Scanning Technologies Adoption for Transtibial Residual Limb Shape Characterization

In prosthetics, 3D scanning technology plays a crucial role in gathering data for designing prosthetic devices. New tools for capturing the external shape of human body parts are rapidly emerging. This study conducted a comparative analysis to assess the accuracy and precision of two handheld 3D sca...

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Published inJournal of engineering and sustainable development (Online) Vol. 29; no. 4; pp. 495 - 503
Main Authors AlQaissi, Sarah Duraid, AlDuroobi, Ahmed A.A., Kadaw, Abdulkader Ali. A.
Format Journal Article
LanguageEnglish
Published Mustansiriyah University/College of Engineering 01.07.2025
Subjects
Accuracy
Peel 3 Scanner
Precision
Smartphone 3D Scanning
Transtibial Amputation
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Abstract In prosthetics, 3D scanning technology plays a crucial role in gathering data for designing prosthetic devices. New tools for capturing the external shape of human body parts are rapidly emerging. This study conducted a comparative analysis to assess the accuracy and precision of two handheld 3D scanners, including the Peel 3 3D scanner and a smartphone application, in scanning the residual limb of a transtibial participant. The residual limb was manually measured, and six scans were taken with each scanning system, compared to the reference computed tomography (CT) model. A repetition test was performed to determine the mean value and standard deviation of the scanned models in VXelements software for comparison purposes. The results showed a standard deviation difference between the Peel 3 and CT scans ranging from ± 0.828 to 0.907mm, and from ± 0.823 to ± 0.877mm for the smartphone scans. The repetition test indicated standard deviations ranging from ± 0.531 to 0.599 mm for the Peel 3 and ± 0.458 to 0.690 mm for the smartphone. This analysis evaluated the accuracy of the 3D scanners and identified the essential specifications for their effective use in prosthetics.
AbstractList In prosthetics, 3D scanning technology plays a crucial role in gathering data for designing prosthetic devices. New tools for capturing the external shape of human body parts are rapidly emerging. This study conducted a comparative analysis to assess the accuracy and precision of two handheld 3D scanners, including the Peel 3 3D scanner and a smartphone application, in scanning the residual limb of a transtibial participant. The residual limb was manually measured, and six scans were taken with each scanning system, compared to the reference computed tomography (CT) model. A repetition test was performed to determine the mean value and standard deviation of the scanned models in VXelements software for comparison purposes. The results showed a standard deviation difference between the Peel 3 and CT scans ranging from ± 0.828 to 0.907mm, and from ± 0.823 to ± 0.877mm for the smartphone scans. The repetition test indicated standard deviations ranging from ± 0.531 to 0.599 mm for the Peel 3 and ± 0.458 to 0.690 mm for the smartphone. This analysis evaluated the accuracy of the 3D scanners and identified the essential specifications for their effective use in prosthetics.
Author AlDuroobi, Ahmed A.A.
AlQaissi, Sarah Duraid
Kadaw, Abdulkader Ali. A.
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Snippet In prosthetics, 3D scanning technology plays a crucial role in gathering data for designing prosthetic devices. New tools for capturing the external shape of...
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StartPage 495
SubjectTerms Accuracy
Peel 3 Scanner
Precision
Smartphone 3D Scanning
Transtibial Amputation
Title Scanning Technologies Adoption for Transtibial Residual Limb Shape Characterization
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