3D ultrasound imaging: Fast and cost-effective morphometry of musculoskeletal tissue

Guido Weide; Stephan Van Der Zwaard; Peter A.J.B.M. Huijing; Richard T. Jaspers; Jaap Harlaar

doi:10.3791/55943

3D ultrasound imaging: Fast and cost-effective morphometry of musculoskeletal tissue

Guido Weide, Stephan Van Der Zwaard, Peter A.J.B.M. Huijing, Richard T. Jaspers^*, Jaap Harlaar

^*Corresponding author for this work

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

29 Citations (Scopus)

Abstract

The developmental goal of 3D ultrasound imaging (3DUS) is to engineer a modality to perform 3D morphological ultrasound analysis of human muscles. 3DUS images are constructed from calibrated freehand 2D B-mode ultrasound images, which are positioned into a voxel array. Ultrasound (US) imaging allows quantification of muscle size, fascicle length, and angle of pennation. These morphological variables are important determinants of muscle force and length range of force exertion. The presented protocol describes an approach to determine volume and fascicle length of m. vastus lateralis and m. gastrocnemius medialis. 3DUS facilitates standardization using 3D anatomical references. This approach provides a fast and cost-effective approach for quantifying 3D morphology in skeletal muscles. In healthcare and sports, information on the morphometry of muscles is very valuable in diagnostics and/or follow-up evaluations after treatment or training.

Original language	English
Article number	e55943
Journal	Journal of Visualized Experiments
Volume	2017
Issue number	129
DOIs	https://doi.org/10.3791/55943
Publication status	Published - 2017
Externally published	Yes

Bibliographical note

Geen TU Delft-publicatie. Er is sprake van een video-artikel

Keywords

3D ultrasound
Architecture
Fascicle length
Issue 129
M. gastrocnemius medialis
M. quadriceps femoris
M. vastus lateralis
Medicine
Morphology
Muscle geometry
Muscle volume
Skeletal muscle

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.3791/55943

Cite this

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title = "3D ultrasound imaging: Fast and cost-effective morphometry of musculoskeletal tissue",

abstract = "The developmental goal of 3D ultrasound imaging (3DUS) is to engineer a modality to perform 3D morphological ultrasound analysis of human muscles. 3DUS images are constructed from calibrated freehand 2D B-mode ultrasound images, which are positioned into a voxel array. Ultrasound (US) imaging allows quantification of muscle size, fascicle length, and angle of pennation. These morphological variables are important determinants of muscle force and length range of force exertion. The presented protocol describes an approach to determine volume and fascicle length of m. vastus lateralis and m. gastrocnemius medialis. 3DUS facilitates standardization using 3D anatomical references. This approach provides a fast and cost-effective approach for quantifying 3D morphology in skeletal muscles. In healthcare and sports, information on the morphometry of muscles is very valuable in diagnostics and/or follow-up evaluations after treatment or training.",

keywords = "3D ultrasound, Architecture, Fascicle length, Issue 129, M. gastrocnemius medialis, M. quadriceps femoris, M. vastus lateralis, Medicine, Morphology, Muscle geometry, Muscle volume, Skeletal muscle",

author = "Guido Weide and {Van Der Zwaard}, Stephan and Huijing, {Peter A.J.B.M.} and Jaspers, {Richard T.} and Jaap Harlaar",

note = "Geen TU Delft-publicatie. Er is sprake van een video-artikel",

year = "2017",

doi = "10.3791/55943",

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T2 - Fast and cost-effective morphometry of musculoskeletal tissue

AU - Weide, Guido

AU - Van Der Zwaard, Stephan

AU - Huijing, Peter A.J.B.M.

AU - Jaspers, Richard T.

AU - Harlaar, Jaap

N1 - Geen TU Delft-publicatie. Er is sprake van een video-artikel

PY - 2017

Y1 - 2017

N2 - The developmental goal of 3D ultrasound imaging (3DUS) is to engineer a modality to perform 3D morphological ultrasound analysis of human muscles. 3DUS images are constructed from calibrated freehand 2D B-mode ultrasound images, which are positioned into a voxel array. Ultrasound (US) imaging allows quantification of muscle size, fascicle length, and angle of pennation. These morphological variables are important determinants of muscle force and length range of force exertion. The presented protocol describes an approach to determine volume and fascicle length of m. vastus lateralis and m. gastrocnemius medialis. 3DUS facilitates standardization using 3D anatomical references. This approach provides a fast and cost-effective approach for quantifying 3D morphology in skeletal muscles. In healthcare and sports, information on the morphometry of muscles is very valuable in diagnostics and/or follow-up evaluations after treatment or training.

AB - The developmental goal of 3D ultrasound imaging (3DUS) is to engineer a modality to perform 3D morphological ultrasound analysis of human muscles. 3DUS images are constructed from calibrated freehand 2D B-mode ultrasound images, which are positioned into a voxel array. Ultrasound (US) imaging allows quantification of muscle size, fascicle length, and angle of pennation. These morphological variables are important determinants of muscle force and length range of force exertion. The presented protocol describes an approach to determine volume and fascicle length of m. vastus lateralis and m. gastrocnemius medialis. 3DUS facilitates standardization using 3D anatomical references. This approach provides a fast and cost-effective approach for quantifying 3D morphology in skeletal muscles. In healthcare and sports, information on the morphometry of muscles is very valuable in diagnostics and/or follow-up evaluations after treatment or training.

KW - 3D ultrasound

KW - Architecture

KW - Fascicle length

KW - Issue 129

KW - M. gastrocnemius medialis

KW - M. quadriceps femoris

KW - M. vastus lateralis

KW - Medicine

KW - Morphology

KW - Muscle geometry

KW - Muscle volume

KW - Skeletal muscle

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DO - 10.3791/55943

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AN - SCOPUS:85037624203

SN - 1940-087X

VL - 2017

JO - Journal of Visualized Experiments

JF - Journal of Visualized Experiments

IS - 129

M1 - e55943

ER -

3D ultrasound imaging: Fast and cost-effective morphometry of musculoskeletal tissue

Abstract

Bibliographical note

Keywords

UN SDGs

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