World Congress on Biosensors 2014

World Congress on Biosensors 2014
Biosensors 2014

Wednesday, 13 October 2010

Tissue-Engineered Stem Cell-Derived: Trachea, Esophagus, Blood Vessels with New Whole Organ Bioreactor

Harvard Apparatus is introducing the InBreath Whole Organ Bioreactor.  This 3D bioreactor is a rotating, 3D bioreactor designed for cell seeding and culturing on both surfaces of a tubular matrix.  The Harvard Apparatus hollow organ 3D reactor system is ideal for esophagus, trachea, intestines, blood vessels and virtually any hollow organ.
Harvard Apparatus in conjunction with Dr. Paolo Macchiarini, [Macciarini, P. et al. Clinical transplantation of a tissue-engineered airway, Lancet, 372, 2023-2030, (2008)] has developed the InBreath Whole Organ Bioreactor. 
The InBreath is world's first commercially available bioreactor for tubular organ regeneration.  The InBreath is precision engineered for cell seeding and culturing on both intraluminal and extraluminal surfaces of a tubular matrix. 
An autoclavable polymer-based culture chamber houses the scaffold and culture medium for the entire duration of the organ generation procedure.  An organ scaffold is mounted to the corresponding scaffold holder of appropriate diameter. 
Each holder features a reduced diameter central portion which functions to expose the luminal surface of the matrix for cell seeding and culturing.  Secondary elements or “paddles” moving with the scaffold holder produce continuous mixing of the culture medium to increase oxygenation and mass transport.
The cell/scaffold construct is rotated on the holder by a brushless DC motor (0-5 rpm adjustable) which is completely separated from the culture compartment.  A co-axial conduit links the inner chamber to the external environment through an interface at the chamber wall.  
The detachable connection between the motor unit and the culture chamber allows the latter to be removed for maintenance while the motor unit remains stationed in the incubator.  An external control unit regulates and monitors rotation. 
Autoclavability, ease of handling under sterile conditions, reliability and precision ensures full compatibility of the device with GLP rules.
Harvard Apparatus also has electrofusion, femtomole cell injectors and ventilation & anesthesia products to advance your cell and tissue engineering experimentation.
To receive a copy of the NEW Regenerative Medicine Catalog, go to http://www.harvardapparatus.com/

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