A61M2025/0003

Double Lumen Pigtail Catheter and HOCM Gradient Catheter
20230037979 · 2023-02-09 ·

Pigtail catheters and relates methods for measuring a pressure gradient across a bodily narrowing are disclosed. A pigtail catheter can comprise a proximal shaft segment and a distal shaft segment. The proximal shaft segment can include double lumen tubing defining a proximal pressure lumen and a non-coaxial, distal pressure lumen. In an example, the distal pressure lumen has a generally circular cross-sectional shape, and the proximal pressure lumen has a generally crescent or kidney cross-sectional shape that wraps partially around the distal pressure lumen. The distal shaft segment can include at least one distal orifice positionable distal to the bodily narrowing and at least one proximal orifice positionable proximal to the bodily narrowing. Each orifice can have a diameter of at least about 0.018 inches, for example. A manifold can be coupled to a proximal end of the proximal shaft segment and can include a proximal pressure port in communication with the proximal pressure lumen and a distal pressure port in communication with the distal pressure lumen.

Systems and methods for intra-procedural cardiac pressure monitoring

Delivery system for fixation device, including guide catheter with proximal end portion having proximal end port, distal end portion having distal end port, and inner surface defining inner lumen extending in fluid communication between proximal end port and distal end port. Delivery catheter extending through the inner lumen to define annular space between outer surface of the delivery catheter and inner surface of the guide catheter. A pressure sensor proximate the proximal end portion in fluid communication with the annual space to monitor fluid pressure. The distal end portion of the guide catheter includes flow passages in fluid communication between an exterior of the distal end portion and the annular space.

CATHETER FOR MONITORING PRESSURE

A catheter insertable into a cavity of a patient for monitoring pressure including a first lumen for drainage from the cavity and an expandable balloon. The balloon has a liquid containing chamber to monitor pressure within the cavity of the patient as pressure on the outer wall of the balloon deforms the balloon and compresses the liquid within the balloon. An exit port provides passage of air from an interior of the balloon to outside the catheter. A membrane has plurality of pores dimensioned to enable passage of air but prevent passage of the liquid therethrough. A pressure sensor communicates with the liquid containing chamber for measuring pressure based on compression of liquid caused by deformation of the expanded balloon.

Removable fluid sensor in an administration set

Sensing systems, connectors, and methods include a housing, including a sensor and a locking mechanism, a junction, and a membrane. The junction includes a fluid inlet, a fluid outlet, and a receiving mechanism. The receiving mechanism is removably attachable to the locking mechanism. The membrane is disposed within the junction, and is in fluid communication with the fluid inlet and the fluid outlet. The sensor senses a property of a fluid across the membrane when the locking mechanism is attached to the receiving mechanism.

VENOUS-TO-VENOUS LOCO-REGIONAL DELIVERY OF A THERAPEUTIC AGENT
20220401694 · 2022-12-22 ·

The methods, systems, and devices disclosed herein generally involve a venous-to-venous delivery of drugs to a targeted region within a patient. A triple lumen catheter device is disclosed that is particularly suitable for delivery of therapeutic drugs via a closed loop, preventing the circulation of toxic agents throughout the body, thereby creating an isolated treatment zone that maximizes local therapeutic concentrations while preventing agents from escaping to the rest of the body.

System and method for detecting air embolisms in lines for hemodynamic monitoring
11517734 · 2022-12-06 ·

A system and method are provided for detecting air embolisms in lines for hemodynamic monitoring. In use, using a first sensor, one or more gas bubbles are detected within a first line for hemodynamic monitoring. In response to the detecting, a first clamp attached to the first line for hemodynamic monitoring is contracted.

Device and Method for Needle/Catheter Location Utilizing Correlation Analysis
20220378318 · 2022-12-01 ·

An apparatus and method to enable clinicians to verify needle or catheter location within an anatomic site by relying upon combined sensing of two signals, such as a pressure signal and a heart rate pulse signal, in which the detection of a correlation between both signals is identified to confirm location of the needle or catheter.

Device, system and methods for measurement of pressures in the urinary tract
11490844 · 2022-11-08 · ·

A catheter for measuring pressure in the urinary tract of a patient includes a catheter body having a proximal and distal end. A plurality of lumens is formed in the catheter body, and an adaptor is coupled to the proximal end of the catheter body. The adaptor includes a port for each lumen. A first pressure sensor, typically including a balloon, is fluidically coupled to a first lumen and is configured and positioned to measure pressure in a urethra of the patient. A second pressure sensor, also typically including a balloon, is fluidically coupled to a second lumen and is configured and positioned on the catheter body to measure pressure in a bladder of the patient. An expandable retention member, which may be coupled to a third lumen, is positioned on the catheter body between the first and second expandable pressure sensors so that the catheter body may be retained at a selected location in the urinary tract to properly position the fluid pressure sensors in the bladder and urethra, respectively.

INTERMITTENT URINARY CATHETER ASSEMBLY COMPRISING SENSOR ELEMENT
20220347430 · 2022-11-03 ·

An intermittent urinary catheterisation assembly (1) for self-catheterisation comprises an intermittent urinary catheter (5) comprising a catheter tube. The catheter further comprises a conduit (4) extending longitudinally within the catheter tube and defining at least part of a flow path from a distal insertion end of the catheter to a proximal outlet end thereof, a measuring system for determining at least one fluid parameter in the flow path. The measuring system comprises at least one sensor element (35) configured to determine the at least one fluid parameter in the conduit and/or in a space in communication with the conduit and a signal processing device. In one aspect, the signal processing device comprises is detachable secured in relation to the connecting portion of the intermittent urinary catheter. In another aspect, the measuring system is securely connected to or integrated with the non-insertable portion of the catheter tube.

Pressure catheter and guide wire assembly
11471060 · 2022-10-18 · ·

A catheter and guide wire assembly for measurement of blood pressure in a living body, including a tubular shaft, which is connected to a tubular extension, which is connected to a permeable helical coil, which has a distal end that is secured in a distal tip, and a core member, which is attached in a distal portion of the tubular shaft and extends through the tubular extension and the helical coil, and is secured in the distal tip. The catheter and guide wire assembly has an outer diameter of about 0.35 mm and an open, inner lumen, which includes the tubular shaft, the tubular extension, the helical coil, and the core member. The catheter and guide wire assembly has a total flow-resistance index less than about 1.2×10.sup.6 mm.sup.−3, and more preferably less than about 1.0×10.sup.6 mm.sup.−3, and even more preferably less than about 0.7×10.sup.6 mm.sup.−3.