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Artificial Cells, Blood Substitutes, and Biotechnology Volume 35, 2007 - Issue 6
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Enhanced Oxygen Delivery to Primary Hepatocytes within a Hollow Fiber Bioreactor Facilitated via Hemoglobin-Based Oxygen Carriers

Jesse P. Sullivan Department of Chemical and Biomolecular Engineering, University of Notre Dame, Notre Dame, IN, USA
,
Jason E. Gordon Department of Chemical and Biomolecular Engineering, University of Notre Dame, Notre Dame, IN, USA
,
Therese Bou-Akl Department of Chemical Engineering and Materials Science, Wayne State University, Detroit, MI, USA
,
Howard W. T. Matthew Department of Chemical Engineering and Materials Science, Wayne State University, Detroit, MI, USA
&
Andre F. Palmer Department of Chemical and Biomolecular Engineering, The Ohio State University, Columbus, OH, USACorrespondence[email protected]
Pages 585-606 | Published online: 11 Jul 2009

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Jesse P. Sullivan, David R. Harris & Andre F. Palmer. (2008) Convection and Hemoglobin-Based Oxygen Carrier Enhanced Oxygen Transport in a Hepatic Hollow Fiber Bioreactor. Artificial Cells, Blood Substitutes, and Biotechnology 36:4, pages 386-402.
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Articles from other publishers (29)

Natalia V. Menshutina, Elena V. Guseva, Ruslan R. Safarov & Joseph Boudrant. (2019) Modelling of hollow fiber membrane bioreactor for mammalian cell cultivation using computational hydrodynamics. Bioprocess and Biosystems Engineering 43:3, pages 549-567.
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Weiping Ding, Sen Liu, Shibo Li, Duobiao Ge, Fenfen Li & Dayong Gao. (2018) Simulation of blood and oxygen distributions in a hepatic lobule with sinusoids obstructed by cancer cells. Journal of Theoretical Biology 446, pages 229-237.
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Annu, Kaiser Manzoor, Suhail Ahmad, Aisverya Soundarajan, Saiqa Ikram & Shakeel Ahmed. 2018. Handbook of Nanomaterials for Industrial Applications. Handbook of Nanomaterials for Industrial Applications 543 562 .
Bhisham Narayan Singh, Anubha Joshi, Sarada Prasanna Mallick & Pradeep Srivastava. 2018. Molecular Basis and Emerging Strategies for Anti-aging Interventions. Molecular Basis and Emerging Strategies for Anti-aging Interventions 47 66 .
Lloyd A.C. Chapman, Jonathan P. Whiteley, Helen M. Byrne, Sarah L. Waters & Rebecca J. Shipley. (2017) Mathematical modelling of cell layer growth in a hollow fibre bioreactor. Journal of Theoretical Biology 418, pages 36-56.
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Yoshitaka Miyamoto, Masashi Ikeuchi, Hirofumi Noguchi, Tohru Yagi & Shuji Hayashi. (2015) Spheroid Formation and Evaluation of Hepatic Cells in a Three-Dimensional Culture Device. Cell Medicine 8:1-2, pages 47-56.
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Yoshitaka Miyamoto, Masashi Ikeuchi, Hirofumi Noguchi, Tohru Yagi & Shuji Hayashi. (2015) Three-Dimensional in vitro Hepatic Constructs Formed Using Combinatorial Tapered Stencil for Cluster Culture (TASCL) Device. Cell Medicine 7:2, pages 67-74.
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Nelly Wung, Samuel M. Acott, David Tosh & Marianne J. Ellis. (2014) Hollow fibre membrane bioreactors for tissue engineering applications. Biotechnology Letters 36:12, pages 2357-2366.
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Armin Tahmasbi Rad, Naushad Ali, Hari Shankar R. Kotturi, Mostafa Yazdimamaghani, Jim Smay, Daryoosh Vashaee & Lobat Tayebi. (2014) Conducting scaffolds for liver tissue engineering. Journal of Biomedical Materials Research Part A 102:11, pages 4169-4181.
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Kelly R. Stevens, Robert E. Schwartz, Shengyong Ng, Jing Shan & Sangeeta N. Bhatia. 2014. Principles of Tissue Engineering. Principles of Tissue Engineering 951 986 .
Laura Ordovás, Yonsil Park & Catherine M. Verfaillie. (2013) Stem cells and liver engineering. Biotechnology Advances 31:7, pages 1094-1107.
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Chang-Wei Kang, Yan Wang, Marshella Tania, Huancheng Zhou, Yi Gao, Te Ba, Guo-Dong Sean Tan, Sangho Kim & Hwa Liang Leo. (2013) Computational fluid modeling and performance analysis of a bidirectional rotating perfusion culture system. Biotechnology Progress 29:4, pages 1002-1012.
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Anwar A. Palakkan, David C. Hay, Anil K. PR, Kumary TV & James A. Ross. (2013) Liver tissue engineering and cell sources: issues and challenges. Liver International 33:5, pages 666-676.
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M.J. Ellis. 2013. Standardisation in Cell and Tissue Engineering. Standardisation in Cell and Tissue Engineering 34 53 .
Y. Miyamoto, Y. Koshidaka, H. Noguchi, K. Oishi, H. Saito, H. Yukawa, N. Kaji, T. Ikeya, H. Iwata, Y. Baba, K. Murase & S. Hayashi. 2012. Nanomaterials for Biomedicine. Nanomaterials for Biomedicine 191 208 .
Adam J. Davidson, Marianne J. Ellis & Julian B. Chaudhuri. (2012) A theoretical approach to zonation in a bioartificial liver. Biotechnology and Bioengineering 109:1, pages 234-243.
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R.J. Shipley, A.J. Davidson, K. Chan, J.B. Chaudhuri, S.L Waters & M.J. Ellis. (2011) A strategy to determine operating parameters in tissue engineering hollow fiber bioreactors. Biotechnology and Bioengineering 108:6, pages 1450-1461.
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Yi-Tao Ding & Xiao-Lei Shi. (2010) Bioartificial liver devices: Perspectives on the state of the art. Frontiers of Medicine 5:1, pages 15-19.
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Shufang Zhang, Wenhao Tong, Baixue Zheng, Thomas A.K. Susanto, Lei Xia, Chi Zhang, Abhishek Ananthanarayanan, Xiaoye Tuo, Rashidah B. Sakban, Ruirui Jia, Ciprian Iliescu, Kah-Hin Chai, Michael McMillian, Shali Shen, Hwaliang Leo & Hanry Yu. (2011) A robust high-throughput sandwich cell-based drug screening platform. Biomaterials 32:4, pages 1229-1241.
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Sharon I. Gundersen, Guo Chen, Heather M. Powell & Andre F. Palmer. (2010) Hemoglobin regulates the metabolic and synthetic function of rat insulinoma cells cultured in a hollow fiber bioreactor. Biotechnology and Bioengineering 107:3, pages 582-592.
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Guo ChenAndre F. Palmer. (2010) Hemoglobin Regulates the Metabolic, Synthetic, Detoxification, and Biotransformation Functions of Hepatoma Cells Cultured in a Hollow Fiber Bioreactor. Tissue Engineering Part A 16:10, pages 3231-3240.
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Samira Asgari, Behshad Pournasr, Ghasem Hosseini Salekdeh, Arefeh Ghodsizadeh, Michael Ott & Hossein Baharvand. (2010) Induced pluripotent stem cells: A new era for hepatology. Journal of Hepatology 53:4, pages 738-751.
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Yan Wang, Thomas Susando, Xia Lei, Chukwuemeka Anene-Nzelu, Huancheng Zhou, Leo Hwa Liang & Hanry Yu. (2010) Current development of bioreactors for extracorporeal bioartificial liver (Review). Biointerphases 5:3, pages FA116-FA131.
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Adam J. Davidson, Marianne J. Ellis & Julian B. Chaudhuri. (2010) A theoretical method to improve and optimize the design of bioartificial livers. Biotechnology and Bioengineering 106:6, pages 980-988.
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Guo Chen & Andre F. Palmer. (2009) Mixtures of hemoglobin‐based oxygen carriers and perfluorocarbons exhibit a synergistic effect in oxygenating hepatic hollow fiber bioreactors. Biotechnology and Bioengineering 105:3, pages 534-542.
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Xue-Hui Chu, Xiao-Lei Shi, Zhang-Qi Feng, Jin-Yang Gu, Hai-Yun Xu, Yue Zhang, Zhong-Ze Gu & Yi-Tao Ding. (2009) In vitro evaluation of a multi-layer radial-flow bioreactor based on galactosylated chitosan nanofiber scaffolds. Biomaterials 30:27, pages 4533-4538.
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Guo Chen & Andre F. Palmer. (2009) Perfluorocarbon facilitated O 2 transport in a hepatic hollow fiber bioreactor . Biotechnology Progress 25:5, pages 1317-1321.
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Zhang-Qi Feng, Xuehui Chu, Ning-Ping Huang, Tao Wang, Yichun Wang, Xiaolei Shi, Yitao Ding & Zhong-Ze Gu. (2009) The effect of nanofibrous galactosylated chitosan scaffolds on the formation of rat primary hepatocyte aggregates and the maintenance of liver function. Biomaterials 30:14, pages 2753-2763.
Crossref
Guo Chen & Andre F. Palmer. (2008) Hemoglobin‐based oxygen carrier and convection enhanced oxygen transport in a hollow fiber bioreactor. Biotechnology and Bioengineering 102:6, pages 1603-1612.
Crossref

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