Method for assisting a sphincter

We claim: 1. A method of implanting a surgical implant, comprising: (a) obtaining the surgical implant configured to reinforce a sphincter to transition between an occluded state and an opened state, the surgical implant comprising: (i) an openable occlusion mechanism comprising an absorbable component and a non-absorbable component, and (ii) a plurality of magnets configured encourage the sphincter toward the occluded state; (b) obtaining an apparatus configured to deploy the surgical implant, (c) placing the implant on a distal end of the apparatus; (d) inserting an endoscope, the apparatus, and the implant into a biological lumen; and (f) radially expanding the openable occlusion mechanism to engage the sphincter. 2. The method of claim 1 , wherein the apparatus comprises: (a) a flexible shaft comprising a first proximal end and first a distal end, (b) an actuating sheath slidably disposed about the flexible shaft, the actuating sheath comprises a second proximal end and a second distal end, and (c) a pair of arms extending from the second distal end of the actuating sheath, wherein the pair of arms are configured to spread out in response to the actuating sheath sliding distally along the flexible shaft. 3. The method of claim 2 , wherein placing the implant on the distal end of the apparatus comprises placing the implant on the distal end of the flexible shaft such that the pair of arms are associated with the openable occlusion mechanism in a pre-deployed position. 4. The method of claim 3 , further comprising sliding the actuating sheath longitudinally such that the pair of arms expands, thereby expanding the openable occlusion mechanism. 5. The method of claim 3 , wherein the pair of arms are resiliently biased to spread out by a biasing member connecting the pair of arms with the actuating sheath. 6. The method of claim 5 , wherein the pair of arms are constrained from initially spreading out due to contact between the pair of arms and a pathway defined by the endoscope. 7. The method of claim 6 , further comprising actuating the pair of arms distally such that the pair of arms and biasing member are distal relative to the pathway of the endoscope. 8. The method of claim 1 , wherein the surgical implant further comprises an annular flange extending from the openable occlusion mechanism, wherein the annular flange bends relative to the openable occlusion mechanism from a first position to a second position, wherein the openable occlusion mechanism and the annular flange define a cavity in the first position. 9. The method of claim 8 , wherein the apparatus further comprises an inflatable bladder, wherein placing the implant on the distal end of the apparatus further comprises placing the inflatable bladder in the cavity while the annular flange is in the first position. 10. The method of claim 9 , further comprising inflating the inflatable bladder to drive the annular flange from the first position to the second position. 11. The method of claim 1 , wherein the plurality of magnets further comprises a plurality of flexible magnetic petals configured to magnetically bias toward each other. 12. The method of claim 1 , wherein the plurality of magnets further comprises a first annular array of magnetic elements housed within a first flexible elastomeric sheath. 13. The method of claim 12 , wherein the surgical implant further comprises a plurality of spacing members arranged between each magnetic element in the first annular array of magnetic elements. 14. The method of claim 12 , wherein the plurality of magnets further comprises a second annular array of magnetic elements housed within a second flexible elastomeric sheath, wherein the first flexible elastomeric sheath and second flexible elastomeric sheath form an annular seal at a juncture. 15. The method of 14 , wherein the first annular array of magnetic elements and the second annular array of magnetic elements are aligned to magnetically repel each other in a radial direction relative to a central axis. 16. A method of implanting a surgical implant, comprising: (a) obtaining the surgical implant configured to reinforce a sphincter to transition between an occluded state and an opened state, the surgical implant comprising: (i) an openable occlusion mechanism disposed about a central axis, the openable occlusion mechanism comprising an absorbable component and a non-absorbable component, wherein the openable occlusion mechanism is configured to expand from a pre-deployed position to a deployed position, (ii) an annular flange extending from the openable occlusion mechanism, wherein the annular flange is configured to fold relative to the openable occlusion mechanism from a first position to a second position, wherein the annular flange and the openable occlusion mechanism define a cavity when the annular flange is in the first position, and (iii) a plurality of magnets configured to encourage the sphincter toward the occluded state; (b) obtaining an apparatus configured to deploy the surgical implant, (c) placing the implant on a distal end of apparatus such that the openable occlusion mechanism is in the pre-deployed position and the annular flange is in the first position; (d) inserting an endoscope, the apparatus, and the implant into a biological lumen; and (e) deploying the implant within the biological lumen. 17. The method of claim 16 , wherein the apparatus comprises: (a) a flexible shaft comprising a first proximal end and first a distal end, (b) an actuating sheath slidably disposed about the flexible shaft, the actuating sheath comprises a second proximal end and a second distal end, (c) a pair of arms extending from the second distal end of the actuating sheath, wherein the pair of arms are configured expand relative to the actuating sheath from a constrained position to an expanded position in response to distal sliding of the actuating sheath relative to the flexible shaft, and (d) a pair of inflatable bladders associated with the pair of arms. 18. The method of claim 17 , wherein placing the implant on the distal end of the apparatus comprises placing the implant on the first distal end of the flexible shaft such that the pair of arms and the pair of inflatable bladders are within the cavity. 19. The method of claim 18 , wherein deploying the implant within the biological lumen further comprises: (a) sliding the actuating sheath longitudinally to expand the pair of arms from the constrained position to the expanded position to thereby expand the openable occlusion mechanism from the pre-deployed position to the deployed position such that the openable occlusion mechanism engages the biological lumen, and (b) inflating the pair of inflatable bladders to drive the annular flange from the first position to the second position such that annular flange engages the biological lumen. 20. A method of implanting a surgical implant, comprising: (a) obtaining the surgical implant configured to reinforce a sphincter to transition between an occluded state and an opened state, the surgical implant comprising: (i) an openable occlusion mechanism comprising an absorbable component and a non-absorbable component, and (ii) a plurality of magnets configured to encourage the sphincter toward the occluded state; (b) obtaining an apparatus configured to deploy the surgical implant, the apparatus comprising: (i) a flexible shaft comprising a first proximal end and first a distal end, (ii) an actuating sheath slidably disposed