Abstract: A medical device with an expandable element and slidable constraint of at least two portions surrounding the expandable element which slides away from the middle region and toward the distal and proximal ends of the expandable element upon expansion of the expandable element to influence the rate, shape and/or force required to expand the expandable element and methods for use in a body lumen are provided.

Abstract: Exposing nitinol to a shape setting temperature while the nitinol is in an unstrained or minimally strained condition. The nitinol is then substantially deformed in shape while at elevated temperature. After deformation, the nitinol remains at the elevated temperature for a time to shape set the material. The nitinol is then returned to approximately room temperature 20° C. by means of water quenching or air cooling for example.

Abstract: Exposing nitinol to a shape setting temperature while the nitinol is in an unstrained or minimally strained condition. The nitinol is then substantially deformed in shape while at elevated temperature. After deformation, the nitinol remains at the elevated temperature for a time to shape set the material. The nitinol is then returned to approximately room temperature 20° C. by means of water quenching or air cooling for example.

Abstract: Exposing nitinol to a shape setting temperature while the nitinol is in an unstrained or minimally strained condition. The nitinol is then substantially deformed in shape while at elevated temperature. After deformation, the nitinol remains at the elevated temperature for a time to shape set the material. The nitinol is then returned to approximately room temperature 20° C. by means of water quenching or air cooling for example.

Abstract: The present invention relates to methods of using medical cutting tools for treating aortic septal dissections.

Abstract: The present invention relates to methods of using medical cutting tools for treating aortic septal dissections.

Abstract: The present invention relates to methods of using medical cutting tools for treating aortic septal dissections.

Abstract: Reinforced angioplasty balloon having an external elastic sheath. The elastic sheath maintains, along its length, a substantially uniform circular cross-section during balloon inflation and forces a deflated balloon into a compacted, substantially circular, wingless profile.

Abstract: In accordance with various embodiments, an anchoring system for a medical device comprises one or more biased hooks. The one or more biased hooks may be formed by any suitable process. Moreover, the one or more biased hooks may be formed from a shape memory material. The anchoring system may be processed in any suitable way to provide a designed or predefined failure mode. This failure mode may be designed to protect or prevent damage to the medical device. The anchoring system may be configured with a plurality of hooks biased in various directions. Moreover, the anchoring system may be configured with a plurality of substantially small hooks configured to engage the anatomy at multiple points. As such, the anchoring systems may be customizable and provide for an implantable medical device with a reduced delivery geometry and/or deployment geometry.

Abstract: The present invention relates to methods of using medical cutting tools for treating aortic septal dissections.

Abstract: The present invention relates to methods of using medical cutting tools for treating aortic septal dissections.

Abstract: The present invention relates to medical cutting tools for treating aortic septal dissections. The cutting tool is provided with a delivery catheter and has a remotely actuated cutting blade or cutting wire component. The cutting tool is provided with at least one displacement element. The displacement element assists in placement of the cutting tool at a desired location. The displacement element also assists in maintaining contact between the cutting blade and tissue being cut.

Abstract: Exposing nitinol to a shape setting temperature while the nitinol is in an unstrained or minimally strained condition. The nitinol is then substantially deformed in shape while at elevated temperature. After deformation, the nitinol remains at the elevated temperature for a time to shape set the material. The nitinol is then returned to approximately room temperature 20° C. by means of water quenching or air cooling for example.

Abstract: A medical device with an expandable element and slidable constraint of at least two portions surrounding the expandable element which slides away from the middle region and toward the distal and proximal ends of the expandable element upon expansion of the expandable element to influence the rate, shape and/or force required to expand the expandable element and methods for use in a body lumen are provided.

Abstract: The present invention relates to methods of using medical cutting tools for treating aortic septal dissections.

Abstract: The present invention relates to medical cutting tools for treating aortic septal dissections. The cutting tool is provided with a delivery catheter and has a remotely actuated cutting blade or cutting wire component. The cutting tool is provided with at least one displacement element. The displacement element assists in placement of the cutting tool at a desired location. The displacement element also assists in maintaining contact between the cutting blade and tissue being cut.

Abstract: An elastic sheath designed to surround a conventional non-compliant angioplasty balloon. The elastic sheath incorporates a failure control mechanism that forces the sheath to fail concurrently with failure of the underlying angioplasty balloon. The elastic sheath ruptures rapidly and concurrently when the underlying balloon fails in an abrupt manner, with the rupture of the elastic sheath occurring over a relatively large area to significantly reduce the risk of damage to the adjacent vasculature.

Abstract: Reinforced angioplasty balloon having an external elastic sheath. The elastic sheath maintains, along its length, a substantially uniform circular cross-section during balloon inflation and forces a deflated balloon into a compacted, substantially circular, wingless profile.