- ICH GCP
- US Clinical Trials Registry
- Clinical Trial NCT03790462
Select Indian Ragas on Electrophysiological Parameters (RAGA-2)
Evaluation of the Effect of Select Indian Ragas on Electrophysiological Parameters and Salivary Stress Markers - a Randomized Control Trial
Study Overview
Status
Conditions
Intervention / Treatment
Detailed Description
INDIAN MUSIC: 'Raga' (musical scale) is a set of musical notes presented in an orderly manner in order to generate a melody out of the same. Matanga (9-10th century AD) in his work 'Brihaddeshi' was the earliest to define raga as "raga is that kind of sound composition consisting of melodic movements which has the effect of colouring the hearts of men". However, there have been very few studies which have used Indian classical music as an intervention for studying their health benefits. Gandharvaveda, a part of Sama veda, has mentioned various ragas to have myriad health benefits.Dr. Burnell has mentioned a manuscript named raga chikistsa in the collections of Saraswati Mahal Library in Tanjore which deals with the various ragas that can be used for curing various ailments. For example raga Malkauns is said to help in curing hypotension. Insomnic patients are said to benefit by usage of raga Behag. 'Heart Rate Variability' has become the conventionally accepted term to describe beat-to-beat alteration in HR, and RR intervals in ECG. The cause of HRV is considered to be respiratory sinus arrhythmia as well as low-frequency oscillations (0.1 Hz) associated with Traube-Hering-Mayer waves of BP . It was found that a decrease in HRV was a strong predictor of mortality after acute myocardial infarction . HRV is assessed by either time or frequency domain methods. EFFECT OF MUSIC ON BLOOD PRESSURE:Many studies have shown that there is a modification of cardiorespiratory parameters on repeated rhythymic recitation of a prayer, poetry or yoga mantra . So it is not surprising that music (rhythmic repetition of notes and tones) can also have similar effects. A number of studies have reported that listening to sedative music (slow tempo, legato phrasing, and minimal dynamic contrasts) can lead to decreased HR and BP. BP was shown to be proportional to the crescendo present in music, where as music with uniform emphasis reduced the BP .
Passive listening to music on a daily basis helped in reducing BP of 12 elderly subjects. The experimental group listened to selected songs for 25 minutes every day, for four weeks. BP was measured twice a week. There was a significant decrease in the mean BP: 11.8 mmHg in the SBP and 4.7 mmHg in the DBP . Elderly subjects have shown statistically significant reduction in SBP and DBP after 12-minute audio relaxation program . STUDIES ON EFFECT OF MUSIC ON HRV: Whether music causes an increase or decrease in HR, remains a mystery . Several studies reported that under various conditions music decreases sympathetic nervous system (SNS) and increases parasympathetic nervous system (PNS) activity as measured by HR and HRV, indicating physiological relaxation . No difference in HR or HRV was observed by a few investigators . However, an increase in HR has also been reported by some . SALIVARY STRESS MARKERS: The salivary glands receive sympathetic and parasympathetic innervations. The major enzyme that is released on sympathetic stimulation is alpha (α) amylase. Thus it is presumed that, changes in salivary alpha amylase indicate the activity of the SM system during stress. Further, both salivary cortisol and alpha amylase have been used by number of researchers recently to quantify stress or as biomarkers of stress. Nevertheless, it has also been put forth that salivary amylase activity is an index of plasma norepinephrine levels under a variety of stressful conditions. STUDIES ON EFFECT OF MUSIC ON EEG: In one study where EEG was recorded after giving alpha music to about ten subjects, it was observed that increase in the maximum amplitudes of Alpha waves either after 6 minutes or after 12 minutes of alpha music. However, the maximum amplitude of beta waves showed a decline of up to 40% from the initial value. These results, namely, the increase in Alpha activity and decrease in Beta activity indicate that subjects experience 'relaxed alertness'.
Setting: Medical college and Tertiary care hospital Case group (totally 3 groups) = 35 subjects in each group; a total sample of 105 Control group = 35 subjects Basis for sample size:Based on the study conducted by Okada et al, it was found that RMSSD (root mean square standard deviation of NN intervals on ECG) was 17.4±7.2 ms and 24.1±15.5 ms before and after music therapy with an effect size of 0.59 and power of 90% and confidence interval of 95%, the minimum sample size required for the present study was estimated to be 32.
Methods and materials: The effect of at least 3 different Indian classical music ragas on the autonomic functions and brain waves of subjects will be studied. Healthy subjects will be recruited from M S Ramaiah Instituitions. Selection bias will be avoided by randomization using computer generated random numbers. All numbers generated will be kept in an opaque and sealed envelope. The envelope will be opened by the research assistant after the baseline assessment of each participant and assigned to each of the seven groups randomly, into all intervention and control categories. Each group will randomly be assigned to listen to a particular raga using block randomization. The control group, the seventh group, will not receive any raga, but HRV,BP, EEG and saliva will be recorded and collected. Literature given in Gandharva veda and raga chikitsa will be used to choose ragas which have varied health benefits especially on the cardiovascular system. The ragas which have been said to normalize the BP are ahir bhairav, bhimpalas, hindol, puriya, kausikanada and todi. Ahir Bhairav, Kausi Kanada & Bhimpalas will be used for the present study. Detailed methodology: The investigators will include a few questions inquiring the subjects' preference of type of music, previous experience with music instrumental or vocal training and note the same. A general health check up will be done for all subjects. The BMI, waist hip ratio and BP in sitting position measured twice after five minutes rest (Sphygmomanometry) in between will be noted. A stress questionnaire (State Trait Anxiety Inventory) will be administered prior to and after intervention to assess the baseline level of stress and the change in stress levels after music intervention.
Subjects will be made to lie supine and relax for ten minutes. EEG electrodes will be applied according to 10-20 system. A baseline EEG (Galileo NT) and ECG in lead II for 10 minutes (Power lab 15 T Labchart by AD instruments) will be recorded. Baseline digital measurement of BP will be done. Saliva for baseline stress markers (cortisol and amylase) will be collected. All the subjects will be instructed to breathe at a rate of 6 breaths per minute, throughout the procedure that will be monitored by the software. After this, a raga from Indian classical music will be played for 10 minutes duration via earplugs connected to the laptop, during which time the recording of ECG and EEG will continue. The time of start of music will be marked using an event marker in the software. Post ten minutes, the music will be stopped and BP will be recorded and saliva will be collected. ECG and EEG recording will continue for another ten minutes to study any residual effects of music on the heart after which BP will be recorded and saliva will be collected again (end of 30 minutes procedure). Stress questionnaire will be administered at the end of the procedure. For those in control group baseline BP, ECG and EEG will be recorded for ten minutes under resting conditions. Saliva will be collected and stored. EEG will be analyzed using Galileo NT software. HRV will be analyzed using the software provided. The saliva samples will be centrifuged at 3000 rpm for 15 minutes and supernatant saliva stored at -20° C until further analysis for cortisol and amylase (ELISA).
Study Type
Enrollment (Actual)
Phase
- Not Applicable
Contacts and Locations
Study Locations
-
-
Karnataka
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Bangalore, Karnataka, India, 560054
- M S Ramaiah Medical College and Hospitals
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Participation Criteria
Eligibility Criteria
Ages Eligible for Study
Accepts Healthy Volunteers
Genders Eligible for Study
Description
Inclusion Criteria:
- Healthy subjects
- Age group of 18-30 years
- Either gender will be included as autonomic functions change with age
- Non smokers
- Non alcoholics.
Exclusion Criteria:
- Any cardiovascular disorders,
- Renal disorders,
- Respiratory disorders,
- Endocrine disorders,
- Neurological problems
- Pregnancy,
- Body mass index (BMI)>30 kg/m2,
- Hearing problems,
- Psychiatric disorder
- Drugs which are known to affect the BP or autonomic status of the individual
- Other impairments that prevent the subject from performing few experimental procedures will be excluded.
Study Plan
How is the study designed?
Design Details
- Primary Purpose: SUPPORTIVE_CARE
- Allocation: RANDOMIZED
- Interventional Model: PARALLEL
- Masking: TRIPLE
Arms and Interventions
Participant Group / Arm |
Intervention / Treatment |
---|---|
EXPERIMENTAL: Music intervention group 1
Raga "A" will be played for 10 minutes & data collected.
|
A raga out of 3 select Indian classical ragas "Puriya/Hindol/Todi" will be played for 10 minutes & data collected.
|
EXPERIMENTAL: Music intervention group 2
Raga "B" will be played for 10 minutes & data collected.
|
A raga out of 3 select Indian classical ragas "Puriya/Hindol/Todi" will be played for 10 minutes & data collected.
|
EXPERIMENTAL: Music intervention group 3
Raga "C" will be played for 10 minutes & data collected.
|
A raga out of 3 select Indian classical ragas "Puriya/Hindol/Todi" will be played for 10 minutes & data collected.
|
NO_INTERVENTION: Control group
Subject relaxes without music for 10 minutes and electrophysiological parameters will be collected
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What is the study measuring?
Primary Outcome Measures
Outcome Measure |
Measure Description |
Time Frame |
---|---|---|
Change in Blood pressure
Time Frame: Baseline, 10 minutes after music intervention & 10 minutes post intervention
|
in mm Hg
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Baseline, 10 minutes after music intervention & 10 minutes post intervention
|
Change in Electroencephalogram amplitude
Time Frame: Baseline, 10 minutes during music intervention & 10 minutes post intervention
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Change in Electroencephalogram (EEG) waves amplitude (in mV)
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Baseline, 10 minutes during music intervention & 10 minutes post intervention
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Change in Electroencephalogram Frequency
Time Frame: Baseline, 10 minutes during music intervention & 10 minutes post intervention
|
Change in Electroencephalogram Frequency (in Hz)
|
Baseline, 10 minutes during music intervention & 10 minutes post intervention
|
Change in Stress using state trait anxiety inventory
Time Frame: Baseline, after 10 minutes of music intervention & 10 minutes post intervention
|
State trait anxiety inventory score in numbers - It comprises separate self-report scales for measuring two distinct anxiety concepts: state anxiety and trait anxiety.
The STAI-T scale consists of 20 statements that ask people to describe how they generally feel.
The STAI-S scale also consists of 20 statements.
Each question is rated on a 4-point scale (not at all, somewhat, moderately so, very much so).
The range of possible scores for form Y of the STAI varies from a minimum score of 20 to a maximum score of 80 on both the STAI-T and STAI-S subscales.
STAI scores are commonly classified as "no or low anxiety" (20-37), "moderate anxiety" (38-44), and "high anxiety" (45-80).
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Baseline, after 10 minutes of music intervention & 10 minutes post intervention
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Secondary Outcome Measures
Outcome Measure |
Measure Description |
Time Frame |
---|---|---|
Change in Heart rate variability
Time Frame: Baseline, 10 minutes during music intervention & 10 minutes post intervention
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Analyzed in lead II of Electrocardiogram - time and frequency domain
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Baseline, 10 minutes during music intervention & 10 minutes post intervention
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Change in Salivary Cortisol
Time Frame: Baseline, after 10 minutes of music intervention & 10 minutes post intervention
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Change in level of salivary cortisol will be analyzed
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Baseline, after 10 minutes of music intervention & 10 minutes post intervention
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Change in Salivary alpha amylase
Time Frame: Baseline, after 10 minutes of music intervention & 10 minutes post intervention
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Change in level of salivary alpha amylase will be analyzed
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Baseline, after 10 minutes of music intervention & 10 minutes post intervention
|
Collaborators and Investigators
Collaborators
Investigators
- Study Chair: MEDHA RAO Y, MD, M S Ramaiah Medical College and Hospitals
Study record dates
Study Major Dates
Study Start (ACTUAL)
Primary Completion (ACTUAL)
Study Completion (ACTUAL)
Study Registration Dates
First Submitted
First Submitted That Met QC Criteria
First Posted (ACTUAL)
Study Record Updates
Last Update Posted (ACTUAL)
Last Update Submitted That Met QC Criteria
Last Verified
More Information
Terms related to this study
Additional Relevant MeSH Terms
Other Study ID Numbers
- 2017-0174
Plan for Individual participant data (IPD)
Plan to Share Individual Participant Data (IPD)?
IPD Plan Description
Drug and device information, study documents
Studies a U.S. FDA-regulated drug product
Studies a U.S. FDA-regulated device product
This information was retrieved directly from the website clinicaltrials.gov without any changes. If you have any requests to change, remove or update your study details, please contact register@clinicaltrials.gov. As soon as a change is implemented on clinicaltrials.gov, this will be updated automatically on our website as well.
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