A self-adjusting gastric band applies a substantially constant force to a patient's fundus in order to facilitate weight control. The self-adjusting gastric band is capable of automatically relaxing and contracting in response to changes in the patient's fundus or in response to a large bolus passin
A self-adjusting gastric band applies a substantially constant force to a patient's fundus in order to facilitate weight control. The self-adjusting gastric band is capable of automatically relaxing and contracting in response to changes in the patient's fundus or in response to a large bolus passing through the patient's fundus that is constricted by the gastric band. The self-adjusting gastric band is automatically adjustable without hydraulic fluid and without external physician intervention. The self-adjusting gastric band comprises a movable member and a biasing mechanism coupled to the movable member to facilitate applying the substantially constant force against the fundus as the fundus changes size, shape and/or position.
대표청구항▼
1. A mechanically self-adjusting, gastric band, which when banded assumes a ring configuration, the band constructed to be banded about a fundus, the self-adjusting gastric band comprising: a movable member, moveable in a radial direction when the band is in the ring configuration, for contacting th
1. A mechanically self-adjusting, gastric band, which when banded assumes a ring configuration, the band constructed to be banded about a fundus, the self-adjusting gastric band comprising: a movable member, moveable in a radial direction when the band is in the ring configuration, for contacting the fundus; anda spring biasing member for applying a substantially constant force in a radially inward direction to the moveable member, the biasing member automatically moving the movable member in the radially inward direction relative to the ring configuration, wherein the movable member self-adjusts radially in response to the biasing force applied by the spring biasing member as the fundus adjusts in size. 2. The self-adjusting gastric band of claim 1, wherein when the fundus increases in size as a large bolus enters the fundus, the movable member self-adjusts radially to a second position from an initial position in response to the biasing force applied by the spring biasing member and when the large bolus passes through the fundus, the moveable member self-adjusts radially to the initial position, wherein the movable member has substantially the same stiffness at the initial position and the second position. 3. The self-adjusting gastric band of claim 1, wherein a constriction formed by the band when the moveable member is at the first position is looser than a constriction formed by the band when the moveable member is at the second position. 4. The self-adjusting gastric band of claim 1, wherein the substantially constant force is in the range of about 0.05 to about 1.0 lbf. 5. The self-adjusting gastric band of claim 1, wherein the substantially constant force is about 0.25 lbf. 6. The self-adjusting gastric band of claim 1, wherein the movable member is a lobe comprising a rolling diaphragm extending from a surface of the self-adjusting gastric band. 7. The self-adjusting gastric band of claim 6, further comprising up to seven lobes. 8. The self-adjusting gastric band of claim 6, wherein the biasing mechanism is a near-constant force compression spring disposed within a cup proximate the rolling diaphragm, wherein the near-constant force compression spring abuts the surface of the band to facilitate moving the rolling diaphragm to impose a constriction. 9. The self-adjusting gastric band of claim 8, wherein the cup comprises a tab to prevent the near-constant force compression spring from expanding beyond a predetermined distance. 10. The self-adjusting gastric band of claim 1, wherein the movable member is a cup slidably coupled to a roller that is coupled to a ring of the self-adjusting gastric band. 11. The self-adjusting gastric band of claim 10, wherein the spring biasing member is a torsional spring coupled to the roller, and the torsional spring comprises ends that contact a back support of the ring to facilitate applying the substantially constant force to the movable member. 12. The self-adjusting gastric band of claim 11, wherein the cup slides toward the back support when a bolus enters the fundus. 13. The self-adjusting gastric band of claim 12, wherein a moment arm of the torsional spring increases as the cup slides toward the back support, wherein the increased moment arm facilitates maintaining the substantially constant force. 14. The self-adjusting gastric band of claim 12, further comprising a retaining ring circumferentially disposed about the self-adjusting gastric band, the retaining ring comprising a release tab abutting a tab on the spring holder for maintaining the spring holder in a preloaded position against the back support, and when the retaining ring rotates around the self-adjusting gastric band, the release tab slides past the spring holder tab to release the spring holder and the cup to facilitate the cup exerting the substantially constant force on the movable member. 15. The self-adjusting gastric band of claim 14, further comprising a latch mechanism having a male portion and a female portion, the male portion comprising a cam screw and the female portion comprising a slidable cylinder. 16. The self-adjusting gastric band of claim 15, wherein the cam screw comprises pins and the slidable cylinder comprises pin slots for receiving the pins when the cam screw is inserted into the slidable cylinder. 17. The self-adjusting gastric band of claim 16, wherein the slidable cylinder comprises a tab that abuts a retaining ring release tab on the retaining ring, wherein the cylinder tab pushes the retaining ring release tab to rotate the retaining ring when the cam screw is inserted into the slidable cylinder and slides the slidable cylinder within the female portion, the retaining ring releasing the cup as the retaining ring rotates. 18. The self-adjusting gastric band of claim 17, wherein the cam screw secures the male portion to the female portion to secure the self-adjusting band gastric band around the fundus when the cam screw rotates within the pin slots after rotating the retaining ring. 19. The self-adjusting gastric band of claim 1, wherein the movable member is a vertical cup disposed circumferentially about the self-adjusting gastric band, and wherein the spring biasing member is a compression spring coupled to a back support on a ring of the self-adjusting gastric band, the compression spring providing the substantially constant force against the cup and the fundus. 20. The self-adjusting gastric band of claim 19, further comprising a retaining ring circumferentially disposed around the self-adjusting gastric band to release the cup from a preloaded position against the back support when the retaining ring rotates with respect to the self-adjusting gastric band. 21. The self-adjusting gastric band of claim 2, wherein the movable member is a rotatable finger coupled to a pivot on a ring of the self-adjusting gastric band, the rotatable finger rotating counter-clockwise to apply the first constriction and rotating clockwise to apply the second constriction in response to the large bolus entering the fundus. 22. The self-adjusting gastric band of claim 21, wherein the spring biasing member is a leaf spring coupled to the ring, the leaf spring biasing the rotatable finger toward the fundus at the substantially constant force. 23. The self-adjusting gastric band of claim 22, wherein a lever arm of the leaf spring increases as the rotatable finger rotates to maintain the substantially constant force. 24. The self-adjusting gastric band of claim 22, further comprising a second leaf spring, the leaf spring and the second leaf spring biasing the rotatable finger toward the fundus. 25. The mechanically self-adjusting gastric band according to claim 1, wherein the movable member extends from an inner surface of the gastric band. 26. The mechanically self-adjusting gastric band according to claim 25, comprising a plurality of movable members, wherein when the gastric band is placed around the fundus, the movable members are disposed circumferentially around the inner surface of the gastric band. 27. The self-adjusting gastric band of claim 1, further comprising a plurality of the moveable members and a plurality of the spring biasing members, each biasing member corresponding to a moveable member. 28. A mechanically self-adjusting, gastric band, which when banded assumes a ring configuration in which the band has a radially inner surface and a radially outer surface, the band constructed to be banded about a fundus, the self-adjusting gastric band comprising: a lobe, extending from the radially inner surface and moveable in a radial direction when the band is in the ring configuration, for contacting the fundus, wherein the lobe includesi. a rolling diaphragm coupled to the radially inner surface of the band;ii. a cup disposed between the diaphragm and the radially inner surface of the band;iii. a near-constant force compression spring disposed within the cup and contacting the radially inner surface of the band, wherein the diaphragm, cup, and spring are constructed to move in a radial direction relative to the ring configuration, the spring constructed to apply a substantially constant force to the cup and the diaphragm, the near-constant force compression spring automatically moving the cup and the rolling diaphragm in the radial direction relative to the ring configuration, wherein the cup and the rolling diaphragm self-adjust radially in response to the biasing force applied by the spring as the fundus adjusts in size. 29. The mechanically self-adjusting gastric band according to claim 28, comprising a plurality of lobes, wherein when the gastric band is banded around the fundus in the ring configuration, the lobes are disposed circumferentially around the radially inner surface of the gastric band. 30. The gastric band of claim 28, further comprising a plurality of the lobes spaced circumferentially around the radially inner surface.
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