초록 ▼

A microprocessor controlled and instrumented bioreactor for conditioning intravascular tissue engineered medical products. One bioreactor design including an integrated pump to provide a relatively small volume of fluid nutrient. The microprocessor control providing measurement and control of the fl

A microprocessor controlled and instrumented bioreactor for conditioning intravascular tissue engineered medical products. One bioreactor design including an integrated pump to provide a relatively small volume of fluid nutrient. The microprocessor control providing measurement and control of the fluid flow and tissue displacement and subsequent determination of material properties. One design includes a flexible joint providing motion of the treated tissue in the axial, bending and torsional direction.

대표청구항 ▼

What is claimed is: 1. A bioreactor for conditioning tissue, comprising: a bioreactor chamber, the bioreactor chamber including at least one clamp for holding the tissue; a dynamic flow pump for providing dynamic nutrient fluid flow across a surface of the tissue; a mean flow pump for providing mea

What is claimed is: 1. A bioreactor for conditioning tissue, comprising: a bioreactor chamber, the bioreactor chamber including at least one clamp for holding the tissue; a dynamic flow pump for providing dynamic nutrient fluid flow across a surface of the tissue; a mean flow pump for providing mean nutrient fluid flow across a surface of the tissue; one or more sensors for measuring real time mechanical response of the tissue to conditioning; and a microprocessor control for providing real time monitoring and control of sample tissue conditioning, including selective real time adjustment or alteration of mechanical conditioning parameters for the tissue within the bioreactor chamber, wherein the microprocessor control is in communication with the one or more sensors and adapted to selectively programmably adjust or alter conditioning parameters based on variations of the mechanical response and sensed conditions of the tissue and bioreactor conditions as measured by the one or more sensors. 2. The bioreactor of claim 1, wherein at least one clamp is a soft clamp. 3. The bioreactor of claim 1, wherein The dynamic flow pump is a linear motor driven dynamic pump. 4. The bioreactor of claim 1, wherein the dynamic flow pump is a servomotor driven pump. 5. The bioreactor of claim 1, wherein the dynamic flow pump is a voice coil driven dynamic pump. 6. The bioreactor of claim 1, wherein the dynamic flow pump is a piezo-driven dynamic pump. 7. The bioreactor of claim 1, wherein the dynamic flow pump is a stepper motor driven dynamic pump. 8. The bioreactor of claim 1, wherein the dynamic flow pump is a solenoid driven dynamic pump. 9. The bioreactor of claim 1, wherein the dynamic flow pump is a pneumatic driven dynamic pump. 10. The bioreactor of claim 1, wherein the dynamic flow pump is a servohydraulic driven dynamic pump. 11. The bioreactor of claim 1, wherein the dynamic flow pump is a cam driven dynamic pump. 12. The bioreactor of claim 1, wherein the dynamic flow pump is a linear motor driven dynamic pump. 13. The bioreactor of claim 1, wherein the microprocessor control controls at least partially based on inputs from a control software. 14. The bioreactor of claim 1, wherein the microprocessor control includes pressure monitoring means. 15. The bioreactor of claim 1, wherein said one or more sensors include a load sensor and wherein the microprocessor control includes load monitoring and control means. 16. The bioreactor of claim 1, wherein said one or more sensors include a tissue displacement sensor and wherein the microprocessor control includes tissue displacement monitoring and control means. 17. The bioreactor of claim 1, wherein said one or more sensors include a load sensor and wherein the microprocessor control includes tissue stress and strain monitoring and control means. 18. The bioreactor of claim 1, wherein the microprocessor control includes fluid flow monitoring means. 19. The bioreactor of claim 1, wherein the microprocessor control is able to make adjustments to control of conditions for the tissue within the bioreactor chamber using monitored inputs and a program or algorithm that has been programmed into the microprocessor control by the user. 20. The bioreactor of claim 1, further including a first velocity sensor and a second velocity sensor, the first velocity sensor situated in the bioreactor chamber such that it is in-line to an output for the tissue to be conditioned, the second velocity sensor situated in the bioreactor chamber such that it is in-line to an input for the tissue to be conditioned. 21. The bioreactor of claim 1, wherein the first velocity sensor and the second velocity sensor are configured to provide signals to measure flow in the bioreactor at locations configured for the input and output of the tissue to be conditioned. 22. The bioreactor of claim 1, further comprising a second bioreactor chamber having a second mean flow pump and a second dynamic flow pump. 23. The bioreactor of claim 22, wherein the dynamic pump and the second dynamic pump are driven by a linear motor. 24. The bioreactor of claim 23, wherein the linear motor activates the dynamic pump by a lever arm, and the linear motor activates the second dynamic pump by a second lever arm. 25. The bioreactor of claim 24, wherein the lever arm has a movable pivot at one end of the lever arm. 26. The bioreactor of claim 24, wherein the lever arm has a movable pivot at one end of the lever arm, and the second lever arm has a movable pivot at one end of the second lever arm. 27. The bioreactor of claim 24, wherein the lever arm and the second lever arm are coupled to the linear motor by hinged pivots. 28. The bioreactor of claim 1 wherein the dynamic flow pump is a moving magnet driven dynamic pump. 29. The bioreactor of claim 1, wherein the microprocessor control includes linear motor displacement monitoring means. 30. The bioreactor of claim 1 wherein the dynamic flow pump is integrated with the bioreactor chamber. 31. The bioreactor of claim 1 wherein the mean flow pump is integrated with the bioreactor chamber. 32. The bioreactor of claim 1 wherein both the dynamic flow pump and the mean flow pump are integrated with the bioreactor chamber. 33. A bioreactor for conditioning tissue, comprising: a bioreactor chamber, the bioreactor chamber including at lease one clamp for holding the tissue; a dynamic flow pump for providing dynamic nutrient fluid flow across a surface of the tissue; a mean flow pump for providing mean nutrient fluid flow across a surface of the tissue; one or more sensors for measuring real time response of the tissue to conditioning; a microprocessor control for providing real time monitoring and control of sample tissue conditioning, including adjustment of conditioning parameters for the tissue within the bioreactor chamber, wherein the microprocessor control is in communication with the one or more sensors and adapted to programmably adjust conditioning parameters based on the mechanical response and variations of sensed conditions of the tissue and bioreactor conditions as measured by the one or more sensors; and a first reference tube and a second reference tube, the first reference tube coupled to the bioreactor chamber and configured to be coupled to and in-line with one end of the tissue to be conditioned, the second reference tube coupled to the bioreactor chamber and configured to be coupled to and in-line with another end of the tissue to be conditioned. 34. The bioreactor of claim 33, wherein the first and second reference tubes are tubes of calibrated known compliance. 35. The bioreactor of claim 33, wherein the first and second reference tubes are tubes coupled with plastic tie wraps. 36. The bioreactor of claim 33, further including pressure measuring means external to the bioreactor chamber for measuring a diametral dilation of the first and second reference tubes. 37. A bioreactor for treatment of tissue, comprising: a plurality of ports; a bioreactor chamber for holding the tissue; a dynamic flow pump to dynamically pump fluids through or about the tissue; a mean flow pump to pump fluids through or about the tissue; a first manifold connected to the chamber at one end and a flexible joint connected to the other end; a second manifold connected to the flexible joint; a plurality of linear motors for actuating the second manifold with respect to the first manifold and adapted to controllably impart axial and shearing strain to the tissue; one or more rotary motors adapted to actuate the second manifold with respect to the first manifold to impart torsional strain to the tissue; a plurality of sensors for measuring various pressures and temperatures within the bioreactor; and a control including a microprocessor for controlling fluid flows and motion of the plurality of linear motors and the one or more rotary motors, the control in communication with the plurality of sensors and adapted to programmably adjust a conditioning sequence on a real time basis based on the mechanical response and variations of conditions of the tissue including sensing mechanical conditions and bioreactor conditions as measured by the one or more of the plurality of sensors on a real time basis. 38. The bioreactor of claim 37 wherein the dynamic flow pump is integrated with the bioreactor chamber. 39. The bioreactor of claim 37 wherein both the dynamic flow pump and the mean flow pump are integrated with the bioreactor chamber. 40. A bioreactor for conditioning tissue, comprising: a bioreactor chamber, the bioreactor chamber including at least one clamp for holding the tissue; a mean flow pump and a dynamic flow pump to provide dynamic nutrient fluid flow across a surface of the tissue; microprocessor control means for measuring fluid flow in the bioreactor chamber and for measuring response of the tissue; and a first reference tube and a second reference tube, the first reference tube coupled to the bioreactor chamber and configured to be coupled to and in-line with one end of the tissue to be conditioned, the second reference tube coupled to the bioreactor chamber and configured to be coupled to and in-line with another end of the tissue to be conditioned, wherein the microprocessor control means provides real time monitoring and control of conditions for the tissue within the bioreactor chamber. 41. The bioreactor of claim 40, wherein the first and second reference tubes are tubes of calibrated known compliance. 42. The bioreactor of claim 40, wherein the first and second reference tubes are tubes coupled with plastic tie wraps. 43. The bioreactor of claim 40, further including pressure measuring means external to the bioreactor chamber for measuring a diametral dilation of the first and reference tubes.