Prediction of fat-free mass and percentage of body fat in neonates using bioelectrical impedance analysis and anthropometric measures: validation against the PEA POD

Lingwood, Barbara E.; Leeuwen, Anne-Martine Storm van; Carberry, Angela E.; Fitzgerald, Erin; Callaway, Leonie K.; Colditz, Paul B.; Ward, Leigh C.

doi:10.1017/s0007114511004624

Cited by 77 publications

(146 citation statements)

References 29 publications

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“…Age-and gender-specific densities of fat-free mass were computed based on the data of Fomon et al (35). For neonates up to 6-d-old, this fat-free mass density calculation allows for the greater hydration of fat-free mass in the first week of life (21). FM and fat-free mass were computed from weight and BF% (13).…”

Section: Measurementsmentioning

confidence: 99%

“…ADP has been validated against the four-compartment model and biological and physical phantoms (13) and is considered the criterion method for determining BF% in neonates (14)(15)(16)(17)(18). Several studies have investigated the BF% as the indicator of neonatal nutritional status using ADP (13,(19)(20)(21). However, the neonatal morbidity associated with BF% at birth has not yet been described.…”

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confidence: 99%

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Is body fat percentage a better measure of undernutrition in newborns than birth weight percentiles?

et al. 2013

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Background: Undernutrition in neonates increases the risk of serious morbidities. The objective of this study was to describe neonatal morbidity associated with low body fat percentage (BF%) and measure the number of undernourished neonates defined by BF% and compare this with birth weight percentiles (<10th). Methods: Eligibility included term (≥37 wk) neonates. BF% measurements were undertaken by air displacement plethysmography. Data on neonatal outcomes were extracted from medical records and used to develop a measure of neonatal morbidity. We assessed the association between neonatal morbidity and population-based birth weight percentiles compared with the BF% measurements. results: Five hundred and eighty-one neonates were included. Low BF% was defined by 1 SD below the mean and identified in 73 per 1,000 live births. Neonatal morbidity was found in 3.4% of neonates. Birth weight percentile was associated with neonatal morbidity (odds ratio (OR): 1.03 (95% confidence interval (CI): 1.01, 1.05); P = <0.001). BF% was associated with a higher risk of neonatal morbidity (OR: 1.30 (95% CI: 1.15, 1.47); P = <0.001). conclusion: In this population, measuring BF% is more closely associated with identification of neonates at risk of neonatal morbidity as compared with birth weight percentiles. BF% measurements could assist with identifying neonates who are appropriately grown yet undernourished and exclude small neonates not at risk.

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Section: Measurementsmentioning

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Is body fat percentage a better measure of undernutrition in newborns than birth weight percentiles?

et al. 2013

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“…The measured impedance, corrected for the reactive component, known as electrical resistance is inversely and quantitatively related to the volume of conductive compartment which can be used to calculate total body water (TBW) and estimate fat-free mass (FFM) and fat mass (FM) (2). BIS provides reliable estimates of TBW in adults and equations have been developed for children and infants (3,4). While in very young infants (<5 mo) BIS is associated with poorer predictive performance that could be due to the higher conductivity of the infant's adipose tissue with its increased vascularization and water content, and rapidly changing hydration status caused by feeding patterns (4-6), small bias indicates that BIS is suitable for comparison between groups and for longitudinal studies (4).…”

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confidence: 99%

“…BIS provides reliable estimates of TBW in adults and equations have been developed for children and infants (3,4). While in very young infants (<5 mo) BIS is associated with poorer predictive performance that could be due to the higher conductivity of the infant's adipose tissue with its increased vascularization and water content, and rapidly changing hydration status caused by feeding patterns (4-6), small bias indicates that BIS is suitable for comparison between groups and for longitudinal studies (4). Ultrasound (US) presents an alternative noninvasive and inexpensive technique to study infant BC.…”

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Determinants of body composition in breastfed infants using bioimpedance spectroscopy and ultrasound skinfolds—methods comparison

et al. 2016

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Background: Accurate, noninvasive, and inexpensive methods are required to measure infant body composition. Ultrasound (US) and bioimpedance spectroscopy (BIS) have been validated in adults and introduced in pediatric populations. The aim of this study was to evaluate the performance of both methods in determining percentage fat mass (%FM) in breastfed infants. Methods: %FM of 2, 5, 9, and 12 mo-old healthy, breastfed term infants (n = 58) was calculated using BIS-derived total body water equations and skinfold equations then compared with reference models. Skinfolds were measured with US at two and four sites (biceps, suprailiac and/or triceps, and subscapular). results: %FM differed widely within and between methods, with the degree of variation affected by infant age/sex. Not a single method/equation was consistent with the distributions of appropriate reference values for all age/sex groups. Moderate number of matches with references values (13-24 out of 36) was seen for both types of equations. High number of matches (25-36) was seen for US skinfold-based equations. %FM values calculated from US and BIS were not significantly different (P = 0.35). conclusion: Both BIS and US are practical for predicting %FM in infants. BIS calculations are highly dependent upon an appropriate set of validated age-matched equations. Body composition (BC) in early life plays an important role in the programming of long-term health outcomes including obesity, type II diabetes, and cardiovascular disease (1). The majority of large studies reporting an association of infant development with disease later in life use anthropometric measurements or BMI to monitor growth that provide limited indices of adiposity as they fail to reflect body shape, fat distribution, and density.The number of techniques available to assess infant BC is increasing. These measures have better accuracy than anthropometric measurements, but may be either time consuming, expensive, and invasive, expose infants to low levels of radiation (dual-energy X-ray absorptiometry and computed tomography), require the infant to be restrained (magnetic resonance imaging) or have weight restriction (air displacement plethysmography).Bioelectrical impedance spectroscopy (BIS) is noninvasive and often used to estimate BC due to its ease of application and low cost. BIS measures the electrical impedance, or opposition to flow through the body tissues of a small harmless electric current. The measured impedance, corrected for the reactive component, known as electrical resistance is inversely and quantitatively related to the volume of conductive compartment which can be used to calculate total body water (TBW) and estimate fat-free mass (FFM) and fat mass (FM) (2). BIS provides reliable estimates of TBW in adults and equations have been developed for children and infants (3,4). While in very young infants (<5 mo) BIS is associated with poorer predictive performance that could be due to the higher conductivity of the infant's adipose tissue with its increased vascularizat...

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“…BIA's are currently in used in a wide range of settings (ACSM, 2010) as well as across a spectrum of ages (Lingwood et al, 2012;Patil, Patkar, Mandlik, Kuswarkar, & Jindal, 2010), weight classifications (Mattar et al, 2011), body types (Ejike & Ijeh, 2012), and disease status (Kahraman et al, 2010) due to its non-invasive nature, simplistic operation and being readily available.…”

Section: Bioelectrical Impedancementioning

confidence: 99%

Effects of Acute and 2-Hour Postphysical Activity on the Estimation of Body Fat Made by the Bod Pod

Harrop

Woodruff

2015

Journal of Strength and Conditioning Research

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Prediction of fat-free mass and percentage of body fat in neonates using bioelectrical impedance analysis and anthropometric measures: validation against the PEA POD

Cited by 77 publications

References 29 publications

Is body fat percentage a better measure of undernutrition in newborns than birth weight percentiles?

Is body fat percentage a better measure of undernutrition in newborns than birth weight percentiles?

Determinants of body composition in breastfed infants using bioimpedance spectroscopy and ultrasound skinfolds—methods comparison

Effects of Acute and 2-Hour Postphysical Activity on the Estimation of Body Fat Made by the Bod Pod

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