JZUS - Journal of Zhejiang University SCIENCE

Bio-Design and Manufacturing 2016 Vol.-1 No.-1 P.

http://doi.org/10.1007/s42242-BDMJ-D-23-00365

Optimization-based conformal path planning for in situ bioprinting in complex skin defect repair

Author(s): Wenxiang Zhao, Chuxiong Hu, Yunan Wang, Shize Lin, Ze Wang, Tao Xu
Affiliation(s): Department of Mechanical Engineering, Tsinghua University, Beijing 100084, China; more
Corresponding email(s): cxhu@tsinghua.edu.cn
Key Words: In situ bioprinting, path planning, robot control, skin injuries repair

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Wenxiang Zhao,Chuxiong Hu,Yunan Wang, Shize Lin,Ze Wang, Tao Xu. Optimization-based conformal path planning for in situ bioprinting in complex skin defect repair[J]. Journal of Zhejiang University Science D, 2016, -1(-1): .

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author="Wenxiang Zhao,Chuxiong Hu,Yunan Wang, Shize Lin,Ze Wang, Tao Xu",
journal="Journal of Zhejiang University Science D",
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publisher="Zhejiang University Press & Springer",
doi="10.1007/s42242-BDMJ-D-23-00365"
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%T Optimization-based conformal path planning for in situ bioprinting in complex skin defect repair
%A Wenxiang Zhao
%A Chuxiong Hu
%A Yunan Wang
%A Shize Lin
%A Ze Wang
%A Tao Xu
%J Journal of Zhejiang University SCIENCE D
%V -1
%N -1
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%@ 1673-1581
%D 2016
%I Zhejiang University Press & Springer
%DOI 10.1007/s42242-BDMJ-D-23-00365

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T1 - Optimization-based conformal path planning for in situ bioprinting in complex skin defect repair
A1 - Wenxiang Zhao
A1 - Chuxiong Hu
A1 - Yunan Wang
A1 - Shize Lin
A1 - Ze Wang
A1 - Tao Xu
J0 - Journal of Zhejiang University Science D
VL - -1
IS - -1
SP -
EP -
%@ 1673-1581
Y1 - 2016
PB - Zhejiang University Press & Springer
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DOI - 10.1007/s42242-BDMJ-D-23-00365

Abstract
Chinese Summary
Academic Network
Reviewer Comment

Abstract: The global demand for effective treatments of prevalent skin injuries has prompted the exploration into tissue engineering solutions. While 3D bioprinting has shown promise, challenges persist in achieving timely and compatible solutions for treating diverse skin injuries. In response, in situ bioprinting has emerged as a new avenue, reducing risks during implantation of printed scaffolds, and demonstrating superior therapeutic effects. However, maintaining printing fidelity in in situ bioprinting remains a critical challenge, particularly concerning model layering and path planning. This study proposes a novel optimization-based conformal path planning strategy for in situ bioprinting repair of complex skin injuries. The strategy employs constrained optimization to find optimal waypoints on the point cloud-approximated curved surface, ensuring the highest similarity between predesigned planar and surface-mapped 3D paths. Furthermore, this method demonstrates applicability to skin wound treatment, generating 3D equidistant zigzag curves along the surface tangent and enabling multilayer conformal path planning for volumetric injuries. The proposed algorithm proves feasible and effective in murine back injury model and other complex models, showcasing its potential to guide in situ bioprinting and enhance fidelity for improved clinical outcomes.

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