The present disclosure describes implantable medical devices comprising covers, such as a balloon cover. Such devices can comprise a first layer of a porous polymeric material, such as ePTFE, surrounded by layers of a porous polymeric material having an imbibed elastomer, such as polyurethane. The cover can be used to assist in deployment of an expandable implant, such as a stent-graft, within the body of the patient.

A balloon catheter includes a balloon/shaft assembly and a linear member. The balloon/shaft assembly includes a catheter shaft extending from a proximal end to a distal end and a balloon connected to the catheter shaft. The linear member straddles an inflatable region of the balloon and is mounted on the balloon/shaft assembly. The linear member includes a hard portion and a flexible portion. The hard portion includes at least an outer portion disposed on an opposite side to an inner portion facing the inflatable region, of a portion disposed along an outer peripheral surface of the inflatable region in an inflated state. The flexible portion is a portion other than the hard portion. The flexible portion is extendable and has a lower hardness than the hard portion.

A balloon wrapping apparatus and a balloon wrapping method are disclosed by which a balloon can be accurately positioned in relation to a pleating section and to a folding section. The balloon wrapping apparatus for wrapping a balloon of a balloon catheter provided with the balloon at a distal portion of an elongated shaft includes: a pleating section having a plurality of blades aligned with space parts therebetween in a circumferential direction, and forms the balloon with wing shapes projecting in radial directions by clamping the balloon in the space parts by moving rotationally the blades; and a folding section having a plurality of blades aligned in a circumferential direction, and that folds the wing shapes formed in the balloon in the circumferential direction by moving rotationally the blades; and a support base that supports a part of the shaft which part is on a proximal side of the balloon.

The present disclosure describes implantable medical devices comprising covers, such as a balloon cover. Such devices can comprise a first layer of a porous polymeric material, such as ePTFE, surrounded by layers of a porous polymeric material having an imbibed elastomer, such as polyurethane. The cover can be used to assist in deployment of an expandable implant, such as a stent-graft, within the body of the patient.

A drug transfer device and a method for forming a drug layer are disclosed, which can quickly and easily provide an appropriate amount of a drug on a surface of a medical instrument. The drug transfer device is configured to transfer a drug to a surface of a balloon, the drug transfer device including a heat-shrinkable tube, and a drug layer provided on an inner surface of the heat-shrinkable tube.

Provided are a drug layer applying device and a method for forming a drug layer which can quickly and easily apply or provide an appropriate amount of a drug on a surface of a medical instrument such as a balloon. A drug layer applying device that applies a drug layer on a surface of a balloon to be inserted into a living body, includes: a deformable porous body capable of holding a coating solution containing a drug and a solvent; a removal unit that is flexibly deformable and arranged alongside the porous body; and a holding base that holds the porous body and the removal unit.

The various embodiments of the subject invention included herein provide devices, systems and methods for aiding the regrooming or refolding of balloons upon deflation. The scope of the inventions in this specification includes methods and devices that reduce the profile of balloons after deflation, reduce or eliminate wings, high-points, irregularities, bunching, thickening, and the like, and facilitate passage of a deflated balloon through a body void or lumen, or through a medical device such as a guide catheter, guide sheath, femoral or radial introducer sheath, and the like.

This disclosure is directed to a rewrapping tool (20) for returning a balloon of a dilatation catheter to a wrapped profile following inflation. The tool includes a body (22) extending along a longitudinal axis L-L defining a first lumen (24) and a channel (28) communicating along the length of the first lumen. The channel is to be slid over a catheter shaft of the dilatation catheter at a position proximal to the balloon so that the catheter shaft is coaxial with the first lumen and the catheter shaft may be pulled in a proximal direction so that the balloon is drawn through the first lumen to return the balloon to a wrapped profile.

A catheter for ablating tissue is provided. The catheter comprises an elongated generally-tubular catheter body having proximal and distal ends. An electrode assembly is provided at the distal end of the catheter body. The electrode assembly including a porous electrode arrangement that is generally transverse to the catheter body. The porous electrode arrangement comprises one or more electrodes electrically connected to a suitable energy source and a porous sleeve mounted in surrounding relation to the one or more electrodes and defining an open space between the porous sleeve and the one more electrodes. One or more irrigation openings fluidly connect the open space to a lumen extending through the catheter through which fluid can pass. In use, fluid passes through the lumen in the catheter, through the one or more irrigation openings, into the open space and through the porous sleeve.

The invention relates to a method for producing a catheter (1) having a proximal segment, a distal segment, and an expandable element (2) arranged in the distal segment, it being possible to bring the expandable element (2) from a contracted state into an expanded state by supply of a fluid and there being arranged around the expandable element (2) in the contracted state a removable protector in the form of a tube (5), and the tube (5) being pulled over the expandable element (2) and being guided with the catheter (1) through one or more nozzles (6), stretching the tube (5) and reducing the inner diameter of the tube (5). Furthermore, the invention relates to a corresponding catheter (1) having a tube (5) pulled over the expandable element (2). The invention provides a catheter (1) having a particularly small cross section in the region of the distal segment.