Systems for leak testing a valved conduit

What is claimed is: 1. A valved conduit leak testing system, the valved conduit comprising a tubular graft portion and a one-way valve attached to a second end of the graft portion, the one-way valve permitting flow from the second end to an opposite first end but preventing flow in the opposite direction, wherein the valved conduit includes a resilient sealing ring adjacent the one-way valve which extends radially outward from the graft portion, comprising: a manifold assembly mounted on a common support base including a pair of spaced apart first and second manifolds each having structure for clamping and sealing onto an opposite end of the valved conduit including on one manifold a pair of rigid clamps sized and shaped to axially compress the sealing ring, wherein the first manifold is fixed with respect to the support base and the second manifold is mounted on the support base for movement toward and away from the first manifold, and wherein one of the first and second manifolds has gas flow passages between an external fitting and an internal port that opens to an interior of the valved conduit when clamped thereon; a gas delivery hose connected to the external fitting; and a gas pressure controller to which the gas delivery hose attaches and which has a fitting for connection to a source of pressurized gas, the controller having sensors for measuring the pressure in the gas delivery hose and an output for the measured pressure. 2. The system of claim 1 , wherein the manifold that has gas flow passages is the first manifold and includes a first mandrel around which the valved conduit fits and that terminates in the internal port within the valved conduit, and the second manifold has a second mandrel around which the valved conduit fits and that has no gas flow passages. 3. The system of claim 2 , wherein the second manifold has the pair of rigid clamps sized and shaped to axially compress the sealing ring. 4. The system of claim 1 , wherein the structure for clamping and sealing includes flow channels through both manifolds from external fittings, each manifold having an internal piston arranged to be displaced toward the valved conduit when pressurized gas is introduced to the respective flow channels, and the structure includes an elastomeric ring that is compressed by piston displacement and positioned to expand inward and clamp and seal the valved conduit against a rigid mandrel provided within the valved conduit. 5. The system of claim 1 , wherein the valved conduit is adapted to be implanted at the aortic valve and the sealing ring has a peripheral shape that undulates so as to mimic the aortic annulus, and the rigid clamps each have facing clamp surfaces that undulate to match the contours of the sealing ring. 6. The system of claim 5 , wherein the structure for clamping and sealing includes flow channels through both manifolds from external fittings, each manifold having an internal piston arranged to be displaced toward the valved conduit when pressurized gas is introduced to the respective flow channels, the piston in the manifold that receives the second end of the graft configured to contact one of the rigid clamps and compress it against the other, and the structure on the manifold that receives the first end of the graft includes an elastomeric ring that is compressed by piston displacement and positioned to expand inward and clamp and seal the graft against a rigid mandrel provided within the valved conduit. 7. The system of claim 1 , wherein the manifold that has gas flow passages is the first manifold and includes a first mandrel around which the valved conduit fits and that terminates in the internal port within the valved conduit, and a gas meter fluidly coupled to the internal port, the gas meter suitable for determining at least one of a gas flow rate or a gas pressure. 8. The system of claim 1 , wherein the gas pressure controller is fluidly coupled to the internal port, and the gas pressure controller is suitable for controlling a pressure of a testing gas. 9. The system of claim 1 , wherein each of the first and second manifolds comprises a piston disposed in a chamber therein, the piston is reversibly displaceable within the chamber between a first position and a second position, wherein in the first position, the respective end of the valved conduit is not sealingly clamped to the respective manifold and in the second position, the respective end of the valved conduit is sealingly clamped to the respective manifold. 10. The system of claim 9 , wherein the second manifold has the pair of rigid clamps sized and shaped to axially compress the sealing ring, and wherein: the pair of rigid clamps include a first end clamp and a second end clamp, the first end clamp and the second end clamp dimensioned to receive the sealing ring of the valved conduit therebetween, and when the piston is in the second position, the piston urges the first end clamp and the second end clamp together to sealingly clamp the sealing ring to the second manifold. 11. A valved conduit leak testing system, the valved conduit comprising a tubular graft portion and a one-way valve attached to a second end of the graft portion, the one-way valve permitting flow from the second end to the first end but preventing flow in the opposite direction, comprising: a manifold assembly including a first manifold spaced from a second manifold, each of the first and second manifolds adapted to sealingly clamp onto an opposite end of the valved conduit around a respective mandrel, the first manifold fluidly coupling a lumen of the valved conduit through a first mandrel to a testing gas port when the valved conduit is sealingly clamped thereto, wherein the first end and the second end of the valved conduit are movable relative to each other, and wherein one of the manifolds has gas flow passages between an external fitting and an internal port that opens to the lumen of the valved conduit when clamped thereon wherein at least one of the first and second manifolds is moveable towards and away from the other of the first and second manifolds; and a gas meter fluidly coupled to the testing gas port, the gas meter suitable for determining at least one of a gas flow rate or a gas pressure. 12. The system of claim 11 , wherein the gas meter includes a mass flow meter. 13. The system of claim 11 , further comprising a pressure controller fluidly coupled to the testing gas port, the pressure controller suitable for controlling a pressure of a testing gas. 14. The system of claim 11 , wherein each of the first and second manifolds comprises a piston disposed in a chamber therein, the piston is reversibly displaceable within the chamber between a first position and a second position, wherein in the first position, the respective end of the valved conduit is not sealingly clamped to the respective manifold and in the second position, the respective end of the valved conduit is sealingly clamped to the respective manifold. 15. The system of claim 14 , wherein at least one of the first and second manifolds includes a mandrel, a portion of which is dimensioned to receive the respective end of the valved conduit and an elastomeric clamping ring disposed around the portion of the mandrel, when the piston in the first position, the elastomeric clamping ring is radially spaced from the portion of the mandrel by a first distance, when the piston in the second position, the piston compresses the elastomeric clamping ring, urging the elastomeric clamping ring radially towards the portion of the mandrel to a radial space of a second distance, and the