Fabrication of three-dimensional collagen scaffold using an inverse mould-leaching process

被引：12

作者：

Ahn, SeungHyun ^{[1
]}

Lee, SuYeon ^{[2
]}

Cho, Youngseok ^{[3
]}

Chun, Wook ^{[3
]}

Kim, GeunHyung ^{[1
]}

机构：

[1] Chosun Univ, Bio Nanofluid Lab, Dept Mech Engn, Kwangju 501759, South Korea

[2] Modern Cell & Tissue Technol Inc, Seoul 137743, South Korea

[3] Hallym Univ, Dept Surg, Burn Ctr, Hangang Sacred Heart Hosp,Coll Med, Seoul 150719, South Korea

来源：

BIOPROCESS AND BIOSYSTEMS ENGINEERING | 2011年 / 34卷 / 07期

关键词：

Collagen; Scaffold; Skin tissue regeneration; BIODEGRADABLE POLYMER SCAFFOLDS; CROSS-LINKING; SKIN; CELLS; DESIGN;

D O I：

10.1007/s00449-011-0541-z

中图分类号：

Q81 [生物工程学（生物技术）]; Q93 [微生物学];

学科分类号：

071005 [微生物学]; 090105 [作物生产系统与生态工程];

摘要：

Natural biopolymers, such as collagen or chitosan, are considered ideal for biomedical scaffolds. However, low processability of the materials has hindered the fabrication of designed pore structures controlled by various solid freeform-fabrication methods. A new technique to fabricate a biomedical three-dimensional collagen scaffold, supplemented with a sacrificial poly(ethylene oxide) mould is proposed. The fabricated collagen scaffold shows a highly porous surface and a three-dimensional structure with high porosity as well as mechanically stable structure. To show its feasibility for biomedical applications, fibroblasts/keratinocytes were co-cultured on the scaffold, and the cell proliferation and cell migration of the scaffold was more favorable than that obtained with a spongy-type collagen scaffold.

引用

页码：903 / 911

页数：9

共 29 条

[1]

Designed Three-Dimensional Collagen Scaffolds for Skin Tissue Regeneration [J].

Ahn, SeungHyun ;

Yoon, Hyeon ;

Kim, GeunHyung ;

Kim, YunYoung ;

Lee, SuHee ;

Chun, Wook .

TISSUE ENGINEERING PART C-METHODS, 2010, 16 (05) :813-820

[2]

AUYEUNG KL, 2008, TISSUE ENG PART C-ME, V16, P93

[3]

Chitosan-Based Inverse Opals: Three-Dimensional Scaffolds with Uniform Pore Structures for Cell Culture [J].

Choi, Sung-Wook ;

Xie, Jingwei ;

Xia, Younan .

ADVANCED MATERIALS, 2009, 21 (29) :2997-+

[4]

NEOCARTILAGE FORMATION INVITRO AND INVIVO USING CELLS CULTURED ON SYNTHETIC BIODEGRADABLE POLYMERS [J].

FREED, LE ;

MARQUIS, JC ;

NOHRIA, A ;

EMMANUAL, J ;

MIKOS, AG ;

LANGER, R .

JOURNAL OF BIOMEDICAL MATERIALS RESEARCH, 1993, 27 (01) :11-23

[5]

BIODEGRADABLE POLYMER SCAFFOLDS FOR TISSUE ENGINEERING [J].

FREED, LE ;

VUNJAKNOVAKOVIC, G ;

BIRON, RJ ;

EAGLES, DB ;

LESNOY, DC ;

BARLOW, SK ;

LANGER, R .

BIO-TECHNOLOGY, 1994, 12 (07) :689-693

[6]

Collagen scaffolds for tissue engineering [J].

Glowacki, Julie ;

Mizuno, Shuichi .

BIOPOLYMERS, 2008, 89 (05) :338-344

[7]

GROWTH OF CULTURED HUMAN EPIDERMAL-CELLS INTO MULTIPLE EPITHELIA SUITABLE FOR GRAFTING [J].

GREEN, H ;

KEHINDE, O ;

THOMAS, J .

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1979, 76 (11) :5665-5668

[8]

Preparation of chitosan-gelatin hybrid scaffolds with well-organized microstructures for hepatic tissue engineering [J].

He Jiankang ;

Li Dichen ;

Liu Yaxiong ;

Yao Bo ;

Zhan Hanxiang ;

Lian Qin ;

Lu Bingheng ;

Lv Yi .

ACTA BIOMATERIALIA, 2009, 5 (01) :453-461

[9]

HE X, 2009, TISSUE ENG PART C-ME, V16, P329

[10]

Scaffold design and fabrication technologies for engineering tissues - state of the art and future perspectives [J].

Hutmacher, DW .

JOURNAL OF BIOMATERIALS SCIENCE-POLYMER EDITION, 2001, 12 (01) :107-124

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