Baseline Standard deviation of successive RR interval differences between adjacent RR intervals (SDSD) at 90 dayss
Number of RR interval differing by >50 milliseconds from adjacent intervals divided by the total number of all RR intervals (pRR50%) in %
Timeframe: Change from Baseline Number of RR interval differing by >50 milliseconds from adjacent intervals divided by the total number of all RR intervals (pRR50%) at 90 days
Total power (absolute) in frequency domain parameters of heart rate variability
Timeframe: Change from Baseline Total power (absolute) in frequency domain parameters of heart rate variability at 90 months
Low Frequency (LF) power (absolute) in frequency domain parameters of heart rate variability
Timeframe: Change from Baseline Low Frequency (LF) power (absolute) in frequency domain parameters of heart rate variability at 90 days
High Frequency (HF) power (absolute) in frequency domain parameters of heart rate variability
Timeframe: Change from Baseline High Frequency (HF) power (absolute) in frequency domain parameters of heart rate variability at 90days
Low Frequency (LF) power in normalised units (n.u) in frequency domain parameters of heart rate variability
Timeframe: Change from Baseline Low Frequency (LF) power in normalised units (n.u) in frequency domain parameters of heart rate variability at 90 days
High Frequency (HF) power in normalised units (n.u) in frequency domain parameters of heart rate variability
Timeframe: Change from Baseline High Frequency (HF) power in normalised units (n.u) in frequency domain parameters of heart rate variability at 90 days
Ratio of Low frequency to High Frequency (HF) power in frequency domain parameters of heart rate variability
Timeframe: Change from Baseline Ratio of Low frequency to High Frequency (HF) power in frequency domain parameters of heart rate variability at 90 days