Abstract: Peripheral intravenous (IV) waveform analysis (PIVA) systems and methods for determining an intravascular volume status of a living subject and monitoring an IV line functionality of a peripheral IV device are provided. The PIVA system includes a peripheral IV device and a processing device. The peripheral IV device includes a peripheral IV catheter inserted into a vein of the living subject, and a fluid controlling device to control fluid flow from a fluid source to the peripheral IV catheter. The processing device receives peripheral venous signals from the peripheral IV device, performs a spectral analysis on the peripheral venous signals to obtain a peripheral venous pressure frequency spectrum; and performs a statistical analysis on amplitudes of peaks of the peripheral venous pressure frequency spectrum to determine an intravascular volume status of the living subject and/or an IV line functionality of the peripheral IV catheter in real time.

Abstract: Aspects of the invention relates to systems and methods for monitoring an intravenous (IV) line functionality of an IV device. The system includes an IV catheter to be inserted into the vein of the living subject, at least one pressure sensor in fluid communication with the IV catheter to acquire peripheral venous signals; and a processing device. The processing device receives the peripheral venous signals from the pressure sensor, performs a spectral analysis on the peripheral venous signals to obtain a peripheral venous pressure frequency spectrum, and determines an IV line functionality of the IV catheter in real time, wherein the IV line functionality of the IV catheter indicates IV infiltration when amplitude decreases greater than a first threshold are detected from the peaks of the peripheral venous pressure frequency spectrum.

Abstract: Aspects of the invention relates to systems and methods for monitoring an intravenous (IV) line functionality of an IV device. In one embodiment, the system includes an IV catheter to be inserted into the vein of the living subject, at least one pressure sensor in fluid communication with the IV catheter to acquire peripheral venous signals; and a processing device. The processing device receives the peripheral venous signals from the pressure sensor, performs a spectral analysis on the peripheral venous signals to obtain a peripheral venous pressure frequency spectrum, and then performs a statistical analysis on amplitudes of peaks of the peripheral venous pressure frequency spectrum to determine an IV line functionality of the IV catheter in real time. When the IV line functionality indicates IV infiltration, the processing device may control the fluid controlling device to stop the fluid flow from the fluid source to the IV catheter.

Abstract: A method of measuring peripheral venous pressure includes providing a tubing operably connected between a fluid source and a vein, a fluid controlling device for occluding the tubing and configured to have an on position and an off position, and at least one pressure sensor in fluid communication with the tubing, placed between the fluid controlling device and the vein; selectively passing fluid from the fluid source to the vein, through the tubing, by the fluid controlling device; measuring both a fluid pressure from the fluid source and a distal venous pressure from the vein by the at least one pressure sensor when the fluid controlling device is in the on position; and measuring the distal venous pressure from the vein only by the at least one pressure sensor when the fluid controlling device is in the off position.

Abstract: In one aspect, an apparatus for measuring peripheral venous pressure includes a tubing having two ends with one end connectable to a fluid source and the other end connectable to a vein, a fluid controlling device configured to have an on position and an off position, and at least one pressure sensor configured to measure fluid pressures therein. When the fluid controlling device is in the on position, fluid flow in the tubing is allowed to pass through the fluid controlling device, such that the at least one pressure sensor measures both a fluid pressure from the fluid source and a distal venous pressure from the vein. When the fluid controlling device is in the off position, no fluid flow in the tubing is allowed to pass through the fluid controlling device, such that the at least one pressure sensor measures the distal venous pressure from the vein only.

Abstract: Aspects of the invention relates to systems and methods for monitoring an intravenous (IV) line functionality of an IV device. In one embodiment, the system includes an IV catheter to be inserted into the vein of the living subject, at least one pressure sensor in fluid communication with the IV catheter to acquire peripheral venous signals; and a processing device. The processing device receives the peripheral venous signals from the pressure sensor, performs a spectral analysis on the peripheral venous signals to obtain a peripheral venous pressure frequency spectrum, and then performs a statistical analysis on amplitudes of peaks of the peripheral venous pressure frequency spectrum to determine an IV line functionality of the IV catheter in real time. When the IV line functionality indicates IV infiltration, the processing device may control the fluid controlling device to stop the fluid flow from the fluid source to the IV catheter.

Abstract: In one aspect, an apparatus for measuring peripheral venous pressure includes a tubing having two ends with one end connectable to a fluid source and the other end connectable to a vein, a fluid controlling device configured to have an on position and an off position, and at least one pressure sensor configured to measure fluid pressures therein. When the fluid controlling device is in the on position, fluid flow in the tubing is allowed to pass through the fluid controlling device, such that the at least one pressure sensor measures both a fluid pressure from the fluid source and a distal venous pressure from the vein. When the fluid controlling device is in the off position, no fluid flow in the tubing is allowed to pass through the fluid controlling device, such that the at least one pressure sensor measures the distal venous pressure from the vein only.