Method of implanting an intragastric balloon

We claim: 1. A method of preparing an inflatable medical implant for inflation, comprising: providing an inflatable implant formed of a flexible polymer material suitable for residence in the body, the inflatable implant including a slit valve provided in a wall of the flexible polymer material comprising an elastomeric valve body defining proximal and distal ends, the proximal end of the valve body having a proximal opening therein, an open internal chamber formed within the valve body being in open fluid communication with the proximal opening, the internal chamber having a concave section at its distal end, and a normally closed slit formed in a portion of the valve body connecting the concave section of the internal chamber and the distal end of the valve body; providing a filler tube having a lumen therethrough, the filler tube defining an injection tip having a distal end, the injection tip further including an insertion stop located proximal to the distal end of the injection tip; and inserting the filler tube through the proximal opening of the valve body until the insertion stop positively engages the valve body and the injection tip positively engages a portion of the internal chamber to form a first fluid seal proximal to and spaced apart from the concave section such that the distal end of the injection tip is proximally spaced from the slit valve; and wherein when fluid is introduced through the filler tube into the internal chamber at a threshold pressure differential across the slit, the slit is caused to open and permit fluid to pass distally therethrough into the inflatable implant. 2. The method of claim 1 , wherein the injection tip further includes a reduced diameter portion located between the distal end thereof and the insertion stop, the proximal opening of the valve body being sized to form a second fluid seal against the reduced diameter portion of the injection tip. 3. The method of claim 1 , further comprising delivering the inflatable implant with the filler tube inserted in the valve body to a body cavity. 4. The method of claim 3 , wherein the inflatable implant is a gastric balloon and the flexible polymer material is suitable for residence in the stomach, and wherein the step of delivering the inflatable implant includes passing it through the esophagus. 5. The method of claim 1 , wherein the injection tip is tapered at its distal end. 6. The method of claim 1 , further comprising: introducing fluid through the filler tube into the internal chamber until a threshold pressure differential across the slit causes the slit to open and permit fluid to pass distally therethrough into the inflatable implant. 7. The method of claim 6 , further comprising: before the step of introducing, delivering the inflatable implant with the filler tube engaged within the valve body to a body cavity. 8. The method of claim 7 , wherein the body cavity is the stomach. 9. A method of preparing an inflatable medical implant for inflation, comprising: providing an inflatable implant formed of a flexible polymer material suitable for residence in the body, the inflatable implant including a slit valve provided in a wall of the flexible polymer material, the slit valve comprising an elastomeric valve body defining proximal and distal ends, the proximal end of the valve body having a proximal opening therein, an open internal chamber formed within the valve body being in open fluid communication with the proximal opening, the internal chamber having a concave section at its distal end, and a normally closed slit formed in a portion of the valve body connecting the concave section of the internal chamber and the distal end of the valve body; providing a filler tube having a lumen therethrough, the filler tube defining a relatively enlarged injection tip with a tapered distal end, the injection tip further including an insertion stop located proximal to the distal end of the injection tip, and a reduced diameter portion located between the distal end of the injection tip and the insertion stop; and inserting the filler tube through the proximal opening of the valve body until the insertion stop positively engages the valve body and the injection tip positively engages a portion of the internal chamber to form a first fluid seal proximal to and spaced apart from the concave section such that the distal end of the injection tip is proximally spaced from the slit valve, wherein when fluid is introduced through the filler tube into the internal chamber at a threshold pressure differential across the slit, the slit is caused to open and permit fluid to pass distally therethrough into the inflatable implant. 10. The method of claim 9 , wherein the distal end of the filler tube remains spaced from the concave section of the internal chamber when the first fluid seal is formed. 11. The method of claim 9 , further comprising: introducing fluid through the filler tube into the internal chamber until a threshold pressure differential across the slit causes the slit to open and permit fluid to pass distally therethrough into the inflatable implant. 12. The method of claim 11 , further comprising: before the step of introducing, delivering the inflatable implant with the filler tube engaged within the valve body to a body cavity. 13. The method of claim 12 , wherein the inflatable implant is a gastric balloon and the flexible polymer material is suitable for residence in the stomach, and wherein the step of delivering the inflatable implant includes passing it through the esophagus. 14. The method of claim 11 , further comprising: withdrawing the filler tube from the inflatable implant. 15. A method of preparing an inflatable medical implant for inflation, comprising: providing an inflatable implant formed of a flexible polymer material suitable for residence in the body, the inflatable implant including a slit valve provided in a wall of the flexible polymer material comprising an elastomeric valve body defining proximal and distal ends, the proximal end of the valve body having a proximal opening therein, an open internal chamber formed within the valve body being in open fluid communication with the proximal opening, the internal chamber having a concave section at its distal end, and a normally closed slit formed in a portion of the valve body connecting the concave section of the internal chamber and the distal end of the valve body; providing a filler tube having a lumen therethrough, the filler tube defining an injection tip having a distal end, the injection tip further including an insertion stop located proximal to the distal end of the injection tip and a reduced diameter portion located between the distal end of the injection tip and the insertion stop, the proximal opening of the valve body being sized to form a first fluid seal against the reduced diameter portion of the injection tip; and inserting the filler tube through the proximal opening of the valve body until the injection tip positively engages a portion of the internal chamber to form a second fluid seal proximal to and spaced apart from the concave section; and wherein when fluid is introduced through the filler tube into the internal chamber at a threshold pressure differential across the slit, the slit is caused to open and permit fluid to pass distally therethrough into the inflatable implant.