Abstract: Bioreactors and components of bioreactors are described as may be beneficially utilized in development and conditioning of cellular materials for study or implant. The bioreactors are modular, and components of the bioreactors can be easily assembled with alternatives provided to develop specific, predetermined conditioning environments for cellular materials (e.g., implantable tissue). By selection of one of multiple alternative compliance chambers, a bioreactor can be utilized to condition tissue in a low-pressure circuit (e.g., a pulmonary heart circuit), and by utilization of an alternative compliance chamber, the bioreactor can instead condition tissue in a high-pressure circuit (e.g., an aortic heart circuit).

Abstract: Bioreactors and components of bioreactors are described as may be beneficially utilized in development and conditioning of cellular materials for study or implant. The bioreactors are modular, and components of the bioreactors can be easily assembled with alternatives provided to develop specific, predetermined conditioning environments for cellular materials (e.g., implantable tissue). By selection of one of multiple alternative compliance chambers, a bioreactor can be utilized to condition tissue in a low-pressure circuit (e.g., a pulmonary heart circuit), and by utilization of an alternative compliance chamber, the bioreactor can instead condition tissue in a high-pressure circuit (e.g., an aortic heart circuit).

Abstract: Bioreactors and components of bioreactors are described as may be beneficially utilized in development and conditioning of cellular materials for study or implant. The bioreactors are modular and components of the bioreactors can be easily assembled with alternatives provided to develop specific, predetermined conditioning environments for cellular materials (e.g., implantable tissue). By selection of one of multiple alternative compliance chambers, a bioreactor can be utilized to condition tissue in a low pressure circuit (e.g., a pulmonary heart circuit), and by utilization of an alternative compliance chamber, the bioreactor can instead condition tissue in a high pressure circuit (e.g., an aortic heart circuit).

Abstract: Tissue holders that can be used for gripping natural or synthetic heart valves are described. The tissue holder can include a clamping mechanism and a spring and can be self-adjusting with regard to pressure applied to the tissue gripped in the holder. The tissue holder can be removably attached to systems for processing the tissues and can provide completely hands-free processing of a tissue from development or excisement to implantation and/or completion of testing.

Abstract: Tissue holders that can be used for gripping natural or synthetic heart valves are described. The tissue holder can include a clamping mechanism and a spring and can be self-adjusting with regard to pressure applied to the tissue gripped in the holder. The tissue holder can be removably attached to systems for processing the tissues and can provide completely hands-free processing of a tissue from development or excisement to implantation and/or completion of testing.

Abstract: Tissue holders that can be used for gripping natural or synthetic heart valves are described. The tissue holder can include a clamping mechanism and a spring and can be self-adjusting with regard to pressure applied to the tissue gripped in the holder. The tissue holder can be removably attached to systems for processing the tissues and can provide completely hands-free processing of a tissue from development or excisement to implantation and/or completion of testing.

Abstract: Bioreactors and components of bioreactors are described as may be beneficially utilized in development and conditioning of cellular materials for study or implant. The bioreactors are modular and components of the bioreactors can be easily assembled with alternatives provided to develop specific, predetermined conditioning environments for cellular materials (e.g., implantable tissue). By selection of one of multiple alternative compliance chambers, a bioreactor can be utilized to condition tissue in a low pressure circuit (e.g., a pulmonary heart circuit), and by utilization of an alternative compliance chamber, the bioreactor can instead condition tissue in a high pressure circuit (e.g., an aortic heart circuit).

Abstract: Tissue holders that can be used for gripping natural or synthetic heart valves are described. The tissue holder can include a clamping mechanism and a spring and can be self-adjusting with regard to pressure applied to the tissue gripped in the holder. The tissue holder can be removably attached to systems for processing the tissues and can provide completely hands-free processing of a tissue from development or excisement to implantation and/or completion of testing.

Abstract: The invention relates to a device for continuously mixing ingredients of a flour-and-water-based food dough comprising two mixing tools rotatably mounted one above the other about an axis of rotation, wherein the top tools is embodied in the form of a helix extending in a substantially perpendicular direction to said axis of rotation in such a way that the ingredient mixture is produced, the lower tool comprises at least one radial arm provided with a leading surface inclined with respect to the axis of rotation and an enclosure is provided with a mixed dough discharge opening which is arranged in the peripheral side part of a mixing space and in front of the lower tool.