International Journal of Analog Integrated Circuits

The characteristic of measurement method of bio-impedance has demonstrated to be of non-invasive nature henceforth is a significant aim for accepting this method in medical investigation. BIA is an energetic and valuable technique for determining the total configuration of the body. Investigation of Bio-impedance shows an energetic role in the valuation of well-being and nutritional value of the body. By altered united circuits dissimilar methods for extent of body composition is obtainable in this paper.

Keywords: A.C. rectification, bio-impedance, bio-impedance analysis, non-invasive measurements, I/Q demodulation

Rosendale, P. Ryan, Bartok, J. Cynthia, “Air-displacement plethysmography for the measurement of body composition in children aged 6-48 months”, Pediatric Research, vol.71, no.6, pp.299-304, 2012.

Wilson, P. Joseph, K. Mulligan, B. Fan, “Dual-energy X-ray absorptiometry-based body volume measurement for 4-compartment body composition”, A Merican Journal of Clinical Nutrition , vol.95, no. 13, pp. 25-31, 2012.

Penny WD. “Comparing Dynamic Causal Models using AIC, BIC and Free Energy”, Neuroimage, vol.59, no.6, pp.319-330, 2012.

Qin X.Y. “Nearest neighbor clustering algorithm based on AIC criterion”, Systems engineering and Electronics, vol.27, no.5, pp. 257-259, 2005.

M. Dehghan and A. T. Merchant, “Is bioelectrical impedance accurate for use in large epidemiological studies”, Nutrition Journal, vol.7, no.26, pp.1-7, 2008.

B. Chen and X. Zhang, “Research and design of impedance measuring instrument based on the method of multi-frequency and multi-segment”, In Proceeding(s) of the 2009 2nd International Conference on Biomedical Engineering and Informatics, pp.1201-1204, 2009.

M. Nagai and H. Komiya, “Estimating visceral fat area by multi-frequency bioelectrical impedance. Emerging Treatments and Technologies, vol.33, no.5, pp.1077-1079, 2010.

X. Gao and J. Tang, “Bioelectrical impedance measuring method based on principle of multi-frequency and multi-segment”, In Proceeding(s) of International Conference on Advances in Engineering, pp.459-463, 2011.

S. Zhao and H. Sha, “A new trunk subdivision model for segmental bioelectrical impedance analysis”, Proc. of World Congress on Medical Physics and Biomedical Engineering, Munich, Germany, pp.1151-1154, 2009.

M. Jaffrin and H. Morel, “Body composition measurements in limbs using eight-electrode bioimpedance”, In Proceeding(s) of the 13th International Conference on Electrical Bioimpedance/8th Conference on Electrical Impedance Tomography, pp.771-774, 2007.

H. C. Lukaski, W. W. Bolonchuk and C. B. Hall, “Validation of tetrapolar bioelectrical impedance method to assess human-body composition, Journal of Applied Physiology”, vol.60, no.4, pp.1327-1332, 1986.

L. W. Organ, G. B. Bradham and D.T. Gore, “Segmental bioelectrical impedance analysis theory and application of a new technique”, Journal of Applied Physiology, vol.77, no.1, pp.98-112, 1994.

Benton, J. Melissa, Swan, D. Pamela. “Comparison of Body Composition Measurement with Whole Body Multifrequency Bioelectrical Impedance and Air Displacement Plethysmography in Healthy Middle-Aged Women”, Health Care for Women International vol.32, no.12, pp.1068-1078, 2011.

S. Shaikh and K. J. Schulze, “Bioelectrical impedance among Rural Bangladeshi Women during pregnancy and in the postpartum period”, Health Populnutr, vol.29, no.3, pp.236-244, 2011.

P. Clarys and P. Deriemaeker, “The influence of stratum corneum hydration on body fat determination by bioelectrical impedance analysis”, Skin Research and Technology, vol.18, no.1, pp.55-60, 2012