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ORIGINAL ARTICLE |
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Year : 2015 | Volume
: 21
| Issue : 3 | Page : 73-75 |
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Study of diurnal variation in peak expiratory flow rates in healthy men in South India
Jenny Jayapal MSc (Med)
Department of Physiology, MVJ Medical College & Research Hospital, Hoskote, Bangalore, Karnataka, India
Date of Submission | 22-Mar-2015 |
Date of Acceptance | 07-Mar-2015 |
Date of Web Publication | 1-Mar-2016 |
Correspondence Address: Jenny Jayapal Department of Physiology, MVJ Medical College & Research Hospital, Hoskote, Bangalore, Karnataka India
Source of Support: None, Conflict of Interest: None | Check |
DOI: 10.4103/1687-4625.177804
Background Peak expiratory flow rate (PEFR) reflects the strength and condition of respiratory muscles and the degree of airflow limitation in large airways. PEFR shows hour-to-hour variation that follows a specific pattern in asthmatics and in healthy individuals. Adequate data are not available on the diurnal variation in normal individuals who are students in professional courses and living a sedentary lifestyle. Hence, this study was undertaken to study the diurnal variation in PEFRs in healthy men in South India. Participants and methods PEFR was recorded in 50 adult healthy male students who were nonsmokers, between 18 and 23 years of age and studying in professional courses (MBBS, BDS, Nursing and MSc). Mini Wright's peak flow meter was used to measure the PEFR. PEFRs were recorded at 7-8 a.m., 10-11 a.m., 1-2 p.m., 4-5 p.m. and 7-8 p.m. for 2 consecutive days. Results On analysis of PEFR records of each individual, it was seen that there was an overall dip in the morning at 7-8 h PEFR, which increased during the daytime, peaking in the afternoon at 4-5 p.m. and eventually decreased in the night. Participants did not show the peak PEFR values at the same time point: 16% of participants had a rise in PEFR in the early morning hours; afternoon (1-2 p.m.) peak was observed in 22% of participants; and evening (4-5 p.m.) peak was observed in 36% of participants. Only 2% of participants showed a peak in the night time (7-8 p.m.) PEFR values. Conclusion This study provided the preliminary reference data of diurnal variation of PEFR in healthy adults. As there is a variation in the PEFR recorded during different time points of the day, it is advisable to record the PEFR at the same time point to compare the PEFR between individuals. Keywords: diurnal variation, peak expiratory flow rate, South Indian male
How to cite this article: Jayapal J. Study of diurnal variation in peak expiratory flow rates in healthy men in South India. Kasr Al Ainy Med J 2015;21:73-5 |
How to cite this URL: Jayapal J. Study of diurnal variation in peak expiratory flow rates in healthy men in South India. Kasr Al Ainy Med J [serial online] 2015 [cited 2024 Mar 29];21:73-5. Available from: http://www.kamj.eg.net/text.asp?2015/21/3/73/177804 |
Introduction | | |
Peak expiratory flow rate (PEFR) reflects the strength and condition of respiratory muscles and the degree of airflow limitation in large airways. PEFR shows hour-to-hour variation that follows a specific pattern in asthmatics and in healthy individuals. Adequate data are not available for the diurnal variation in normal individuals who are students in professional courses and living a sedentary lifestyle. Hence, this study was undertaken to study the diurnal variation in PEFRs in healthy men in South India.
Diurnal variation relates to the variation/fluctuation in PEFR, which occurs during the course of each day (24 h).
PEFR is one of the pulmonary function tests that provide a quantifiable measure of lung function. It is relatively a simple and easy procedure to evaluate respiratory function compared with pulmonary function testing. Peak expiratory flow is a measurement of the movement of air into and out of the lungs during various breathing manoeuvres [1] .
Lowest PFT values were seen at noon, and highest values were seen in the afternoon. Circadian changes occur in close temporal relation with body temperature, oxygen consumption and carbon dioxide production. None of these variables could fully explain the diurnal pattern of ventilation [2] . Breathing is closely regulated by metabolic rate, which is influenced by multiple factors, including activity and state of arousal, as well as hormonal and autonomic nervous system inputs. Circadian oscillations in the sympathetic activity may have an impact on the airway smooth muscles. They also suggested that scheduling elective surgical procedures or extubating patients with very limited lung function can be performed in accordance with the diurnal pulmonary clock.
Aims and objectives | | |
This study was undertaken to study the diurnal variation in PEFRs in healthy men in South India.
Participants and methods | | |
The present study was conducted in the pulmonary function laboratory of Chettinad Medical College at Chennai, India. A total of 50 apparently healthy, sedentary men, who were nonsmokers, between 18 and 23 years of age, and studying in professional courses (MBBS, BDS, Nursing, and MSc) were included in the study. Mini Wright's peak flow meter was used to measure the PEFR. PEFR were recorded at 7-8 a.m., 10-11 a.m., 1-2 p.m., 4-5 p.m. and 7-8 p.m. for 2 consecutive days. Ethical clearance was obtained from institution ethical committee.
Before starting the actual study, the participants were briefed about the protocol, and informed consent was obtained. Thorough history taking was carried out as regards suitability as per the above inclusion and exclusion criteria. Basic clinical examination was carried out to rule out any cardiopulmonary or other illness.
Precautions observed during the manoeuvre
- It was ensured that the participant was comfortable and relaxed.
- The apparatus was sterilized and cleaned properly.
- The participant was trained adequately to perform different manoeuvres.
- The participant was instructed to hold the instrument in such a way that the hand did not obstruct the movement of the pointer.
- The pointer was kept at the lower most level. Both nostrils were clipped while blowing into the equipment.
BMI
The BMI was calculated from the height and weight of the participant using the following formula:
Body surface area
Body surface area (BSA) was calculated using Dubois' formula:
Calculation of diurnal variation
Amplitude percent mean (A%M) and SD percent mean (SD% M) were calculated using the following formulae:
Statistical analysis
To analyse the diurnal variation of PEFR, the maximum out of the three recordings was taken as the final value.
The values at different time points were analysed using one-way analysis of variance. Diurnal variation was considered statistically significant with a P value of less than 0.05 (Tukey's test).
Results | | |
The anthropometric values of the participants are presented in [Table 1]: age, 18-23 years; height, 166-182 cm; weight, 50-82 kg, BMI, 18-27, and BSA, 1.5-2.0 m 2 . The actual measured values of PEFR are presented in [Table 2]. On analysis of PEFR records of each individual, it was seen that there was an overall dip in the morning at 7-8 h PEFR, which increased during the daytime, peaking in the afternoon at 4-5 p.m. and eventually decreased in the night. Participants did not show the peak PEFR values at the same time point: 16% of participants had a rise in PEFR in the early morning; afternoon (1-2 p.m.) peak was observed in 22% of participants; and evening (4-5 p.m.) peak was observed in 36% of participants. Only 2% of participants showed a peak in the night time (7-8 p.m.) PEFR values ([Table 3]). | Table 3 Percentage of participants showing peak PEFR at different time points
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Discussion | | |
In this study, diurnal variation and postural changes in healthy individuals were studied. Our results showed that PEFR values were low in the morning, followed by a progressive rise peaking in the afternoon and evening and a small fall at night time. Increase in BMI within physiological limits increases PEFR, but in obese or malnourished individuals, PEFR is likely to vary depending on possible comorbid conditions.
Highest PEFR is seen around the midpoint, as it has been suggested that the rhythm in the plasma cortisol may be the pulmonary clock, as the nadir of the cortisol rhythm would be compatible with delayed effects of corticosteroids on the airways.
There are also a few data to suggest that diurnal variation is correlated with age and is significantly higher in elderly individuals [3],[4] . Therefore, our study sample was distributed over a relatively narrow age range, within which we wanted to study any changes pertaining to diurnal variation.
Conclusion | | |
This study provided the preliminary reference data of diurnal variation of PEFR in healthy adults. As there is a variation in the PEFR recorded during different time points of the day, it is advisable to record the PEFR at the same time point to compare the PEFR between individuals.
Financial support and sponsorship
Nil.
Conflicts of interest
There are no conflicts of interest.
References | | |
1. | Crapo R. Pulmonary function testing. N Engl J Med 1994; 331: 25-29. |
2. | Medarov BI, Pavlov VA, Rossoff LA. Diurnal variation in human pulmonary function. Int J Clin Med 2008; 1: 267-273. |
3. | Boezen HM, Schouten JP, Postma DS. Distribution of peak expiratory flow variability by age, gender and smoking habits in a random population sample aged 20-70 years. Eur Respir J 1994; 7: 1814-1820. |
4. | Higgins BG, Britton JR, Chinn S, Lai KK, Burney PG, Tattersfield AE. Factors affecting peak expiratory flow variability and bronchial reactivity in a random population sample. Thorax 1993; 48: 899-905. |
[Table 1], [Table 2], [Table 3]
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