Indirectly additive manufactured deformable bladder model for a pelvic radiotherapy phantom

Marie Wegner; Elisabetta Gargioni; Dieter Krause

doi:10.18416/AMMM.2021.2109498

Indirectly additive manufactured deformable bladder model for a pelvic radiotherapy phantom

Standard

Indirectly additive manufactured deformable bladder model for a pelvic radiotherapy phantom. / Wegner, Marie; Gargioni, Elisabetta; Krause, Dieter.

In: Transactions on Additive Manufacturing Meets Medicine, Vol. 3, No. 1, 498, 2021.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Wegner, M, Gargioni, E & Krause, D 2021, 'Indirectly additive manufactured deformable bladder model for a pelvic radiotherapy phantom', Transactions on Additive Manufacturing Meets Medicine, vol. 3, no. 1, 498. https://doi.org/10.18416/AMMM.2021.2109498

APA

Wegner, M., Gargioni, E., & Krause, D. (2021). Indirectly additive manufactured deformable bladder model for a pelvic radiotherapy phantom. Transactions on Additive Manufacturing Meets Medicine, 3(1), [498]. https://doi.org/10.18416/AMMM.2021.2109498

Vancouver

Wegner M, Gargioni E, Krause D. Indirectly additive manufactured deformable bladder model for a pelvic radiotherapy phantom. Transactions on Additive Manufacturing Meets Medicine. 2021;3(1). 498. https://doi.org/10.18416/AMMM.2021.2109498

Bibtex

@article{6b6600845fff4ea9bee804185cd09637,

title = "Indirectly additive manufactured deformable bladder model for a pelvic radiotherapy phantom",

abstract = "The increasing variance in imaging radiotherapy demands the use of deformable phantoms for validation or quality assurance as well as for general training. This paper describes the development and manufacturing of a deformable urinary bladder model that can be implemented in a radiotherapy pelvic phantom. The advantages of additive manufacturing (AM) are used to produce an anatomically realistic mold, as well as a dissolvable core. The casted silicon bladder has different wall thicknesses which show realistic deformation behavior compared to a human bladder.",

author = "Marie Wegner and Elisabetta Gargioni and Dieter Krause",

year = "2021",

doi = "10.18416/AMMM.2021.2109498",

language = "English",

volume = "3",

journal = "Transactions on Additive Manufacturing Meets Medicine",

issn = "2699-1977",

number = "1",

}

RIS

TY - JOUR

T1 - Indirectly additive manufactured deformable bladder model for a pelvic radiotherapy phantom

AU - Wegner, Marie

AU - Gargioni, Elisabetta

AU - Krause, Dieter

PY - 2021

Y1 - 2021

N2 - The increasing variance in imaging radiotherapy demands the use of deformable phantoms for validation or quality assurance as well as for general training. This paper describes the development and manufacturing of a deformable urinary bladder model that can be implemented in a radiotherapy pelvic phantom. The advantages of additive manufacturing (AM) are used to produce an anatomically realistic mold, as well as a dissolvable core. The casted silicon bladder has different wall thicknesses which show realistic deformation behavior compared to a human bladder.

AB - The increasing variance in imaging radiotherapy demands the use of deformable phantoms for validation or quality assurance as well as for general training. This paper describes the development and manufacturing of a deformable urinary bladder model that can be implemented in a radiotherapy pelvic phantom. The advantages of additive manufacturing (AM) are used to produce an anatomically realistic mold, as well as a dissolvable core. The casted silicon bladder has different wall thicknesses which show realistic deformation behavior compared to a human bladder.

U2 - 10.18416/AMMM.2021.2109498

DO - 10.18416/AMMM.2021.2109498

M3 - SCORING: Journal article

VL - 3

JO - Transactions on Additive Manufacturing Meets Medicine

JF - Transactions on Additive Manufacturing Meets Medicine

SN - 2699-1977

IS - 1

M1 - 498

ER -