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Prediction of total and regional body composition from 3D body shape

Prediction of total and regional body composition from 3D body shape
Prediction of total and regional body composition from 3D body shape
Accurate assessment of body composition is essential for evaluating the risk of chronic disease. 3D body shape, obtainable using smartphones, correlates strongly with body composition. We present a novel method that fits a 3D body mesh to a dual-energy X-ray absorptiometry (DXA) silhouette (emulating a single photograph) paired with anthropometric traits, and apply it to the multi-phase Fenland study comprising 12,435 adults. Using baseline data, we derive models predicting total and regional body composition metrics from these meshes. In Fenland follow-up data, all metrics were predicted with high correlations (r > 0.86). We also evaluate a smartphone app which reconstructs a 3D mesh from phone images to predict body composition metrics; this analysis also showed strong correlations (r > 0.84) for all metrics. The 3D body shape approach is a valid alternative to medical imaging that could offer accessible health parameters for monitoring the efficacy of lifestyle intervention programmes.
2398-6352
Qiao, Chexuan
63faccc0-c80d-4383-b509-9846942754b1
Rolfe, Emanuella De Lucia
658cc447-bdfc-429f-8cec-cb233a72f84d
Mak, Ethan
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Sengupta, Akash
10ce462a-c321-446a-af35-39243861a7ce
Powell, Richard
bc0bad4b-38ce-4431-9f65-6b517cfe0bd0
Watson, Laura P.E.
3d200513-de0e-4764-8d42-c2123ad4a7a4
Heymsfield, Steven B.
2710bc2e-4aa4-465e-b98e-b48d331926de
Shepherd, John A.
aa9f4359-732c-4ec2-9fa4-b4dd1e08901f
Wareham, Nicholas
faba20ce-ed03-4307-9e06-df24ae4ca00a
Brage, Soren
3705fa6b-2018-4ad6-9143-fa9240ec0fc9
Cipolla, Roberto
246fb020-8d4d-4a8c-856e-eff6e5de2acc
Qiao, Chexuan
63faccc0-c80d-4383-b509-9846942754b1
Rolfe, Emanuella De Lucia
658cc447-bdfc-429f-8cec-cb233a72f84d
Mak, Ethan
87aedbf3-4f6d-454e-bc93-e910236ac932
Sengupta, Akash
10ce462a-c321-446a-af35-39243861a7ce
Powell, Richard
bc0bad4b-38ce-4431-9f65-6b517cfe0bd0
Watson, Laura P.E.
3d200513-de0e-4764-8d42-c2123ad4a7a4
Heymsfield, Steven B.
2710bc2e-4aa4-465e-b98e-b48d331926de
Shepherd, John A.
aa9f4359-732c-4ec2-9fa4-b4dd1e08901f
Wareham, Nicholas
faba20ce-ed03-4307-9e06-df24ae4ca00a
Brage, Soren
3705fa6b-2018-4ad6-9143-fa9240ec0fc9
Cipolla, Roberto
246fb020-8d4d-4a8c-856e-eff6e5de2acc

Qiao, Chexuan, Rolfe, Emanuella De Lucia, Mak, Ethan, Sengupta, Akash, Powell, Richard, Watson, Laura P.E., Heymsfield, Steven B., Shepherd, John A., Wareham, Nicholas, Brage, Soren and Cipolla, Roberto (2024) Prediction of total and regional body composition from 3D body shape. npj Digital Medicine, 7, [298]. (doi:10.21203/rs.3.rs-4251510/v1).

Record type: Article

Abstract

Accurate assessment of body composition is essential for evaluating the risk of chronic disease. 3D body shape, obtainable using smartphones, correlates strongly with body composition. We present a novel method that fits a 3D body mesh to a dual-energy X-ray absorptiometry (DXA) silhouette (emulating a single photograph) paired with anthropometric traits, and apply it to the multi-phase Fenland study comprising 12,435 adults. Using baseline data, we derive models predicting total and regional body composition metrics from these meshes. In Fenland follow-up data, all metrics were predicted with high correlations (r > 0.86). We also evaluate a smartphone app which reconstructs a 3D mesh from phone images to predict body composition metrics; this analysis also showed strong correlations (r > 0.84) for all metrics. The 3D body shape approach is a valid alternative to medical imaging that could offer accessible health parameters for monitoring the efficacy of lifestyle intervention programmes.

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Accepted/In Press date: 7 October 2024
Published date: 23 October 2024

Identifiers

Local EPrints ID: 505672
URI: http://eprints.soton.ac.uk/id/eprint/505672
DOI: doi:10.21203/rs.3.rs-4251510/v1
ISSN: 2398-6352
PURE UUID: 35bd66f4-5292-42cf-8c30-44fdb4a69390
ORCID for Emanuella De Lucia Rolfe: ORCID iD orcid.org/0000-0003-3542-2767

Catalogue record

Date deposited: 16 Oct 2025 16:35
Last modified: 17 Oct 2025 02:22

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Contributors

Author: Chexuan Qiao
Author: Emanuella De Lucia Rolfe ORCID iD
Author: Ethan Mak
Author: Akash Sengupta
Author: Richard Powell
Author: Laura P.E. Watson
Author: Steven B. Heymsfield
Author: John A. Shepherd
Author: Nicholas Wareham
Author: Soren Brage
Author: Roberto Cipolla

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