The present disclosure relates to methods for embedding drug molecules into medical catheters, tubes, and other medical devices. The catheter, tube, or other medical device is capable of releasing drugs for extended periods of time. Drugs can be loaded into the wall thereof through diffusion from a solution, e.g., loading solution. A counterintuitive approach of using undissolved drug particulates in the solution is employed in some embodiments. The drug in the wall of the device and in the solution (which when stored may be referred to as a storage solution) can be in dynamic equilibrium, yielding stable and easy-to-manufacture products. Heat can be used to significantly speed up the drug loading.

An introducer sheath (10) comprises a tubular body (11) with a distal portion (12) and a proximal portion (13), the proximal portion (13) being configured to be inserted into the patient's body. Introducer sheath can be separated along its length in a longitudinal direction. The introducer sheath (10) further comprises at least a first handle (15) which is pivotable about a fulcrum (21). The first handle (15) has a first end portion (151) and a free second end portion (152) so as to form a lever, such that pivoting the handle (15) about the fulcrum (21) causes a contacting portion (23) of the handle to act on a respective counter portion (24) that is operatively connected to the distal portion (12) of the tubular body (11). This creates a breaking force that causes the distal portion (12) of the tubular body (11) to break.

An introducer set (1) for providing vascular access in a patient's body comprises an introducer sheath (10) and a dilator (20). The introducer sheath (10) has a tubular body (11) made of flexible material with a distal portion (12), a proximal portion (13) and an inner surface, the proximal portion (13) being configured to be inserted into a patients vessel to allow a medical device (100) to be inserted through the introducer sheath (10) into the patient's vessel. At least one of the dilator (20) and the introducer sheath (10) comprises a stiffening structure (25) imparting stiffness to the tubular body (11) of the introducer sheath (10), wherein said stiffening structure (25) can be released, removed or otherwise deactivated.

An introducer set (1) for providing vascular access in a patient's body comprises an introducer sheath (10) and a dilator (20). The introducer sheath (10) has a tubular body (11) made of flexible material with a distal portion (12), a proximal portion (13) and an inner surface, the proximal portion (13) being configured to be inserted into a patients vessel to allow a medical device (100) to be inserted through the introducer sheath (10) into the patient's vessel. At least one of the dilator (20) and the introducer sheath (10) comprises a stiffening structure (25) imparting stiffness to the tubular body (11) of the introducer sheath (10), wherein said stiffening structure (25) can be released, removed or otherwise deactivated.

An intrauterine balloon catheter for inhibiting formation of intrauterine adhesions in a mammalian uterus comprising balloon and a sheath, wherein the balloon is at least partially attached to the inner surface of the sheath and wherein the balloon and sheath, when the balloon is inflated, conform to the size and shape of the uterus and contact the wall of the uterus. The catheter further comprises a pressure control lock, clipping unit and one or more therapeutic agents which are therapeutically effective in inhibiting intrauterine adhesion formation.

The present invention relates to a portable lung assist device. In one embodiment, the portable lung assist device comprises an integrated oxygenator, blood pump, and cannula. In one embodiment, the portable lung assist device of the present invention does not require an oxygen tank, but instead can provide oxygen to a subject's blood from ambient air. In one embodiment, at least a portion of the portable lung assist device, for example the cannula can be implantable. In one embodiment, the cannula of the device of the present invention can be inserted in to the subject's pulmonary artery. A method for providing portable lung assistance is also described.

A urinary catheter and a method of its manufacture are disclosed. The urinary catheter comprises a tubular shaft extending between an insertion end and a discharge end, the tubular shaft being formed of at least two materials having different properties. The materials are arranged substantially separated from each other in distinct zones, wherein at least one of the width and thickness of said zones varies over the length of the tubular shaft, to form two or more uniform sections of the tubular shaft having various relative amounts of said materials, and wherein at least one transition between two such uniform sections is formed by at least one transition section providing a gradual transition between the uniform sections. The catheter can e.g. be produced by intermittent extrusion.

A continuously hollow device for the transfer of fluids to the human body is provided, which is made in a nanomaterial derived from latex, which chemical composition in based primarily on fats, waxes and several gummy resins obtained from cytoplasm of lactic cells. This biochemically modified material is capable of adjusting its outer and inner diameter, i.e. it enlarges or shrinks according to the needs of the patient. The device corresponds to a needle or the like (catheter), which allows to have a very small diameter so as to be inserted in the patient (minimally invasive procedure) and after a physical excitation of such nanomaterial, it can be extended once inserted in the body so as to allow the intake or discharge of fluids to or from the body through a catheter, probe or the like.

A continuously hollow device for the transfer of fluids to the human body is provided, which is made in a nanomaterial derived from latex, which chemical composition in based primarily on fats, waxes and several gummy resins obtained from cytoplasm of lactic cells. This biochemically modified material is capable of adjusting its outer and inner diameter, i.e. it enlarges or shrinks according to the needs of the patient. The device corresponds to a needle or the like (catheter), which allows to have a very small diameter so as to be inserted in the patient (minimally invasive procedure) and after a physical excitation of such nanomaterial, it can be extended once inserted in the body so as to allow the intake or discharge of fluids to or from the body through a catheter, probe or the like.

Medical instruments such as catheter systems and endoscopic systems that exhibit reduced backlash during their operation are disclosed. The reduction of backlash avoids the use of protrusions or fins that can significantly obstruct fluid flow through working channels of the instruments. According to one embodiment, a medical instrument comprises a first member having an inside surface defining a first lumen and a second member extending in the first lumen and having an outside surface cooperating with the inner surface of the first member to define an intermediate longitudinal passage therebetween. One of the inside surface of the first member and the outside surface of the second member is permanently formed to have a sinuous shape defining predisposed locations for contacting the other one of the inner surface of the first member and the outer surface of the second member to reduce backlash during relative longitudinal movement.