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Validation of body fat assessment with a portable hand-to-hand bio-electric impedance system with air displacement plethysmography and hand-to-foot bio-electric impedance system, in a multi-ethnic population aged between 18–55 years

Published online by Cambridge University Press:  15 April 2015

N. Daskalopoulos
Affiliation:
Public Health Nutrition Research Group, Faculty of Life Sciences & Computing, London Metropolitan University, London N7 8DB
D. Bhakta
Affiliation:
Public Health Nutrition Research Group, Faculty of Life Sciences & Computing, London Metropolitan University, London N7 8DB
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Abstract

Type
Abstract
Copyright
Copyright © The Authors 2015 

Body fat is strongly associated with the risk of several chronic diseases such as hypertension, dyslipidemia, Type 2 diabetes and coronary heart disease(Reference Dehghan and Merchant1). The portable hand-to-hand bio-electric impedance system (HH BIS, Lloyds Pharmacy Hand Held Body Fat Monitor) is a simple, quick, non-invasive and cost-effective method for assessing body composition. We conducted a validation study to evaluate its usefulness in large epidemiological studies by comparing the portable hand-held system with hand-to-foot bioelectric impedance system (HF BIS, Tanita® MC-980, Multi Frequency Segmental Body Composition Monitor) and with the reference measure of air displacement plethysmography (ADP, BOD POD®, Body Composition Tracking Monitors) in a multi-ethnic population. The priori hypothesis was that HH BIS would perform within acceptable limits of agreement (±1·96 SD) in comparison with ADP and HF BIS(Reference Ward2).

An opportunistic sample of the multi-ethnic healthy student population aged between 18–55 years from London Metropolitan University (n 100) were recruited and the mean of two measurements were recorded for each of the three methods. All measurements were conducted by the same individual following a standardised protocol. The mean per cent body fat using the HH BIS (22·4% 5·9 SD) was similar with ADP (22·7% 8·4 SD) but higher than measurements obtained with the HF BIS (19·4% 7·5 SD). Spearman correlations between HH BIS and ADP showed significant association (r 0·78 P < 0·001) as with HF BIS (r 0·80 P < 0·001) although greater association was observed between HF BIS and ADP (r 0·86 P < 0·001). The limits of agreement for HH BIS and ADP (Fig.1) and HF BIS (Fig. 2) were within acceptable limits and comparable to HF BIS and ADP (Fig. 3) for the whole population.

Fig. 1. Hand-to-hand BIS and ADP

Fig. 2. Hand-to-hand BIS and Hand-to-foot BIS

Fig. 3. Head-to-foot BIS and ADP

Significant correlations were observed between the HH BIS and ADP when participants were grouped by gender; male (n 73) and female (n 27) participants (r 0·64 P < 0·001, r 0·86 P < 0·001, respectively) and level of adiposity; healthy BMI 18-24·9 (n 49) and BMI > 24·9 (n 51) (r 0·70 P < 0·001, r 0·77 P < 0·001, respectively). However, correlations obtained between the two methods when participants were grouped by ethnicity (White n 60, Black n 27, Asian n 13) were less comparable (r 0·86 P < 0·001, r 0·68 P < 0·001, r 0·29 NS, respectively).

We observed acceptable agreement between hand-to-hand BIS and air displacement plethysmography for large scale populations, but would heed caution for its use for ethnic groups.

References

1.Dehghan, M, Merchant, AT (2008) Nutr J 7, 2632.Google Scholar
2.Ward, LC (2013) E J Clin Nutr 67, S10S13.Google Scholar
Figure 0

Fig. 1. Hand-to-hand BIS and ADP

Figure 1

Fig. 2. Hand-to-hand BIS and Hand-to-foot BIS

Figure 2

Fig. 3. Head-to-foot BIS and ADP