Motility analysis, display, and interpretation system

US 6,740,047 B2
Filed: 01/25/2002
Issued: 05/25/2004
Est. Priority Date: 01/25/2002
Status: Expired due to Fees

First Claim

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1. A system for providing a probabilistic diagnosis of physiological dysfunction present in a tubular cavity within a living body, comprising:

a catheter for obtaining circumferential pressure measurements at discrete locations along the body of the catheter and presenting analog representations of the circumferential pressure measurements;

means for acquiring the analog representations and storing them to make them available for processing;

means communicating with the means for acquiring the analog representations for generating descriptive graphical displays to facilitate visualization of physiological phenomena; and

means communicating with the means for processing the analog representations and communicating with the means for generating descriptive graphical displays for interpreting physiological data obtained from within the tubular cavity within the living body and providing a probabilistic diagnosis based on the physiological data, wherein the catheter comprises a plurality of measuring segments, each measuring segment being maximally responsive to encountered circumferential pressure, each measuring segment communicating with signal conditioning circuitry by means of an optical fiber, wherein light is transmitted to the measuring segment from a light source at the proximal end of the optical fiber to a mirror assembly located in the segment and positioned opposite the optical fiber at the distal end of the optical fiber, so that encountered circumferential pressure deforms the segment, causing a misalignment of the position of the mirror assembly vis-a-vis the distal end of the optical fiber, resulting in a modulation of reflected light strength.

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Abstract

The system includes an array of transducers that simultaneously senses multiple intralumenal pressures, a data acquisition module that acquires and stores samples of the measured pressures, software routines for signal analysis, a software module for multi-dimensional data display presentations, and a software module to perform pattern recognition on the acquired data set to identify potential maladies that may be indicated by the analysis. The transduction elements are cylindrical segments that deform according to the circumferential pressures encountered. Distributing a quantity of these sensor segments at desired locations along a flexible support structure and providing a flexible sheath over the entire length forms the sensor array. Measuring the sensor deformation provides an electrical analog of the pressure causing the deformation. Acquiring these measurements in a suitable data acquisition and processing unit, including a display, printing, and plotting capability, completes the hardware elements. Integrated software modules complete the system.

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6 Claims

1. A system for providing a probabilistic diagnosis of physiological dysfunction present in a tubular cavity within a living body, comprising:
- a catheter for obtaining circumferential pressure measurements at discrete locations along the body of the catheter and presenting analog representations of the circumferential pressure measurements;
  
  means for acquiring the analog representations and storing them to make them available for processing;
  
  means communicating with the means for acquiring the analog representations for generating descriptive graphical displays to facilitate visualization of physiological phenomena; and
  
  means communicating with the means for processing the analog representations and communicating with the means for generating descriptive graphical displays for interpreting physiological data obtained from within the tubular cavity within the living body and providing a probabilistic diagnosis based on the physiological data, wherein the catheter comprises a plurality of measuring segments, each measuring segment being maximally responsive to encountered circumferential pressure, each measuring segment communicating with signal conditioning circuitry by means of an optical fiber, wherein light is transmitted to the measuring segment from a light source at the proximal end of the optical fiber to a mirror assembly located in the segment and positioned opposite the optical fiber at the distal end of the optical fiber, so that encountered circumferential pressure deforms the segment, causing a misalignment of the position of the mirror assembly vis-a-vis the distal end of the optical fiber, resulting in a modulation of reflected light strength.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The system of claim 1, wherein the light source at the proximal end of the optical fiber is coupled to a 2×
    - 2 optical coupler, so that emitted light is split equally, half thereof being sensed by a reference detector and half thereof being directed toward the distal end of the optical fiber where it is modulated by encountered circumferential pressure and reflected back to the optical coupler where it is again split in half, one half being optically coupled to a signal detector and the output combined with the reference signal in an instrument amplifier where output is a replica of the modulated signal compensated for variations in emitted power.
  - 3. The system of claim 1, wherein the means for acquiring the analog representations and storing them to make them available for processing provides for analog output of a plurality of signal channels to be sampled, with samples being stored in a mass storage device for subsequent availability for processing.
  - 4. The system of claim 1, wherein the means for processing the analog representations is a central processing unit, where stored data is scaled, and is subjected to engineering unit conversion and signal processing routines.
  - 5. The system of claim 1, wherein the means for generating descriptive graphical displays is a graphics generation program, wherein acquired data is presented in a graphical format providing a space-time-amplitude description of a studied event.
  - 6. The system of claim 1, wherein the means for interpreting physiological data is a system program routine, which provides interpretation of data received and presents a most probable descriptor of any malady present.

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Current Assignee
Domenic A. Bellino, Harlan K. Holmes, Ray E. Clouse
Original Assignee
Domenic A. Bellino, Harlan K. Holmes, Ray E. Clouse
Inventors
Clouse, Ray E., Holmes, Harlan K., Bellino, Domenic A.
Primary Examiner(s)
Hindenburg, Max F.
Assistant Examiner(s)
FOREMAN, JONATHAN M

Application Number

US10/054,791
Publication Number

US 20030144604A1
Time in Patent Office

851 Days
Field of Search

128/920, 128/922-925, 600/300, 600/480, 600/485, 600/561, 600/585, 600/593, 600/587, 385/12
US Class Current

600/561
CPC Class Codes

A61B 2562/0247   Pressure sensors

A61B 2562/043   in a linear array

A61B 5/036   by means introduced into bo...

Motility analysis, display, and interpretation system

First Claim

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Motility analysis, display, and interpretation system

First Claim

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Abstract

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