New Aspects of Breast Volume Measurement Using 3-Dimensional Surface Imaging

Kovâcs, László; Eder, Maximilian; Hollweck, Regina; Zimmermann, Alexander; Settles, Markus; Schneider, Armin; Udosic, K.; Schwenzer-Zimmerer, K.; Papadopulos, Nikolaos Α.; Biemer, E.

doi:10.1097/01.sap.0000235455.21775.6a

Cited by 126 publications

(102 citation statements)

References 18 publications

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“…Edsander-Nord in their study concluded that using thermoplastic cast seems to be sufficiently accurate to measure breast volume [6] . Kovacs et al in 2007 calculated breast volume using MRI showed the best agreement with 3D scanning measurement (r=0.990), followed by anthropomorphic measurement (r=0.947) and thermoplastic castings (r=0.727) [7] . Grossman and…”

Section: Discussionmentioning

confidence: 99%

Breast Volume estimation by Anthropometry

Karwasra¹

2018

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Section: Discussionmentioning

confidence: 99%

Breast Volume estimation by Anthropometry

Karwasra¹

2018

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“…By applying a standardized 3-D scanning protocol, the influence of human artefacts can be compensated and reduced [13][14][15][23][24][25][26]. 3-D imaging of the breast region for example can be obtained in a standing position on predefined markers on the ground, patients back-supported by a wall, patients holding their breath during acquisition and arms down the side crossed behind at the height of the pelvis [3,15,23,25]. In addition, Patete et al presented a methodology for active compensation of breathing motion and involuntary movements to obtain a reliable and artefact-free patient's body surface during the 3-D acquisition [27].…”

Section: Discussionmentioning

confidence: 99%

“…In the last few years, different three-dimensional (3-D) optical scanning systems have been applied in medicine to improve preoperative planning and surgical outcome research, most widely used in plastic and reconstructive surgery [1][2][3][4] and cranio-maxillo-facial surgery [5][6][7].…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Precision and Accuracy Assessment of Different 3-D Surface Imaging Systems for Biomedical Purposes

et al. 2012

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Three-dimensional (3-D) surface imaging has gained clinical acceptance, especially in the field of craniomaxillo-facial and plastic, reconstructive, and aesthetic surgery. Six scanners based on different scanning principles (Minolta Vivid 910®, Polhemus FastSCAN™, GFM PRIMOS®, GFM TopoCAM®, Steinbichler Comet® Vario Zoom 250, 3dMD DSP 400®) were used to measure five sheep skulls of different sizes. In three areas with varying anatomical complexity (areas, 10high; 20moderate; 30 low), 56 distances between 20 landmarks are defined on each skull. Manual measurement (MM), coordinate machine measurements (CMM) and computer tomography (CT) measurements were used to define a reference method for further precision and accuracy evaluation of different 3-D scanning systems. MM showed high correlation to CMM and CT measurements (both r00.987; p<0.001) and served as the reference method. TopoCAM®, Comet® and Vivid 910® showed highest measurement precision over all areas of complexity; Vivid 910®, the Comet® and the DSP 400® demonstrated highest accuracy over all areas with Vivid 910® being most accurate in areas 1 and 3, and the DSP 400® most accurate in area 2. In accordance to the measured distance length, most 3-D devices present higher measurement precision and accuracy for large distances and lower degrees of precision and accuracy for short distances. In general, higher degrees of complexity are associated with lower 3-D assessment accuracy, suggesting that for optimal results, different types of scanners should be applied to specific clinical applications and medical problems according to their special construction designs and characteristics.

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“…This analysis could be either a twodimensional e.g. using photographs or three-dimensional analysis [18,19] and lead to better understanding of role of preoperative and postoperative cleavage morphology in patient satisfaction.…”

Section: "Craniocaudal" or "Bird's Eye" Viewmentioning

confidence: 99%