Difference between revisions of "Mondal 2017 J Clin Diagn Res"

Latest revision as of 12:11, 11 December 2019

Mondal H, Mishra SP (2017) Effect of BMI, body fat percentage and fat free mass on maximal oxygen consumption in healthy young adults. J Clin Diagn Res 11:CC17-20.

» PMID: 28764152 Open Access

Mondal H, Mishra SP (2017) J Clin Diagn Res

Abstract: INTRODUCTION: Maximal oxygen consumption (V_O2max) is an important measure of cardiorespiratory capacity of an individual at a given degree of fitness and oxygen availability. Risk of cardiovascular diseases increases with increasing degree of obesity and a low level of V_O2max has been established as an independent risk factor for cardiovascular mortality.

AIM: To determine V_O2max in young adults and to find its correlation with Body Mass Index (BMI), Body Fat% and Fat Free Mass (FFM).

MATERIALS AND METHODS: Fifty four (male=30, female=24) healthy young adults of age group 18-25 years after screening by Physical Activity Readiness Questionnaire (PAR-Q) participated in the study. Height was measured by stadiometer. Weight was measured by digital weighing scale with 0.1 kg sensitivity. Body fat% was measured by Bioelectrical Impedance Analysis (BIA) method. FFM was calculated by subtracting fat mass from the body weight. V_O2max [mL.min^-1.kg^-1] was obtained by Submaximal Exercise Test (SET) by first two stages of Bruce Protocol with the basis of linear relationship between Heart Rate (HR) and oxygen consumption (V_O2). Data were analysed statistically in GraphPad Prism software version 6.01 for windows.

RESULTS: V_O2max [mL.min^-1.kg^-1] of male (43.25±7.25) was significantly (p<0.001) higher than female (31.65±2.10). BMI showed weak negative correlation (r= -0.3232, p=0.0171) with V_O2max but Body Fat% showed strong negative correlation (r= -0.7505, p<0.001) with V_O2max. FFM positively correlated (r=0.3727, p=0.0055) with V_O2max.

CONCLUSION: Increased body fat is associated with decreased level of V_O2max in young adults. Obesity in terms of Fat% is a better parameter than BMI for prediction of low V_O2max.

• Bioblast editor: Gnaiger E

Labels: MiParea: Respiration, Exercise physiology;nutrition;life style Pathology: Obesity

Organism: Human

Preparation: Intact organism

BMI, VO2max

@@ Line 5: / Line 5: @@
 |year=2017
 |journal=J Clin Diagn Res
-|abstract=INTRODUCTION:
+|abstract=INTRODUCTION: Maximal oxygen consumption (''V''<sub>O2max</sub>) is an important measure of cardiorespiratory capacity of an individual at a given degree of fitness and oxygen availability. Risk of cardiovascular diseases increases with increasing degree of obesity and a low level of ''V''<sub>O2max</sub> has been established as an independent risk factor for cardiovascular mortality.
-Maximal oxygen consumption (VO2max) is an important measure of cardiorespiratory capacity of an individual at a given degree of fitness and oxygen availability. Risk of cardiovascular diseases increases with increasing degree of obesity and a low level of VO2max has been established as an independent risk factor for cardiovascular mortality.
+AIM: To determine ''V''<sub>O2max</sub> in young adults and to find its correlation with Body Mass Index (BMI), Body Fat% and Fat Free Mass (FFM).
-AIM:
-To determine VO2max in young adults and to find its correlation with Body Mass Index (BMI), Body Fat% and Fat Free Mass (FFM).
+MATERIALS AND METHODS: Fifty four (male=30, female=24) healthy young adults of age group 18-25 years after screening by Physical Activity Readiness Questionnaire (PAR-Q) participated in the study. Height was measured by stadiometer. Weight was measured by digital weighing scale with 0.1 kg sensitivity. Body fat% was measured by Bioelectrical Impedance Analysis (BIA) method. FFM was calculated by subtracting fat mass from the body weight. ''V''<sub>O2max</sub> [mL.min<sup>-1</sup>.kg<sup>-1</sup>] was obtained by Submaximal Exercise Test (SET) by first two stages of Bruce Protocol with the basis of linear relationship between Heart Rate (HR) and oxygen consumption (''V''<sub>O2</sub>). Data were analysed statistically in GraphPad Prism software version 6.01 for windows.
-MATERIALS AND METHODS:
-Fifty four (male=30, female=24) healthy young adults of age group18-25 years after screening by Physical Activity Readiness Questionnaire (PAR-Q) participated in the study. Height was measured by stadiometer. Weight was measured by digital weighing scale with 0.1 kg sensitivity. Body fat% was measured by Bioelectrical Impedance Analysis (BIA) method. FFM was calculated by subtracting fat mass from the body weight. VO2max (mL.kg-1.min-1) was obtained by Submaximal Exercise Test (SET) by first two stages of Bruce Protocol with the basis of linear relationship between Heart Rate (HR) and oxygen consumption (VO2). Data were analysed statistically in GraphPad Prism software version 6.01 for windows.
+RESULTS: ''V''<sub>O2max</sub> [mL.min<sup>-1</sup>.kg<sup>-1</sup>] of male (43.25±7.25) was significantly (''p''<0.001) higher than female (31.65±2.10). BMI showed weak negative correlation (''r''= -0.3232, ''p''=0.0171) with ''V''<sub>O2max</sub> but Body Fat% showed strong negative correlation (''r''= -0.7505, ''p''<0.001) with ''V''<sub>O2max</sub>. FFM positively correlated (''r''=0.3727, p=0.0055) with ''V''<sub>O2max</sub>.
-RESULTS:
-VO2max (mL.kg-1.min-1) of male (43.25±7.25) was significantly (p<0.001) higher than female (31.65±2.10). BMI showed weak negative correlation (r= -0.3232, p=0.0171) with VO2max but Body Fat% showed strong negative correlation (r= -0.7505, p<0.001) with VO2max. FFM positively correlated (r=0.3727, p=0.0055) with VO2max.
+CONCLUSION: Increased body fat is associated with decreased level of ''V''<sub>O2max</sub> in young adults. Obesity in terms of Fat% is a better parameter than BMI for prediction of low ''V''<sub>O2max</sub>.
-CONCLUSION:
-Increased body fat is associated with decreased level of VO2max in young adults. Obesity in terms of Fat% is a better parameter than BMI for prediction of low VO2max.
 |editor=[[Gnaiger E]],
 }}