Design and Use of a Novel Bioreactor for Regeneration of Biaxially Stretched Tissue-Engineered Vessels

Conventional bioreactors are used to enhance extracellular matrix (ECM) production and mechanical strength of tissue-engineered vessels (TEVs) by applying circumferential strain, which is uniaxial stretching. However, the resulting TEVs still suffer from inadequate mechanical properties, where ruptu...

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Published in	Tissue engineering. Part C, Methods Vol. 21; no. 8; pp. 841 - 851
Main Authors	Huang, Angela Hai, Lee, Yong-Ung, Calle, Elizabeth A., Boyle, Michael, Starcher, Barry C., Humphrey, Jay D., Niklason, Laura E.
Format	Journal Article
Language	English
Published	United States Mary Ann Liebert, Inc 01.08.2015
Subjects	Animals Arteries Biomedical engineering Bioreactors Blood Vessel Prosthesis Cattle Cells, Cultured Extracellular Matrix - chemistry Extracellular Matrix - metabolism Matrix Regeneration Stress, Mechanical Tissue engineering
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Abstract	Conventional bioreactors are used to enhance extracellular matrix (ECM) production and mechanical strength of tissue-engineered vessels (TEVs) by applying circumferential strain, which is uniaxial stretching. However, the resulting TEVs still suffer from inadequate mechanical properties, where rupture strengths and compliance values are still very different from native arteries. The biomechanical milieu of native arteries consists of both circumferential and axial loading. Therefore, to better simulate the physiological stresses acting on native arteries, we built a novel bioreactor system to enable biaxial stretching of engineered arteries during culture. This new bioreactor system allows for independent control of circumferential and axial stretching parameters, such as displacement and beat rate. The assembly and setup processes for this biaxial bioreactor system are reliable with a success rate greater than 75% for completion of long-term sterile culture. This bioreactor also supports side-by-side assessments of TEVs that are cultured under three types of mechanical conditions (static, uniaxial, and biaxial), all within the same biochemical environment. Using this bioreactor, we examined the impact of biaxial stretching on arterial wall remodeling of TEVs. Biaxial TEVs developed the greatest wall thickness compared with static and uniaxial TEVs. Unlike uniaxial loading, biaxial loading led to undulated collagen fibers that are commonly found in native arteries. More importantly, the biaxial TEVs developed the most mature elastin in the ECM, both qualitatively and quantitatively. The presence of mature extracellular elastin along with the undulated collagen fibers may contribute to the observed vascular compliance in the biaxial TEVs. The current work shows that biaxial stretching is a novel and promising means to improve TEV generation. Furthermore, this novel system allows us to optimize biomechanical conditioning by unraveling the interrelationships among the applied mechanical stress, the resulting ECM properties, and the mechanics of TEVs.
AbstractList	Conventional bioreactors are used to enhance extracellular matrix (ECM) production and mechanical strength of tissue-engineered vessels (TEVs) by applying circumferential strain, which is uniaxial stretching. However, the resulting TEVs still suffer from inadequate mechanical properties, where rupture strengths and compliance values are still very different from native arteries. The biomechanical milieu of native arteries consists of both circumferential and axial loading. Therefore, to better simulate the physiological stresses acting on native arteries, we built a novel bioreactor system to enable biaxial stretching of engineered arteries during culture. This new bioreactor system allows for independent control of circumferential and axial stretching parameters, such as displacement and beat rate. The assembly and setup processes for this biaxial bioreactor system are reliable with a success rate greater than 75% for completion of long-term sterile culture. This bioreactor also supports side-by-side assessments of TEVs that are cultured under three types of mechanical conditions (static, uniaxial, and biaxial), all within the same biochemical environment. Using this bioreactor, we examined the impact of biaxial stretching on arterial wall remodeling of TEVs. Biaxial TEVs developed the greatest wall thickness compared with static and uniaxial TEVs. Unlike uniaxial loading, biaxial loading led to undulated collagen fibers that are commonly found in native arteries. More importantly, the biaxial TEVs developed the most mature elastin in the ECM, both qualitatively and quantitatively. The presence of mature extracellular elastin along with the undulated collagen fibers may contribute to the observed vascular compliance in the biaxial TEVs. The current work shows that biaxial stretching is a novel and promising means to improve TEV generation. Furthermore, this novel system allows us to optimize biomechanical conditioning by unraveling the interrelationships among the applied mechanical stress, the resulting ECM properties, and the mechanics of TEVs.
Author	Calle, Elizabeth A. Starcher, Barry C. Huang, Angela Hai Lee, Yong-Ung Boyle, Michael Humphrey, Jay D. Niklason, Laura E.
Author_xml	– sequence: 1 givenname: Angela Hai surname: Huang fullname: Huang, Angela Hai organization: 1Department of Biomedical Engineering, Yale University, New Haven, Connecticut – sequence: 2 givenname: Yong-Ung surname: Lee fullname: Lee, Yong-Ung organization: 2Tissue Engineering Program and Surgical Research, Nationwide Children's Hospital, Columbus, Ohio – sequence: 3 givenname: Elizabeth A. surname: Calle fullname: Calle, Elizabeth A. organization: 1Department of Biomedical Engineering, Yale University, New Haven, Connecticut – sequence: 4 givenname: Michael surname: Boyle fullname: Boyle, Michael organization: 1Department of Biomedical Engineering, Yale University, New Haven, Connecticut – sequence: 5 givenname: Barry C. surname: Starcher fullname: Starcher, Barry C. organization: 3Department of Biochemistry, The University of Texas Health Science Center, Tyler, Texas – sequence: 6 givenname: Jay D. surname: Humphrey fullname: Humphrey, Jay D. organization: 1Department of Biomedical Engineering, Yale University, New Haven, Connecticut – sequence: 7 givenname: Laura E. surname: Niklason fullname: Niklason, Laura E. organization: 4Department of Anesthesiology, Yale University, New Haven, Connecticut
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SubjectTerms	Animals Arteries Biomedical engineering Bioreactors Blood Vessel Prosthesis Cattle Cells, Cultured Extracellular Matrix - chemistry Extracellular Matrix - metabolism Matrix Regeneration Stress, Mechanical Tissue engineering
Title	Design and Use of a Novel Bioreactor for Regeneration of Biaxially Stretched Tissue-Engineered Vessels
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