Mobile diagnosis device

US 8,046,059 B2
Filed: 03/16/2006
Issued: 10/25/2011
Est. Priority Date: 03/21/2005
Status: Active Grant

First Claim

Patent Images

1. A mobile diagnosis device comprising:

an ECG unit to record an ECG signal, with the ECG unit being connected to two or more ECG electrodes to measure electrical signals from a patient'"'"'s body;

a pulsoximetry unit for simultaneous recording of a volume pulse signal, the pulsoximetry unit comprising at least one light source and at least one light sensor for optical measurement of blood perfusion in the vascular system of a patient'"'"'s body tissue;

a program-controlled evaluation unit to evaluate the ECG signal and the volume pulse signal; and

a casing that accommodates the ECG unit, the pulsoximetry unit and the evaluation unit, wherein the ECG electrodes and the light source and the light sensor of the pulsoximetry unit are arranged on an exterior surface of the casing, the ECG electrodes being connected to the device without a cable connection, wherein the light source and the light sensor of the pulsoximetry unit are integrated in a first ECG electrode of the ECG electrodes in such a manner that a patient can touch the first ECG electrode with one hand and a second ECG electrode with the other hand, while touching the light source and the light sensor at the same time;

wherein said evaluation unit is appropriately equipped to allow forautomatic recognition of R peaks in the ECG signal,automatic recognition of extreme levels in the volume pulse signal,and for determination of the time difference between an R peak in the ECG signal and a successive extreme value in the volume pulse signal.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A mobile diagnosis device comprised of an ECG unit (1) to record an ECG signal (55), with the ECG unit (1) being connected or connectible to two or more ECG electrodes (27, 28) to dissipate electrical signals from a patient'"'"'s body, and comprised of a pulsoximetry unit (2) for simultaneous recording of a volume pulse signal (56), with the pulsoximetry unit (2) comprising at least one light source (17, 18) and at least one light sensor (20) for optical measurement of blood perfusion in the vascular system of a patient'"'"'s body tissue, and comprised of a program-controlled evaluation unit (4) to evaluate the ECG signal (55) and the volume pulse signal (56). To provide such a diagnosis device that is suitable for auto-diagnosis of cardiovascular diseases, the device proposes that the evaluation unit (4) be appropriately equipped to allow for automatic recognition of R peaks (57) in the ECG signal (55), automatic recognition of extreme levels (58) in the volume pulse signal (56), and for determination of the time difference (60) between an R peak (57) and a successive extreme level (58) in the volume pulse signal (56). Furthermore, the evaluation unit (4) can be appropriately equipped to allow for determination of the time difference (61) between the main and secondary peak values (58, 59) in the volume pulse signal (56).

24 Citations

View as Search Results

11 Claims

1. A mobile diagnosis device comprising:
- an ECG unit to record an ECG signal, with the ECG unit being connected to two or more ECG electrodes to measure electrical signals from a patient'"'"'s body;
  
  a pulsoximetry unit for simultaneous recording of a volume pulse signal, the pulsoximetry unit comprising at least one light source and at least one light sensor for optical measurement of blood perfusion in the vascular system of a patient'"'"'s body tissue;
  
  a program-controlled evaluation unit to evaluate the ECG signal and the volume pulse signal; and
  
  a casing that accommodates the ECG unit, the pulsoximetry unit and the evaluation unit, wherein the ECG electrodes and the light source and the light sensor of the pulsoximetry unit are arranged on an exterior surface of the casing, the ECG electrodes being connected to the device without a cable connection, wherein the light source and the light sensor of the pulsoximetry unit are integrated in a first ECG electrode of the ECG electrodes in such a manner that a patient can touch the first ECG electrode with one hand and a second ECG electrode with the other hand, while touching the light source and the light sensor at the same time;
  
  wherein said evaluation unit is appropriately equipped to allow forautomatic recognition of R peaks in the ECG signal,automatic recognition of extreme levels in the volume pulse signal,and for determination of the time difference between an R peak in the ECG signal and a successive extreme value in the volume pulse signal.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. A diagnosis device as defined in claim 1, wherein the evaluation unit is furthermore appropriately equipped to allow fordetermination of blood oxygen saturation from the volume pulse signal,determination of the ventricular heart frequency rate from the ECG signal,and/or for determination of the plethysmographic heart frequency from the volume pulse signal.
  - 3. A diagnosis device as defined in claim 1, wherein the evaluation unit is appropriately equipped to allow for automatic recognition of main and secondary peak values in the volume pulse signal, for determination of the amplitudes of the main and secondary peak values, and for determination of the time difference between the main and secondary peak values.
  - 4. A diagnosis device as defined in claim 1, comprising sensors to measure a patient'"'"'s body temperature, the ambient temperature, and or the humidity in air.
  - 5. A diagnosis device as defined in claim 1, comprising a memory unit to store the parameters determined by means of the evaluation unit during a measurement while simultaneously storing the date and/or time of the measurement.
  - 6. A diagnosis device as defined in claim 1, comprising a diagnosis unit which is appropriately equipped to allow for determination of the status of the cardio-vascular system from the parameters determined by means of the evaluation unit.
  - 7. A diagnosis device as defined in claim 6, wherein the diagnosis unit is furthermore appropriately equipped to determine trends concerning the status of a patient'"'"'s cardio-vascular system from a change in the parameters stored by means of the memory unit.
  - 8. A diagnosis device as defined in claim 6, wherein the diagnosis unit is appropriately equipped to compute an elasticity parameter from the time difference between an R peak in the ECG signal and a successive extreme level in the volume pulse signal, with the elasticity parameter representing a measure for the elasticity of a patient'"'"'s blood vessels.
  - 9. A diagnosis device as defined in claim 1, comprising an interface to link the diagnosis device to a computer.
  - 10. A diagnosis device as defined in claim 1, comprising a display unit to display the ECG signal, the volume pulse signal, and the parameters determined by means of the evaluation unit.

11. A method for recording and evaluating a patient'"'"'s cardio-vascular parameters, whereinan ECG signal is captured by means of an ECG unit which is connected with two or more ECG electrodes for measurement of electrical signals from a patient'"'"'s body,a volume pulse signal is simultaneously captured by a pulsoximetry unit which is comprised of at least one light source and at least one light sensor for optical measurement of blood perfusion in the vascular system of a patient'"'"'s body tissue,wherein the ECG signal and the volume pulse signal are evaluated by means of a program controlled evaluation unit,wherein a casing is provided for accommodating the ECG unit, the pulsoximetry unit and the evaluation unit,wherein the ECG electrodes and the light source and the light sensor of the pulsoximetry unit are arranged on an exterior surface of the casing, the ECG electrodes being connected to the device without a cable connection, wherein the light source and the light sensor of the pulsoximetry unit are integrated in a first ECG electrode of the ECG electrodes in such a manner that a patient can touch the first ECG electrode with one hand and a second ECG electrode with the other hand, while touching the light source and the light sensor at the same time, and,wherein by means of said evaluation unitR peaks in the ECG signal are automatically recognized,extreme levels in the volume pulse signal are automatically recognized,and that the time difference between an R peak in the ECG signal and the successive extreme level in the volume pulse signal is determined.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Ingo Flore
Original Assignee
Ingo Flore
Inventors
Cho, Ok Kyung, Kim, Yoon Ok
Primary Examiner(s)
Layno; Carl H
Assistant Examiner(s)
Bays; Pamela M

Application Number

US11/886,794
Publication Number

US 20080200823A1
Time in Patent Office

2,049 Days
Field of Search

600/483, 600/485, 600/481, 600/490, 600/495, 600/500, 600/502, 600/513, 600/509, 600/523
US Class Current

600/513
CPC Class Codes

A61B 5/02055   Simultaneously evaluating b...

A61B 5/0285   Measuring or recording phas...

A61B 5/1455   using optical sensors, e.g....

A61B 5/352   Detecting R peaks, e.g. for...

A61B 5/7214   using signal cancellation, ...

Mobile diagnosis device

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

24 Citations

11 Claims

Specification

Use Cases

Quick Links

Others

Mobile diagnosis device

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

24 Citations

11 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others