US2020146566A1PendingUtilityA1

Intravenous access device detecting intravenous infiltration and in-vein placement

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Assignee: UNIV VANDERBILTPriority: Sep 12, 2014Filed: Jan 13, 2020Published: May 14, 2020
Est. expirySep 12, 2034(~8.2 yrs left)· nominal 20-yr term from priority
A61B 5/7235A61M 5/158A61B 5/02152A61M 2005/1588A61M 5/16854A61B 5/7257
60
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Claims

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.

Claims

exact text as granted — not AI-modified
What is claimed is: 
     
         1 . An intravenous (IV) system, comprising:
 an IV catheter, configured to be inserted into a vein of a living subject;   at least one pressure sensor in fluid communication with the IV catheter, configured to acquire, from the vein of the living subject, peripheral venous signals; and   a processing device communicatively connected to the at least one pressure sensor, configured to:
 receive the peripheral venous signals from the at least one pressure sensor; 
 perform a spectral analysis on the peripheral venous signals to obtain a peripheral venous pressure frequency spectrum; and 
 determine 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. 
   
     
     
         2 . The system of  claim 1 , wherein the IV infiltration indicates occlusion or malposition of the IV catheter. 
     
     
         3 . The system of  claim 1 , wherein the spectral analysis is a spectral fast Fourier transform (FFT) analysis. 
     
     
         4 . The system of  claim 3 , wherein the IV line functionality is determined by:
 obtaining a plurality of baseline peaks {B N-1 } on a baseline peripheral venous pressure frequency spectrum, wherein N is a positive integer, and the plurality of baseline peaks {B N-1 } respectively corresponds to a plurality of frequencies {F 0 , F 1 , . . . , F N }, such that B N-1  is a function of F N-1  satisfying B N-1 =B N-1  (F N-1 ), wherein F N  is greater than F N-1 ;   obtaining a plurality of peaks {P N-1 } on the peripheral venous pressure frequency spectrum, wherein the plurality of peaks {P N-1 } correspond to the plurality of frequencies {F 0 , F 1 , . . . , F N }, such that P N-1  is a function of F N-1  satisfying P N-1 =P N-1  (F N-1 ); and   determining the IV line functionality in real time by comparing the amplitudes of the peaks {P N-1 } to that of the baseline peaks {B N-1 } respectively.   
     
     
         5 . The system of  claim 4 , wherein the baseline peripheral venous pressure frequency spectrum is obtained by:
 acquiring, by the at least one pressure sensor, the peripheral venous signals from the vein of the living subject at an earlier time period; and   processing the peripheral venous signals acquired at the earlier time period by the spectral FFT analysis to obtain the baseline peripheral venous pressure frequency spectrum.   
     
     
         6 . The system of  claim 1 , further comprising:
 a tubing having a first end and an opposite, second end, wherein the first end is connectable to the fluid source, and the second end is connected to the IV catheter; and   a port device in fluid communication with the tubing, located between the first and second ends of the tubing;   wherein the at least one pressure sensor is in fluid communication with the tubing through the port device.   
     
     
         7 . An intravenous (IV) system, comprising:
 an IV device configured to acquire, from a vein of a living subject, peripheral venous signals; and   a processing device communicatively connected to the IV device, configured to:
 receive the peripheral venous signals from the IV device; 
 perform a spectral analysis on the peripheral venous signals to obtain a peripheral venous pressure frequency spectrum; and 
 determine an IV line functionality of the IV device in real time, wherein the IV line functionality of the IV device is determined to indicate IV infiltration when amplitude decreases greater than a first threshold are detected from the peaks of the peripheral venous pressure frequency spectrum, 
   
       wherein the IV device comprises:
 an IV catheter, configured to be inserted into the vein of the living subject; and 
 a tubing having a first end and an opposite, second end, wherein the first end is connectable to a fluid source, and the second end is connected to the IV catheter. 
 
     
     
         8 . The system of  claim 7 , wherein the processing device is a computing device. 
     
     
         9 . The system of  claim 7 , wherein the spectral analysis is a spectral fast Fourier transform (FFT) analysis. 
     
     
         10 . The system of  claim 9 , wherein the IV line functionality is determined by:
 obtaining a plurality of baseline peaks {B N-1 } on a baseline peripheral venous pressure frequency spectrum, wherein N is a positive integer, and the plurality of baseline peaks {B N-1 } respectively corresponds to a plurality of frequencies {F 0 , F 1 , . . . , F N }, such that B N-1  is a function of F N-1  satisfying B N-1 =B N-1  (F N-1 ), wherein F N  is greater than F N-1 ;   obtaining a plurality of peaks {P N-1 } on the peripheral venous pressure frequency spectrum, wherein the plurality of peaks {P N-1 } correspond to the plurality of frequencies {F 0 , F 1 , . . . , F N }, such that P N-1  is a function of F N-1  satisfying P N-1 =P N-1  (F N-1 ); and   determining the IV line functionality of the IV device in real time by comparing the amplitudes of the peaks {P N-1 } to that of the baseline peaks {B N-1 } respectively.   
     
     
         11 . The system of  claim 10 , wherein the baseline peripheral venous pressure frequency spectrum is obtained by:
 acquiring, by the IV device, the peripheral venous signals from the vein of the living subject at an earlier time period; and   processing the peripheral venous signals acquired at the earlier time period by the spectral FFT analysis to obtain the baseline peripheral venous pressure frequency spectrum.   
     
     
         12 . The system of  claim 7 , wherein the IV device further comprises:
 a port device in fluid communication with the tubing, located between the first and second ends of the tubing; and   at least one pressure sensor in fluid communication with the tubing through the port device, configured to obtain the peripheral venous signals by measuring fluid pressures in the port device.   
     
     
         13 . The system of  claim 7 , wherein the IV infiltration indicates occlusion or malposition of the IV catheter. 
     
     
         14 . A method for monitoring an intravenous (IV) line functionality of an IV device, wherein the IV device comprises an IV catheter, configured to be inserted into a vein of the living subject; and a tubing having a first end and an opposite, second end, wherein the first end is connectable to a fluid source, and the second end is connected to the IV catheter, the method comprising:
 acquiring, from the IV catheter, peripheral venous signals, wherein the IV catheter is configured to be inserted in the vein of the living subject;   performing, by a processing device communicatively connected to the IV device, a spectral analysis on the acquired peripheral venous signals to obtain a peripheral venous pressure frequency spectrum; and   determining, by the processing device, the IV line functionality of the IV device in real time.   
     
     
         15 . The method of  claim 14 , wherein the spectral analysis is a spectral fast Fourier transform (FFT) analysis. 
     
     
         16 . The method of  claim 15 , wherein the step of determining the IV line functionality comprises:
 obtaining a plurality of baseline peaks {B N-1 } on a baseline peripheral venous pressure frequency spectrum, wherein N is a positive integer, and the plurality of baseline peaks {B N-1 } respectively corresponds to a plurality of frequencies {F 0 , F 1 , . . . , F N }, such that B N-1  is a function of F N-1  satisfying B N-1 =B N-1  (F N-1 ), wherein F N  is greater than F N-1 ;   obtaining a plurality of peaks {P N-1 } on the peripheral venous pressure frequency spectrum, wherein the plurality of peaks {P N-1 } correspond to the plurality of frequencies {F 0 , F 1 , . . . , F N }, such that P N-1  is a function of F N-1  satisfying P N-1 =P N-1  (F N-1 ); and   determining the IV line functionality of the IV device in real time by comparing the amplitudes of the peaks {P N-1 } to that of the baseline peaks {B N-1 } respectively.   
     
     
         17 . The method of  claim 15 , wherein the baseline peripheral venous pressure frequency spectrum is obtained by:
 acquiring the peripheral venous signals from the IV catheter at an earlier time period; and   processing the peripheral venous signals acquired at the earlier time period by the spectral FFT analysis to obtain the baseline peripheral venous pressure frequency spectrum.   
     
     
         18 . The method of  claim 14 , wherein the IV line functionality of the IV device is determined to indicate IV infiltration when amplitude decreases greater than a first threshold are detected from the peaks of the peripheral venous pressure frequency spectrum. 
     
     
         19 . The system of  claim 18 , wherein the IV infiltration indicates occlusion or malposition of the IV catheter. 
     
     
         20 . The method of  claim 14 , wherein the IV device further comprises:
 a port device in fluid communication with the tubing, located between the first and second ends of the tubing; and   at least one pressure sensor in fluid communication with the tubing through the port device, configured to obtain the peripheral venous signals by measuring fluid pressures in the port device.

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