Body composition assessment after pediatric liver transplant

Background Pediatric liver transplantation generally restores metabolic function; yet after transplantation, some children remain malnourished, have increased adiposity, and develop obesity. Measurement of body composition in the assessment of nutrition status could reduce adverse consequences in children. Methods Anthropometric measurements, multiple‐frequency bioelectrical impedance analysis, air displacement plethysmography, and ultrasound measurements were conducted on children recruited from the liver transplant program at the University of Minnesota Masonic Children's Hospital. A cross‐sectional study was conducted to describe the quality of weight gain in post–liver transplant children between the ages of 2 and 17 years using multiple assessment tools (air displacement plethysmography, multiple‐frequency bioelectrical impedance analysis, and ultrasound) and to determine whether multiple‐frequency bioelectrical impedance analysis and ultrasound accurately describe body composition and quality of weight gain. Results Mean percent body fat by air displacement plethysmography and multiple‐frequency bioelectrical impedance analysis was 18.4% (±3.3) and 19.0% (±3.9), respectively (P > .99). There were insufficient data to examine the relationship between summed muscle and adipose thickness measures by ultrasound and percent body fat determined by air displacement plethysmography or multiple‐frequency bioelectrical impedance analysis. Conclusion Percent body fat, fat mass, and fat‐free mass measures determined by air displacement plethysmography and multiple‐frequency bioelectrical impedance analysis were not statistically different, which suggests the stand‐on device used in this study could be a useful body composition assessment tool for the pediatric population.