Inflatable and detachable balloon, designed to be implanted in a body cavity, associated treatment kit and draining method

What is claimed is: 1. An inflatable balloon, designed to be implanted in a body cavity, comprising: a pouch formed of a sealed wall delimiting an internal space; a valve configured to fill the internal space with a fluid, wherein the valve is capable of being occluded after the internal space is filled; wherein the pouch delimits a fluid-draining orifice opening into the internal space, the balloon comprising an occluding ball that occludes the fluid-draining orifice, the occluding ball being capable of releasing the fluid-draining orifice under the effect of a magnetic field, so as to enable at least partial drainage of the fluid contained in the internal space, the occluding ball being movable along at least two distinct axes in relation to the pouch. 2. The balloon according to claim 1 , wherein the occluding ball is arranged in the internal space. 3. The balloon according to claim 2 , wherein the occluding ball is freely movable in the internal space defined by the pouch under the effect of the magnetic field. 4. The balloon according to claim 1 , wherein the occluding ball is capable of being held by magnetization in a position of occluding the fluid-draining orifice, the occluding ball being capable of being moved away from the fluid-draining orifice under the effect of a second magnetic field capable of overcoming the magnetization holding the occluding ball in the position of occluding the fluid-draining orifice. 5. The balloon according to claim 1 , comprising at least one retaining seat to retain the occluding ball, arranged near the fluid-draining orifice, the occluding ball cooperating by magnetization with the at least one retaining seat in a position that occludes the fluid-draining orifice. 6. The balloon according to claim 5 , wherein the at least one retaining seat is coated with a layer of flexible material, the occluding ball being arranged bearing on the layer of flexible material in the position that occludes the fluid-draining orifice. 7. The balloon according to claim 5 , wherein the at least one retaining seat is a ring mounted on the sealed wall around the fluid-draining orifice. 8. The balloon according to claim 1 , wherein the occluding ball is spherical in shape. 9. The balloon according to claim 1 , wherein the occluding ball is permanently magnetized. 10. The balloon according to claim 1 , wherein the occluding ball is capable of being moved into at least two distinct positions of releasing the fluid-draining orifice on two intersecting axes passing through the fluid-draining orifice. 11. The balloon according to claim 1 , wherein the sealed wall of the pouch is made of a polymer chosen from silicone, latex, polyurethane and/or polyisoprene. 12. The balloon according to claim 1 , wherein the fluid-draining orifice is defined by the valve, the occluding ball being capable of closing the valve after the internal space has been filled. 13. The balloon according to claim 1 , wherein the filling valve comprises a guiding ring to guide a tube for inflating the balloon, the guiding ring and/or the occluding ball having a biocompatible coating. 14. The balloon according to claim 1 , wherein the occluding ball is polyhedral in shape. 15. A patient treatment kit comprising: the balloon according to claim 1 ; a balloon inflation and deployment device, comprising a balloon support guide, the balloon being mounted in a releasable manner on the support guide, and a balloon inflation tube, capable of being inserted in a releasable manner into the filling valve. 16. A method of draining the balloon according to claim 1 , the balloon being implanted in a body cavity, the internal space of the balloon containing the fluid, the occluding ball occluding the fluid-draining orifice, the method comprising: subjecting the balloon to an external magnetic field, in at least one first direction (H 1 ); moving the occluding ball along at least one axis under the effect of the external magnetic field in order to release the fluid-draining orifice; at least partially draining the fluid contained in the internal space through the fluid-draining draining orifice. 17. The method according to claim 16 , further comprising subjecting the balloon to a second external magnetic field, in at least one second direction (H 2 ), distinct from the first direction (H 1 ). 18. The method according to claim 16 , wherein the external magnetic field, in the first direction, is produced by a nuclear magnetic resonance machine. 19. The method according to claim 17 , wherein the second external magnetic field, in the second direction, is produced by a nuclear magnetic resonance machine.