Generation of three-dimensional hepatocyte/gelatin structures with rapid prototyping system

Xiaohong Wang; Yongnian Yan; Yuqiong Pan; Zhuo Xiong; Haixia Liu; Jie Cheng; Feng Liu; Feng Lin; Rendong Wu; Renji Zhang; Qingping Lu

doi:10.1089/ten.2006.12.83

Generation of three-dimensional hepatocyte/gelatin structures with rapid prototyping system

Xiaohong Wang^*
, Yongnian Yan
, Yuqiong Pan
, Zhuo Xiong
, Haixia Liu
, Jie Cheng
, Feng Liu
, Feng Lin
, Rendong Wu
, Renji Zhang
, Qingping Lu

^*Corresponding author for this work

School of Instrumentation and Optoelectronic Engineering

Tsinghua University

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

356 Scopus citations

Abstract

Using rapid prototyping technology, three-dimensional (3D) structures composed of hepatocytes and gelatin hydrogel have been formed. This technique employs a highly accurate 3D micropositioning system with a pressure-controlled syringe to deposit cell/biomaterial structures with a lateral resolution of 10 μm. The pressure-activated micro-syringe is equipped with a fine-bore exit needle for which a wide variety of 3D patterns with different arrays of channels (through-holes) were created. More than 30 layers of a hepatocyte/gelatin mixture were laminated into a high spacial structure using this method. The laminated hepatocytes remained viable and performed biological functions in the construct for more than 2 months. The rapid prototyping technology offers potential for eventual high-throughout production of artificial human tissues or organs.

Original language	English
Pages (from-to)	83-90
Number of pages	8
Journal	Tissue Engineering
Volume	12
Issue number	1
DOIs	https://doi.org/10.1089/ten.2006.12.83
State	Published - Jan 2006

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abstract = "Using rapid prototyping technology, three-dimensional (3D) structures composed of hepatocytes and gelatin hydrogel have been formed. This technique employs a highly accurate 3D micropositioning system with a pressure-controlled syringe to deposit cell/biomaterial structures with a lateral resolution of 10 μm. The pressure-activated micro-syringe is equipped with a fine-bore exit needle for which a wide variety of 3D patterns with different arrays of channels (through-holes) were created. More than 30 layers of a hepatocyte/gelatin mixture were laminated into a high spacial structure using this method. The laminated hepatocytes remained viable and performed biological functions in the construct for more than 2 months. The rapid prototyping technology offers potential for eventual high-throughout production of artificial human tissues or organs.",

author = "Xiaohong Wang and Yongnian Yan and Yuqiong Pan and Zhuo Xiong and Haixia Liu and Jie Cheng and Feng Liu and Feng Lin and Rendong Wu and Renji Zhang and Qingping Lu",

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doi = "10.1089/ten.2006.12.83",

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T1 - Generation of three-dimensional hepatocyte/gelatin structures with rapid prototyping system

AU - Wang, Xiaohong

AU - Yan, Yongnian

AU - Pan, Yuqiong

AU - Xiong, Zhuo

AU - Liu, Haixia

AU - Cheng, Jie

AU - Liu, Feng

AU - Lin, Feng

AU - Wu, Rendong

AU - Zhang, Renji

AU - Lu, Qingping

PY - 2006/1

Y1 - 2006/1

N2 - Using rapid prototyping technology, three-dimensional (3D) structures composed of hepatocytes and gelatin hydrogel have been formed. This technique employs a highly accurate 3D micropositioning system with a pressure-controlled syringe to deposit cell/biomaterial structures with a lateral resolution of 10 μm. The pressure-activated micro-syringe is equipped with a fine-bore exit needle for which a wide variety of 3D patterns with different arrays of channels (through-holes) were created. More than 30 layers of a hepatocyte/gelatin mixture were laminated into a high spacial structure using this method. The laminated hepatocytes remained viable and performed biological functions in the construct for more than 2 months. The rapid prototyping technology offers potential for eventual high-throughout production of artificial human tissues or organs.

AB - Using rapid prototyping technology, three-dimensional (3D) structures composed of hepatocytes and gelatin hydrogel have been formed. This technique employs a highly accurate 3D micropositioning system with a pressure-controlled syringe to deposit cell/biomaterial structures with a lateral resolution of 10 μm. The pressure-activated micro-syringe is equipped with a fine-bore exit needle for which a wide variety of 3D patterns with different arrays of channels (through-holes) were created. More than 30 layers of a hepatocyte/gelatin mixture were laminated into a high spacial structure using this method. The laminated hepatocytes remained viable and performed biological functions in the construct for more than 2 months. The rapid prototyping technology offers potential for eventual high-throughout production of artificial human tissues or organs.

UR - https://www.scopus.com/pages/publications/33644880790

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DO - 10.1089/ten.2006.12.83

M3 - 文章

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AN - SCOPUS:33644880790

SN - 1076-3279

VL - 12

SP - 83

EP - 90

JO - Tissue Engineering

JF - Tissue Engineering

IS - 1

ER -

Generation of three-dimensional hepatocyte/gelatin structures with rapid prototyping system

Abstract

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