A pose‐independent method for accurate and precise body composition from 3D optical scans

Wong, Michael; Ng, Bennett K.; Tian, Isaac Y.; Sobhiyeh, Sima; Pagano, Ian; Dechenaud, Marcelline; Kennedy, Samantha; Liu, Yong E.; Kelly, Nisa N.; Chow, Dominic C.; Garber, Andrea K.; Maskarinec, Gertraud; Pujades, Sergi; Black, Michael J.; Curless, Brian; Heymsfield, Steven B.; Shepherd, John

doi:10.1002/oby.23256

Cited by 25 publications

(33 citation statements)

References 31 publications

(35 reference statements)

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“…As a whole, the accuracy and precision were similar to previous work done by Wong et al (26). Methods to develop the statistical shape model and the body composition equations were the exact same.…”

Section: Discussionsupporting

confidence: 87%

“…Due to the power needed in each subgroup, splitting the total sample in this analysis into a representative training and test set by subgroup was not possible due to the low representations in some subgroups (i.e., underweight and NHOPI). However, the previous work showed how these methods were robust and validated strongly in its accuracy (26).…”

Section: Discussionmentioning

confidence: 99%

“…This means each vertex corresponds to a specific anatomical location across all registered meshes. All meshes were digitally reposed to a T-pose, where the person was standing straight, arms were brought horizontal and in plane with the body, and arms and legs were straightened (26, 31).…”

Section: Methodsmentioning

confidence: 99%

“…They showed that body shape descriptors by the 3DO mesh were more predictive of body composition as compared to DXA and were correlated to metabolic biomarkers (23). Since then, the methodology to obtain these body shape descriptors have improved by incorporating automated processing methods, agnostic models across multiple 3DO scanners, pose-independent models, and a 2D to 3D pipeline (24)(25)(26)(27). Although much has been accomplished in this field in a short amount of time, 3DO body composition has not been evaluated at the subgroup level.…”

Section: Introductionmentioning

confidence: 99%

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Accuracy and Precision of 3D Optical Imaging for Body Composition and their Associations to Metabolic Markers by Age, BMI, and Ethnicity

Wong

Bennett

Quon

et al. 2022

Preprint

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Background: Recent three-dimensional optical (3DO) imaging advancements have provided a more accessible, affordable, and self–operating opportunities for assessing body composition. 3DO is accurate and precise compared to clinical measures measured by dual–energy X–ray absorptiometry (DXA) in diverse study samples. However, the accuracy and precision of an overall 3DO body composition model in specific subgroups is unknown. Therefore, this study aimed to evaluate 3DOs accuracy and precision by subgroups of age, body mass index (BMI), and ethnicity/race. Methods: A cross–sectional analysis was performed using the Shape Up! Adults study. Each participant received duplicate 3DO and DXA scans. 3DO meshes were digitally registered and reposed using Meshcapade to standardize the vertices and pose. Principal component analysis was performed on the registered 3DO meshes to orthogonalize and reduce the dimensionality of the data. The resulting principal components estimated DXA whole–body and regional body composition using stepwise forward linear regression with five–fold cross–validation. Duplicate 3DO and DXA scans were used for test–retest precision. Student t–test was performed between 3DO and DXA by subgroup to determine significant differences. One–way ANOVA determined if intra–group precision had significant differences. P–value < 0.05 was considered statistically significant. Results: Six hundred thirty–four participants (females = 346) had completed the study at the time of the analysis. 3DO total fat mass (FM) and fat–free mass (FFM) in the entire sample achieved R2s of 0.94 and 0.92 with RMSEs of 2.91 kg and 2.76 kg, respectively, in females and similarly in males. 3DO total FM and FFM achieved a %CV (RMSE) of 1.76% (0.44 kg) and 1.97% (0.44 kg), while DXA had a %CV (RMSE) of 0.98% (0.24 kg) and 0.59% (0.27 kg), respectively, in females and similarly in males. There were no mean differences by age group (p–value > 0.068). However, there were mean differences for underweight females, NHOPI females and males, and Asian and black females (p–value < 0.038). There were no significant differences among the subgroups for precision (p–value > 0.109). Conclusion: A single 3DO body composition model derived from a highly–stratified dataset performed well against DXA with minimal differences detected for accuracy and precision. Adjustments to specific subgroups may be warranted to improve the accuracy in those that had significant differences. Nevertheless, 3DO produced accurate and precise body composition estimates that can be used on diverse populations.

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Section: Discussionsupporting

confidence: 87%

Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Accuracy and Precision of 3D Optical Imaging for Body Composition and their Associations to Metabolic Markers by Age, BMI, and Ethnicity

Wong

Bennett

Quon

et al. 2022

Preprint

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“…Each participant received whole-body 3DO and DXA scans on a Fit3D Proscanner (Fit3D Inc., San Mateo, CA, USA) and Hologic Horizon/A or Discovery/A system (Hologic Inc., Marlborough, MA, USA), respectively. 3DO scans were templated with a 110,000-vertex mesh for standardization and reposed through Meshcapade (Meshcapade GmbH, Tubingen, Germany) [6]. Principal component (PC) analysis was performed on the 3DO scans to reduce the dimensionality of the data to explain 95% of the shape variance with three PCs.…”

Section: Methodsmentioning

confidence: 99%

3D Optical Body Composition Accuracy across Subgroups of BMI and Race/Ethnicity

Wong¹,

Liu²,

Kennedy³

et al. 2021

Proceedings of 3DBODY.TECH 2021 - 12th International Conference and Exhibition on 3D Body Scanning and Processing Technologies,

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Modification and refinement of three‐dimensional reconstruction to estimate body volume from a simulated single‐camera image

Chiu

Dunn

Heller

et al. 2022

Obesity Science & Practice

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Objective: Body volumes (BV) are used for calculating body composition to perform obesity assessments. Conventional BV estimation techniques, such as underwater weighing, can be difficult to apply. Advanced machine learning techniques enable multiple obesity-related body measurements to be obtained using a single-camera image; however, the accuracy of BV calculated using these techniques is unknown. This study aims to adapt and evaluate a machine learning technique, synthetic training for real accurate pose and shape (STRAPS), to estimate BV. Methods:The machine learning technique, STRAPS, was applied to generate threedimensional (3D) models from simulated two-dimensional (2D) images; these 3D models were then scaled with body stature and BV were estimated using regression models corrected for body mass. A commercial 3D scan dataset with a wide range of participants (n = 4318) was used to compare reference and estimated BV data. Results:The developed methods estimated BV with small relative standard errors of estimation (<7%) although performance varied when applied to different groups.The BV estimated for people with body mass index (BMI) < 30 kg/m 2 (1.9% for males and 1.8% for females) were more accurate than for people with BMI ≥ 30 kg/m 2 (6.9% for males and 2.4% for females). Conclusions:The developed method can be used for females and males with BMI < 30 kg/m 2 in BV estimation and could be used for obesity assessments at home or clinic settings.

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A pose‐independent method for accurate and precise body composition from 3D optical scans

Cited by 25 publications

References 31 publications

Accuracy and Precision of 3D Optical Imaging for Body Composition and their Associations to Metabolic Markers by Age, BMI, and Ethnicity

Accuracy and Precision of 3D Optical Imaging for Body Composition and their Associations to Metabolic Markers by Age, BMI, and Ethnicity

3D Optical Body Composition Accuracy across Subgroups of BMI and Race/Ethnicity

Modification and refinement of three‐dimensional reconstruction to estimate body volume from a simulated single‐camera image

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