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主营产品: Flexcell细胞力学和regenhu细胞3D生物打印机销售技术服务: 美国Flexcell品牌FX-5000T细胞牵张应力加载培养系统,FX-5K细胞显微牵张应力加载培养系统,Tissue Train三维细胞组织培养与测试系统,FX-5000C三维细胞组织压应力加载培养系统,STR-4000细胞流体剪切应力加载培养系统,德国cellastix品牌Optical Stretcher高通量单细胞牵引应变与分析系统 Regenhu品牌3D discovery细胞友好型3D生物打印机,piuma细胞纳米压痕测试分析、aresis多点力学测试光镊,MagneTherm细胞肿瘤电磁热疗测试分析系统
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三维血管机械力刺激培养系统

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  • 产品名称:三维血管机械力刺激培养系统
  • 产品型号:Lumegen
  • 产品展商:Tissue growth
  • 产品文档:无相关文档
简单介绍

Lumegen型号体外三维血管应力加载培养系统(Pulsatile Pressure & Flow Bioreactor) 是一种**设计的血管体外应力培养装置。该系统为体外完整的血管器官提供搏动、压应力培养刺激三维机械力刺激培养环境,可长时间进行体外血管应力刺激三维培养,使血管存活较长时间,可分别调节压力与切应力大小,控制定常流与脉动流等血液动环境.为血管生物力学和血管组织工程学的研究提供一种更

产品描述

 

Publications

BISS TGT Bioreactor Systems in Current Literature

Patents

Instrumented bioreactor with material property measurment capability and process-based adjustment for conditioning tissue engineered medical products.US pat no 7410792. August 12, 2008

Bioreactor with plurality of chambers for conditioning intravascular tissue engineered medical products. US pat no 7348175. March 25, 2008

Cell seeding module including an apparatus and method for seeding cells on a sample or specimen. US pat no 8173420. May 8, 2012.

Peer Reviewed Publications

Angelidis IK, Thorfinn J, Connolly ID, Lindsey D, Pham HM, Chang J. Tissue Engineering of Flexor Tendons: The Effect of a Tissue Bioreactor on Adipoderived Stem cell-Seeded and Fibroblast-Seeded Tendon Constructs. J Hand Surg Am. 2010 Sep; 35(9): 1466-72.

 
Woon Cy, Pridgen BC, Kraus A, Bari S, Pham H, Chang J. Optimization of Human Tendon Tissue Engineering: Peracetic Acid Oxidation for Enhanced Reseeding of Acellularized Intrasynovial Tendon. Plast Reconstrc Surg. 2011 March; 127(3):1107-17 

Woon Cy, Kraus A, Raghavan SS, Pridgen BC, Megerle K, Pham H, Chang J. Three-Dimensional-Construct Bioreactor Conditioning in Human Tendon Tissue Engineering. Tissue Eng Part A. 2011 July 1: Epublished ahead of print

Tran SC, Cooley AJ, Elder SH. Effects of a Mechanical Stimulation Bioreactor on Tissue Engineered, Scaffold-Free Cartilage. Biotechnology and Bioengineering. 2011; 108:1421-1429.Saber S, Zhang AY, Ki SH, Lindsey DP, Smith RL, Riboh J, Pham H, Chang J. Flexor Tendon Tissue Engineering: Bioreactor Cyclic Strain Increases Construct StrengthTissue Engineering A. 2010 Jun 16(6): 2085-90.

Fischer LJ, McIlhenny S, Tulenko T, Golesorkhi N, Zhang P, Larson R, Lombardi J, Shapiro I, DiMuzio P. Endothelial Differentiation of Adipose-Derived Stem Cells: Effects of Endothelial Cell Growth Supplement and Shear Force. Journal of Surgical Research. 2009 March; 152 (1):157-166. PubMed PMID 19883577.

Harris LJ, Abdollahi H, Zhang P, McIlhenny S, Tulenko T, DiMuzio PJ. Differentiation of Adult Stem Cells into Smooth Muscle for Vascular Tissue Engineering. Journal of Surgical Research. Article in Press [Epub ahead of print] September 4, 2009. PubMed PMID 19959190.

McIlhenny S, Hager ES, Grabo DJ, DiMatteo C, Shapiro IM, Tulenko T, DiMuzio PJ. Linear Shear Conditioning Improves Vascular Graft Retention of Adipose-Derived Stem Cells by Upregulation of a5ß1 Integrin. Tissue Engineering Part A. 2010 Jan; 16(1): 245-255.

Klein TJ, Malda J, Sah RL, Hutmacher DW, Tissue Engineering of Articular Cartilage with Biomimetic Zones. Tissue Engineering Part B. 2009 Feb 9 PubMed PMID 19203206.

Cartmell SH, Porter BD, Garcia AJ, Guldberg RE, Effects of Medium Perfusion Rate on Cell-Seeded Three-Dimensional Bone Constructs In Vitro. Tissue Eng. 2003 Dec;9(6):1197-203.

McClure MJ, Sell SA, Ayres CE, Simpson DG, Bowlin GL. Electrospinning-aligned and random polydioxanon-polycaprolactone-silk-fibroin-blended scaffolds: geometry for a vascular matrix. Biomedical Materials. 2009; 4(5). PubMed PMID 19815970.

Mohan N, Nair PD, Tabata Y. Growth factor-mediated effects on chondrogenic differentiation of mesenchymal stem cells in 3D semi-IPN poly(vinylalcohol)-poly(caprolactone) scaffolds. J Biomed Mater Res A. 2010 Feb 2. [Epub ahead of print] PubMed PMID: 20128001.

Porter BD, Lin AS, Peister A, Hutmacher D, Guldberg RE, Noninvasive image analysis of 3D construct mineralization in a perfusion bioreactor. Biomaterials.2007 May; 28(15):2525-33. Epub 2007 Jan 26.

Sell SA, McClure MJ, Barnes CP, Knapp DC, Walpoth BH, Simpson DG, Bowlin GL. Electrospun polydioxanone-elastin blends: potential for bioresorbably vascular grafts. Biomedical Materials. 2006; 1(2).PubMed PMID 18460759.

Smith MJ, McClure MJ, Sell SA, Barnes CP, Walpoth BH, Simpson DG, Bowlin GL. Suture-reinforced electrospun polydioxanone-elastin small-diameter tubes for use in vascular tissue engineering: A feasibility study. Acta Biomaterialia. 2008 Jan;4(1):58-66. PMID 17897890.

Voge CM, Kariolis M, MacDonald RA, Stegemann JP. Directional conductivity in SWNT-collagen-fibrin composite biomaterials through strain-induced matrix alignment. J Biomed Mater Res A. 2008 Jul;86(1):269-77. PubMed PMID: 18428799.

Michael J. McClure, Scott A. Sell, David G. Simpson, Beat H. Walpoth, Gary L. Bowlin. A three-layered electrospun matrix to mimic native arterial architecture using polycaprolactone, elastin, and collagen: A preliminary study. Acta Biomaterialia. Vol. 6, Issue 7, July 2010, Pages 2422-2433.

Dr. Jan Hansmann, Florian Groeber, Alexander Kahlig, Claudia Kleinhans, Heike Walles. Bioreactors in tissue engineering--principles, applications and commercial constraints. Biotechnology Journal. Vol. 8, Issue 2, 2013. 

Johan Thorfinn, I.K. Angelidis, L. Gigliello, H.M. Pham, D. Lindsey, J. Chang. Bioreactor optimization of tissue engineered rabbit flexor tendons in vivo. The Journal of Hands Surgery. (Eur Vol.) Feb. 2012 vol. 37 no. 2 pages 109-114.

Presentations

Christopher M. Voge, Mihalis Kariolis, Rebecca A. MacDonald, Jan P. Stegemann, Directional Conductivity in Protein-Nanotube Biomaterials through Strain-Induced Matrix Alignment. 8th World Biomaterials Congress. Amsterdam, Netherlands, June 2008.

S Saber. Stanford University Medical Center, Department of Plastic Surgery, Flexor Tendon Tissue Engineering: Cyclic Strain Increases Construct Strength and Tendon Architecture. Plastic Surgery Research Council. Springfield, Illinois, May 2008. Also presented at the California Society of Plastic Surgeons, Dana Point, California, June 2008.

BD Porter, A Peister, D Hutmacher, RE Guldberg, Dynamic Culture Conditions Modulate Mineralization Matrix Deposition, Growth Rate, and Particle Size Within Large 3-D Constructs. Transactions of the 2006 Summer Bioengineering Conference, Amelia Island, Florida, June 2006.

BD Porter, A Peister, D Hutmacher, RE Guldberg, In Vitro Perfusion Accelerates the Rate of Mineralized Matrix Formation Within 3-D Constructs by Increasing both the Number and Size of Mineralization Sites. Transactions of the 52nd Annual Orthopaedic Research Society, Chicago, Illinois, March 2006.

BD Porter, Roger Zauel, D Hutmacher, RE Guldberg, D Fyhrie, Perfusion Significantly Increases Mineral Production Inside 3-D PCL Composite Scaffolds.Regenerate International Conference and Exposition, Atlanta, Georgia, June 2005. Also presented at the American Society for Mechanical Engineering Summer Bioengineering Meeting, Vail, Colorado, June 2005. Also presented at Transactions of the 51st Annual Orthopaedic Research Society Meeting, Washington, D.C., February 2005.

Posters

S.E.McIlhenny, D.J.Grabo, N.A. Tarola, P.Zhang, I.M.Shapiro, T.N.Tulenko, and P.J.DiMuzio,  Shear Conditioning of Adipose-Derived Stem Cells Increases Retention on Decellularized Vein Grafts. Biomedical Engineering Society Meeting, Los Angeles, California, September 2007.

Whitlock, Patrick, Knutson, James, Smith, Thomas L., Van Dyke Mark E., Shilt, Jeffrey S., Koman, L. Andrew, Poehling, Gary G., Effects of Mechanical Stimulation on a Cell-Seeded Scaffold Developed for Tendon and Ligament RegenerationTransactions of the 6th Combined Meeting of the Orthopaedic Research Society, Honolulu, Hawaii, October 2007. Also presented at the Transactions of the 54th Annual Orthopaedic Research Society Meeting, San Francisco, California, March 2008.

Mechanical Stimulation in the Literature

Reviews

Barrilleaux, B., et al. 2006. Tissue Engineering. "Review: of Ex Vivo Engineering of Living Tissues with Adult Stem Cells." Oct 1 (on line publishing).

Bilodeau, K. and  Mantovani, D. 2006. Tissue Engineering. "Bioreactors for tissue engineering focus on mechanical constraints, A comparative review." Aug: 12 (8) 2367-83.

Ratner, B., et al. 1996. Biomaterials Science: An Introduction to Materials in Medicine. Academic Press. San Diego, CA.

Wendt, D., et. al. . 2006. Biorheology. "Uniform tissues engineered by seeding and culturing cells in 3D scaffolds under perfusion at defined oxygen tensions." 43 (3-4): 418-488.

Mcllhenny, S., et al. 2009. Tissue Engineering. "Linear Shear Conditioning Inproves Vascular Graft Retention of Adipose-Derived Stem Cells by Upregulation." Sept. 21 (15).

Juliane Rauh, Falk Milan, Klaus-Peter Gunther, and Maik Stiehler. Tissue Engineering. "Bioreactor Systems for Bone Tissue Engineering." August 2011, 17(4): 263-280.

Bone

Braccini, A. et al. 2005. Stem Cells. "Three-dimensional perfusion culture of human bone marrow cells and generation of osteoinductive grafts." Sep 23 (8): 1066-72.

Shawn Pl Grogan, Sujata Sovani, Chantal Pauli, Jianfen Chen, Andreas Hartmann, Clifford W. Colwell Jr., Marin K. Lotz, and Darryl D. D'Lima.  "Effects of Perfusion and Dynamic Loading on Human Neocartilage Formation of Alginate Hydrogels." Tissue Engineering Part A. September 2012, 18(17-18): 1784-1792.

Vascular

Bouhout S, Perron E, Gauvin R, Bernard G, Ouellet G, Cattan V, Bolduc S. "InVitro Reconstruction of an Autologous, Watertight, and Resistant Vesical Equivalent." Tissue Eng Part A. 2010 Feb 11. [Epub ahead of print] PubMed PMID:20014996.

Shinoka, T. 2002. Artificial Organs. "Tissue Engineered Heat Valves: Autologous Cell Seeding on Biodegradable Polymer Scaffold." 26(5): 402-406.

Yow, K.H., et al. 2006. British Journal of Surgery. "Tissue engineering of vascular conduits." 93(6): 652-661.

Hao-Fan Peng, Jin Yu Liu, Stelios T. Andreadis, and Daniel D. Swartz. "Hair Follicle-Derived Smooth Muscle Cells and Small Intestinal Submucosa for Engineering Mechanically Robust and Vasoreactive Vascular Media." Tissue Engineering Part A. April 2011, 17(7-8): 981-990.  

Stem Cell

Willenberg, B.J., et al. 2006. Journal of Biomaterials Res A. "Self-assembled copper-capillary alginate gel scaffolds with oligochitosan support embryonic stem cell growth." 79(2): 440-50.

M.J. Moreno, A. Ajji, D. Mohebbi-Kalhori, M. Rukhlova, A. Jadhizadeh, M.N. Bureau. Journal of Biomaterials Res B. "Development of a compliant and cytocompatible micro-fibrous polyethylene terephthalate vascular scaffold." Vol. 97B, Issue 2, pages 201-213, May 2011.

Scaffolds

Scheindler, M., et al. 2006. Cell Biochemistry and Biophysics. Living in three dimensions: 3D nano structured environments for cell culture and regenerative medicine. 45(2):215-27.

Zahir, N. and Weaver, V.M. 2004. Current Opinion in Genetics and Development Death in the third dimension: apoptosis regulation and tissue architecture.. 14(1): 71-80.

Zhang, S., et. al. 2005. Seminars in Cancer Biology. Designer self –assembling peptide nanofiber scaffolds for 3D tissue cell cultures. 15(5): 413-20.

Jones, D., et. al. 2009. A Versatile Approach to Scaffold Design for Bone in Growth Structures. Clinical Engineering, School of Clinical Sciences, University of Liverpool, UK

Drug Development

Andrei, G. 2006. Antiviral Research. Three-dimensional culture models for human viral diseases and antiviral drug development. 71(2-3): 96-107.

 

 

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