A COMPARISON OF BODY COMPOSITION ESTIMATES BETWEEN THE NORLAND DXA, THE IDXA, AND THE BODPOD® IN OVERWEIGHT TO OBESE ADULTS

Mason, Jalyn

01 January 2019

Background: Body composition measures include fat mass (FM), fat free mass (FFM), and percent body fat (%BF), which are markers of health status and disease risk. Accurate body composition assessment is needed to evaluate an individual’s health and the efficacy of treatment strategies. Objective: Compare body composition estimates obtained from the Norland DXA, BodPod®, and iDXA before and after a 12-week exercise intervention. Subjects/setting: Overweight to obese (BMI 25–35 kg/m2) sedentary men and women (n=30) aged 18 to 40 years were recruited from central KY. Main outcome measure: Agreement in FM, FFM, and %BF between Norland DXA, iDXA, and BodPod®. Statistical analysis: Bland Altman plots evaluated mean bias and limits of agreement between iDXA vs Norland DXA, BodPod® vs Norland, and BodPod® vs iDXA. T-tests determined if each mean bias was different from zero. Results: Compared to the iDXA, Norland DXA overestimated BF% and FM at baseline and post intervention (P < 0.01), without differences in FFM (P > 0.05). The BodPod® underestimated BF% and FM and overestimated FFM compared to both DXA machines(all P < 0.01). Conclusion: The Norland and iDXA produce different measures of FM but similar measures of FFM. As well, the BodPod® measures FM and FFM differently than either DXA machine.

DXA

body composition

BodPod®

Norland

iDXA

Dietetics and Clinical Nutrition

Effects of high-altitude trekking on body composition

Frisk, Ulrika

January 2014

Sojourns at high altitude are often accompanied by weight loss and changes in body composition. The aim was to study body composition before and after 40 days high-altitude exposure. The subjects were four women and six men, non-smoking, healthy and active students and a scientist from Mid Sweden University in Östersund with a mean (SD) age of 26 (10) years. All subjects volunteered for a six-week trek to the Mount Everest Base Camp via Rolwaling in Nepal. Before the sojourn subject’s height was 177 (10) cm and weight was 71.9 (10) kg. Body composition was measured with Lunar iDXA at the Swedish Winter Sports Research Centre in Östersund before and after the trek. Total body mass (SD) decreased from 71.8 (10.0) kg before to 69.7 (9.4) kg after the trek (P=0.00). Total fat mass decreased from 14.7 (5.9) kg to 13.8 (4.6) kg (P=0.01). Fat percent decreased from 21.6 (7.9) % to 21.0 (7.2) % (P=0.03). Total lean mass decreased from 54.0 (10.0) kg to 52.9 (9.7) kg (P=0.01). Bone mineral content was unchanged, 3.04 (0.5) kg before and 3.03 (0.5) after (P=0.13). Thus both total body mass and total lean mass had decreased after a six week trekking in Nepal.

Extreme environment

fat-free mass

hypoxia

iDXA

mountaineering

weight loss

An Observational Study of Contextual Body Image in NCAA Division 1 Female Athletes

Danckers, Emily Rose

10 August 2017

No description available.

Nutrition

Bone density as a source of error measuring body composition with the BOD POD and iDXA in female runners

Lombardi, Raymond M.

06 January 2012

No description available.

Anatomy and Physiology

Biology

Food Science

Health

Health Care

Health Education

Health Sciences

Nutrition

Physical Education

Public Health

Rehabilitation

Sports Medicine

BOD POD

GE Lunar iDXA

iDXA

DXA

body composition

body fat

body measures