3D printing for tissue/organ regeneration in China

Chaofan He; Jiankang He; Chengtie Wu; Changshun Ruan; Qi Gu; Yongqiang Hao; Yang Wu; Shuo Bai; Xiaoxiao Han; Liliang Ouyang; Jun Yin; Hongzhao Zhou; Zhuo Xiong; Maobin Xie; Lei Shao; Jing Nie; Liang Ma; Cijun Shuai; Changchun Zhou; Xin Zhao; Xuetao Shi; Mengfei Yu; Jiayin Fu; Peng Wen; Huixia Xuan; Yuan Pang; Yan’en Wang; Yuan Sun; Ziqi Gao; Abdellah Aazmi; Jingbo Zhang; Tianhong Qiao; Qixiang Yang; Ke Yao; Mao Mao; Jianxin Hao; Pinpin Wang; Jirong Yang; Huawei Qu; Xinhuan Wang; Xin Liu; Shen Ji; Shasha Liu; Jingke Fu; Bingxian Lu; Mohan Wu; Feng Chen; Zihao Zheng; Boqing Zhang; Muyuan Chai; Chaoying Zhang; Mouyuan Sun; Bo Peng; Huayong Yang; Yong He

doi:10.1631/bdm.2400309

3D printing for tissue/organ regeneration in China

Chaofan He
, Jiankang He
, Chengtie Wu
, Changshun Ruan
, Qi Gu
, Yongqiang Hao
, Yang Wu
, Shuo Bai
, Xiaoxiao Han
, Liliang Ouyang
, Jun Yin
, Hongzhao Zhou
, Zhuo Xiong
, Maobin Xie
, Lei Shao
, Jing Nie
, Liang Ma
, Cijun Shuai
, Changchun Zhou
, Xin Zhao

Xuetao Shi, Mengfei Yu, Jiayin Fu, Peng Wen, Huixia Xuan, Yuan Pang, Yan’en Wang, Yuan Sun, Ziqi Gao, Abdellah Aazmi, Jingbo Zhang, Tianhong Qiao, Qixiang Yang, Ke Yao, Mao Mao, Jianxin Hao, Pinpin Wang, Jirong Yang, Huawei Qu, Xinhuan Wang, Xin Liu, Shen Ji, Shasha Liu, Jingke Fu, Bingxian Lu, Mohan Wu, Feng Chen, Zihao Zheng, Boqing Zhang, Muyuan Chai, Chaoying Zhang, Mouyuan Sun, Bo Peng, Huayong Yang, Yong He

Research output: Journal article publication › Review article › Academic research › peer-review

10 Citations (Scopus)

Abstract

As surgical procedures transition from conventional resection to advanced tissue-regeneration technologies, human disease therapy has witnessed a great leap forward. In particular, three-dimensional (3D) bioprinting stands as a landmark in this setting, by promising the precise integration of biomaterials, cells, and bioactive molecules, thus opening up a novel avenue for tissue/organ regeneration. Curated by the editorial board of Bio-Design and Manufacturing, this review brings together a cohort of leading young scientists in China to dissect the core functionalities and evolutionary trajectory of 3D bioprinting, by elucidating the intricate challenges encountered in the manufacturing of transplantable organs. We further delve into the translational pathway from scientific research to clinical application, emphasizing the imperativeness of establishing a regulatory framework and rigorously enforcing quality-control measures. Finally, this review outlines the strategic landscape and innovative achievements of China in this field and provides a comprehensive roadmap for researchers worldwide to propel this field collectively to even greater heights.

Original language	English
Pages (from-to)	169-242
Number of pages	74
Journal	Bio-Design and Manufacturing
Volume	8
DOIs	https://doi.org/10.1631/bdm.2400309
Publication status	Published - 5 Mar 2025

Keywords

3D printing
Bioprinting
Regenerative medicine
Tissue engineering

ASJC Scopus subject areas

Biotechnology
Biomedical Engineering
Materials Science (miscellaneous)
Industrial and Manufacturing Engineering

UN SDGs

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

More information

10.1631/bdm.2400309

Cite this

@article{4144c708a6c04b25aeb34a24e95893e4,

title = "3D printing for tissue/organ regeneration in China",

abstract = "As surgical procedures transition from conventional resection to advanced tissue-regeneration technologies, human disease therapy has witnessed a great leap forward. In particular, three-dimensional (3D) bioprinting stands as a landmark in this setting, by promising the precise integration of biomaterials, cells, and bioactive molecules, thus opening up a novel avenue for tissue/organ regeneration. Curated by the editorial board of Bio-Design and Manufacturing, this review brings together a cohort of leading young scientists in China to dissect the core functionalities and evolutionary trajectory of 3D bioprinting, by elucidating the intricate challenges encountered in the manufacturing of transplantable organs. We further delve into the translational pathway from scientific research to clinical application, emphasizing the imperativeness of establishing a regulatory framework and rigorously enforcing quality-control measures. Finally, this review outlines the strategic landscape and innovative achievements of China in this field and provides a comprehensive roadmap for researchers worldwide to propel this field collectively to even greater heights.",

keywords = "3D printing, Bioprinting, Regenerative medicine, Tissue engineering",

author = "Chaofan He and Jiankang He and Chengtie Wu and Changshun Ruan and Qi Gu and Yongqiang Hao and Yang Wu and Shuo Bai and Xiaoxiao Han and Liliang Ouyang and Jun Yin and Hongzhao Zhou and Zhuo Xiong and Maobin Xie and Lei Shao and Jing Nie and Liang Ma and Cijun Shuai and Changchun Zhou and Xin Zhao and Xuetao Shi and Mengfei Yu and Jiayin Fu and Peng Wen and Huixia Xuan and Yuan Pang and Yan{\textquoteright}en Wang and Yuan Sun and Ziqi Gao and Abdellah Aazmi and Jingbo Zhang and Tianhong Qiao and Qixiang Yang and Ke Yao and Mao Mao and Jianxin Hao and Pinpin Wang and Jirong Yang and Huawei Qu and Xinhuan Wang and Xin Liu and Shen Ji and Shasha Liu and Jingke Fu and Bingxian Lu and Mohan Wu and Feng Chen and Zihao Zheng and Boqing Zhang and Muyuan Chai and Chaoying Zhang and Mouyuan Sun and Bo Peng and Huayong Yang and Yong He",

note = "Publisher Copyright: {\textcopyright} Zhejiang University Press 2025.",

year = "2025",

month = mar,

day = "5",

doi = "10.1631/bdm.2400309",

language = "English",

volume = "8",

pages = "169--242",

journal = "Bio-Design and Manufacturing",

issn = "2096-5524",

publisher = "Zhejiang University",

}

He, C, He, J, Wu, C, Ruan, C, Gu, Q, Hao, Y, Wu, Y, Bai, S, Han, X, Ouyang, L, Yin, J, Zhou, H, Xiong, Z, Xie, M, Shao, L, Nie, J, Ma, L, Shuai, C, Zhou, C, Zhao, X, Shi, X, Yu, M, Fu, J, Wen, P, Xuan, H, Pang, Y, Wang, Y, Sun, Y, Gao, Z, Aazmi, A, Zhang, J, Qiao, T, Yang, Q, Yao, K, Mao, M, Hao, J, Wang, P, Yang, J, Qu, H, Wang, X, Liu, X, Ji, S, Liu, S, Fu, J, Lu, B, Wu, M, Chen, F, Zheng, Z, Zhang, B, Chai, M, Zhang, C, Sun, M, Peng, B, Yang, H & He, Y 2025, '3D printing for tissue/organ regeneration in China', Bio-Design and Manufacturing, vol. 8, pp. 169-242. https://doi.org/10.1631/bdm.2400309

TY - JOUR

T1 - 3D printing for tissue/organ regeneration in China

AU - He, Chaofan

AU - He, Jiankang

AU - Wu, Chengtie

AU - Ruan, Changshun

AU - Gu, Qi

AU - Hao, Yongqiang

AU - Wu, Yang

AU - Bai, Shuo

AU - Han, Xiaoxiao

AU - Ouyang, Liliang

AU - Yin, Jun

AU - Zhou, Hongzhao

AU - Xiong, Zhuo

AU - Xie, Maobin

AU - Shao, Lei

AU - Nie, Jing

AU - Ma, Liang

AU - Shuai, Cijun

AU - Zhou, Changchun

AU - Zhao, Xin

AU - Shi, Xuetao

AU - Yu, Mengfei

AU - Fu, Jiayin

AU - Wen, Peng

AU - Xuan, Huixia

AU - Pang, Yuan

AU - Wang, Yan’en

AU - Sun, Yuan

AU - Gao, Ziqi

AU - Aazmi, Abdellah

AU - Zhang, Jingbo

AU - Qiao, Tianhong

AU - Yang, Qixiang

AU - Yao, Ke

AU - Mao, Mao

AU - Hao, Jianxin

AU - Wang, Pinpin

AU - Yang, Jirong

AU - Qu, Huawei

AU - Wang, Xinhuan

AU - Liu, Xin

AU - Ji, Shen

AU - Liu, Shasha

AU - Fu, Jingke

AU - Lu, Bingxian

AU - Wu, Mohan

AU - Chen, Feng

AU - Zheng, Zihao

AU - Zhang, Boqing

AU - Chai, Muyuan

AU - Zhang, Chaoying

AU - Sun, Mouyuan

AU - Peng, Bo

AU - Yang, Huayong

AU - He, Yong

PY - 2025/3/5

Y1 - 2025/3/5

N2 - As surgical procedures transition from conventional resection to advanced tissue-regeneration technologies, human disease therapy has witnessed a great leap forward. In particular, three-dimensional (3D) bioprinting stands as a landmark in this setting, by promising the precise integration of biomaterials, cells, and bioactive molecules, thus opening up a novel avenue for tissue/organ regeneration. Curated by the editorial board of Bio-Design and Manufacturing, this review brings together a cohort of leading young scientists in China to dissect the core functionalities and evolutionary trajectory of 3D bioprinting, by elucidating the intricate challenges encountered in the manufacturing of transplantable organs. We further delve into the translational pathway from scientific research to clinical application, emphasizing the imperativeness of establishing a regulatory framework and rigorously enforcing quality-control measures. Finally, this review outlines the strategic landscape and innovative achievements of China in this field and provides a comprehensive roadmap for researchers worldwide to propel this field collectively to even greater heights.

AB - As surgical procedures transition from conventional resection to advanced tissue-regeneration technologies, human disease therapy has witnessed a great leap forward. In particular, three-dimensional (3D) bioprinting stands as a landmark in this setting, by promising the precise integration of biomaterials, cells, and bioactive molecules, thus opening up a novel avenue for tissue/organ regeneration. Curated by the editorial board of Bio-Design and Manufacturing, this review brings together a cohort of leading young scientists in China to dissect the core functionalities and evolutionary trajectory of 3D bioprinting, by elucidating the intricate challenges encountered in the manufacturing of transplantable organs. We further delve into the translational pathway from scientific research to clinical application, emphasizing the imperativeness of establishing a regulatory framework and rigorously enforcing quality-control measures. Finally, this review outlines the strategic landscape and innovative achievements of China in this field and provides a comprehensive roadmap for researchers worldwide to propel this field collectively to even greater heights.

KW - 3D printing

KW - Bioprinting

KW - Regenerative medicine

KW - Tissue engineering

UR - https://www.scopus.com/pages/publications/105001070643

U2 - 10.1631/bdm.2400309

DO - 10.1631/bdm.2400309

M3 - Review article

AN - SCOPUS:105001070643

SN - 2096-5524

VL - 8

SP - 169

EP - 242

JO - Bio-Design and Manufacturing

JF - Bio-Design and Manufacturing

ER -

3D printing for tissue/organ regeneration in China

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

More information

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