3D surface imaging of the human female torso in upright to supine positions

Gregory P. Reece; Fatima Merchant; Johnny Andon; Hamed Khatam; K. Ravi-Chandar; June Weston; Michelle C. Fingeret; Chris Lane; Kelly Duncan; Mia K. Markey

doi:10.1016/j.medengphy.2015.01.011

3D surface imaging of the human female torso in upright to supine positions

Gregory P. Reece, Fatima Merchant, Johnny Andon, Hamed Khatam, K. Ravi-Chandar, June Weston, Michelle C. Fingeret, Chris Lane, Kelly Duncan, Mia K. Markey

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

Three-dimensional (3D) surface imaging of breasts is usually done with the patient in an upright position, which does not permit comparison of changes in breast morphology with changes in position of the torso. In theory, these limitations may be eliminated if the 3D camera system could remain fixed relative to the woman's torso as she is tilted from 0 to 90°. We mounted a 3dMDtorso imaging system onto a bariatric tilt table to image breasts at different tilt angles. The images were validated using a rigid plastic mannequin and the metrics compared to breast metrics obtained from five subjects with diverse morphology. The differences between distances between the same fiducial marks differed between the supine and upright positions by less than 1% for the mannequin, whereas the differences for distances between the same fiducial marks on the breasts of the five subjects differed significantly and could be correlated with body mass index and brassiere cup size for each position change. We show that a tilt table-3D imaging system can be used to determine quantitative changes in the morphology of ptotic breasts when the subject is tilted to various angles.

Original language	English (US)
Pages (from-to)	375-383
Number of pages	9
Journal	Medical Engineering and Physics
Volume	37
Issue number	4
DOIs	https://doi.org/10.1016/j.medengphy.2015.01.011
State	Published - Apr 1 2015

Keywords

3-dimensional imaging
Angular surface scan
Multi-angle imaging
Orientation-specific 3D imaging
Supine surface scan
Tilt table
Upright surface scan

ASJC Scopus subject areas

Biophysics
Biomedical Engineering

MD Anderson CCSG core facilities

Clinical Trials Office

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10.1016/j.medengphy.2015.01.011

Cite this

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title = "3D surface imaging of the human female torso in upright to supine positions",

abstract = "Three-dimensional (3D) surface imaging of breasts is usually done with the patient in an upright position, which does not permit comparison of changes in breast morphology with changes in position of the torso. In theory, these limitations may be eliminated if the 3D camera system could remain fixed relative to the woman's torso as she is tilted from 0 to 90°. We mounted a 3dMDtorso imaging system onto a bariatric tilt table to image breasts at different tilt angles. The images were validated using a rigid plastic mannequin and the metrics compared to breast metrics obtained from five subjects with diverse morphology. The differences between distances between the same fiducial marks differed between the supine and upright positions by less than 1% for the mannequin, whereas the differences for distances between the same fiducial marks on the breasts of the five subjects differed significantly and could be correlated with body mass index and brassiere cup size for each position change. We show that a tilt table-3D imaging system can be used to determine quantitative changes in the morphology of ptotic breasts when the subject is tilted to various angles.",

keywords = "3-dimensional imaging, Angular surface scan, Multi-angle imaging, Orientation-specific 3D imaging, Supine surface scan, Tilt table, Upright surface scan",

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doi = "10.1016/j.medengphy.2015.01.011",

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AU - Reece, Gregory P.

AU - Merchant, Fatima

AU - Andon, Johnny

AU - Khatam, Hamed

AU - Ravi-Chandar, K.

AU - Weston, June

AU - Fingeret, Michelle C.

AU - Lane, Chris

AU - Duncan, Kelly

AU - Markey, Mia K.

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N2 - Three-dimensional (3D) surface imaging of breasts is usually done with the patient in an upright position, which does not permit comparison of changes in breast morphology with changes in position of the torso. In theory, these limitations may be eliminated if the 3D camera system could remain fixed relative to the woman's torso as she is tilted from 0 to 90°. We mounted a 3dMDtorso imaging system onto a bariatric tilt table to image breasts at different tilt angles. The images were validated using a rigid plastic mannequin and the metrics compared to breast metrics obtained from five subjects with diverse morphology. The differences between distances between the same fiducial marks differed between the supine and upright positions by less than 1% for the mannequin, whereas the differences for distances between the same fiducial marks on the breasts of the five subjects differed significantly and could be correlated with body mass index and brassiere cup size for each position change. We show that a tilt table-3D imaging system can be used to determine quantitative changes in the morphology of ptotic breasts when the subject is tilted to various angles.

AB - Three-dimensional (3D) surface imaging of breasts is usually done with the patient in an upright position, which does not permit comparison of changes in breast morphology with changes in position of the torso. In theory, these limitations may be eliminated if the 3D camera system could remain fixed relative to the woman's torso as she is tilted from 0 to 90°. We mounted a 3dMDtorso imaging system onto a bariatric tilt table to image breasts at different tilt angles. The images were validated using a rigid plastic mannequin and the metrics compared to breast metrics obtained from five subjects with diverse morphology. The differences between distances between the same fiducial marks differed between the supine and upright positions by less than 1% for the mannequin, whereas the differences for distances between the same fiducial marks on the breasts of the five subjects differed significantly and could be correlated with body mass index and brassiere cup size for each position change. We show that a tilt table-3D imaging system can be used to determine quantitative changes in the morphology of ptotic breasts when the subject is tilted to various angles.

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KW - Upright surface scan

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3D surface imaging of the human female torso in upright to supine positions

Abstract

Keywords

ASJC Scopus subject areas

MD Anderson CCSG core facilities

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