Provided herein in some embodiments is an apparatus including a composite balloon with a tubular fiber layer and a polymeric balloon layer over the fiber layer. Also provided herein in some embodiments is a method including inserting a collapsed fiber tube into an expanded polymeric balloon, expanding the collapsed fiber tube to provide an expanded fiber tube, and securing an outer surface of the expanded fiber tube to an inner surface of the expanded polymeric balloon. The method can further include inserting a distal portion of an elongate catheter body through a center of the composite balloon and securing the composite balloon to the distal portion. Thereby, the method can include forming the catheter body with the composite balloon configured to apply a pressure to surrounding walls of an anatomical vessel in an inflated state of the composite balloon to modify one or more intravascular lesions in the anatomical vessel.

Provided herein in some embodiments is an apparatus including a composite balloon with a tubular fiber layer and a polymeric balloon layer over the fiber layer. Also provided herein in some embodiments is a method including inserting a collapsed fiber tube into an expanded polymeric balloon, expanding the collapsed fiber tube to provide an expanded fiber tube, and securing an outer surface of the expanded fiber tube to an inner surface of the expanded polymeric balloon. The method can further include inserting a distal portion of an elongate catheter body through a center of the composite balloon and securing the composite balloon to the distal portion. Thereby, the method can include forming the catheter body with the composite balloon configured to apply a pressure to surrounding walls of an anatomical vessel in an inflated state of the composite balloon to modify one or more intravascular lesions in the anatomical vessel.

A Raman endoscope for use in obtaining in vivo Raman spectra in the peripheral airways of the lungs and a method of constructing the Raman endoscope are disclosed. The endoscope has a tubular sheath containing a fiber bundle. The sheath has an outer diameter of less than 1.35 mm. The sheath is made of fluorinated ethylene propylene. The sheath is flexible along its length from a first end to a point along the sheath so that it can navigate sharp turns within the peripheral airways. A layer of coating covers the sheath along a terminal length and a probe tip of the fiber bundle. The terminal length extends along a length of the sheath extending from a second end opposite to the first end to the point. Terminal length is rigid to facilitate advancement of the endoscope towards the lesion of interest. Terminal length is 5 mm or less.

A Raman endoscope for use in obtaining in vivo Raman spectra in the peripheral airways of the lungs and a method of constructing the Raman endoscope are disclosed. The endoscope has a tubular sheath containing a fiber bundle. The sheath has an outer diameter of less than 1.35 mm. The sheath is made of fluorinated ethylene propylene. The sheath is flexible along its length from a first end to a point along the sheath so that it can navigate sharp turns within the peripheral airways. A layer of coating covers the sheath along a terminal length and a probe tip of the fiber bundle. The terminal length extends along a length of the sheath extending from a second end opposite to the first end to the point. Terminal length is rigid to facilitate advancement of the endoscope towards the lesion of interest. Terminal length is 5 mm or less.

An insertion set system includes a base configured to be secured to a patient, and a flexible tubing on the base. The flexible tubing has a distal end portion forming a cannula to be inserted into the patient. An inserter having a needle is received by the base. The needle has a channel in which the distal end portion of the flexible tubing is received. The needle is able to slide relative to the flexible tubing, to selectively withdraw the needle off of the distal end portion of the flexible tubing. The base may include a passage for fluid flow arranged transverse to the axial dimension of the distal end portion of the flexible tubing.

The present disclosure is directed toward a composite balloon comprising a layer of material having a porous microstructure (e.g., ePTFE or expanded polyethylene) and a thermoplastic polymeric layer useful for medical applications. The layers of the composite balloons become adhered through a stretch blow-molding process. Methods of making and using such composite balloons are also described amongst others.

The present disclosure is directed toward a composite balloon comprising a layer of material having a porous microstructure (e.g., ePTFE or expanded polyethylene) and a thermoplastic polymeric layer useful for medical applications. The layers of the composite balloons become adhered through a stretch blow-molding process. Methods of making and using such composite balloons are also described amongst others.

Durable, anti-fouling, crosslinked zwitterionic coatings that are grafted to the surface of a substrate through covalent bonding are disclosed. When exposed to a light source, zwitterionic monomers react with a crosslinker and with activated radicals at the surface of the substrate, simultaneously forming the crosslinked zwitterionic coating and anchoring it to the surface of the substrate. Photomasking techniques can be used to micropattern the zwitterionic coatings. The zwitterionic coatings can be applied to a variety of substrates, including medical devices and systems.

The present invention provides a catheter for assisting recovery from dysphagia.

A method, system and device for securing conductive material on catheter elements for tissue sensing and cryogenic ablation. This may be used to deposit or embed conductive material onto or within polymeric materials. The method of manufacturing a balloon with conductive material may include extruding a polymeric material where the polymeric material includes embedded electrically conductive material. At least a portion of the polymeric material may be removed to expose at least a portion of the embedded electrically conductive material. The benefits may include allowing local bipolar recordings, contact assessment and ice thickness, and compatibility with 3-dimensional electroanatomical mapping systems.