Methods, apparatus and articles-of-manufacture for noninvasive measurement and monitoring of peripheral blood flow, perfusion, cardiac output biophysic stress and cardiovascular condition

US 7,192,403 B2
Filed: 08/16/2002
Issued: 03/20/2007
Est. Priority Date: 08/17/2001
Status: Expired due to Fees

First Claim

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1. A noninvasive method of estimating blood flow, comprising:

noninvasively obtaining a pulsatile signal indicative of pressure pulsations in a patient'"'"'s artery;

using said pulsatile signal to compute a longitudinal pressure gradient waveform;

computing plural harmonic components of said pressure gradient waveform; and

,using said plural harmonic components of said pressure gradient waveform to estimate plural harmonic blood flow components.

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Abstract

The invention relates to methods, apparatus, articles-of-manufacture, and coded data signals for measuring cardiac output, limb blood flow, perfusion, blood pressure, artery elasticity, and cardiovascular deterioration and disease, including performing these measurements on a continuous heart beat-by-beat basis, for humans and animals. Unlike empirical methods of other noninvasive blood pressure concepts, the invention is grounded on scientifically appropriate hemodynamic principles that studies have validated as accurate, and is practical for wide clinical use. Devices constructed in accordance with the invention can be comfortably employed for numerous applications, including hospital monitoring, physician'"'"'s office cardiovascular disease management and drug therapy monitoring, home monitoring, and athletic applications.

The invention may be implemented in a variety of single or multi-sensor embodiments, such as: invasive pressure cannula sensor systems; non invasive pressure transducer arrays and piezo or other strain sensing materials that are placed against the skin above arteries; “upstream” pulsing-sensors (that apply single or multi-frequency vibrations that are measured “downstream” from the first placement location); other types of plethysmographic sensors; sonic/ultrasonic/Doppler sensors; MRI blood spin magnetizer/sensors; oxygen sensors; and electrocardiographic sensors, etc.

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20 Claims

1. A noninvasive method of estimating blood flow, comprising:
- noninvasively obtaining a pulsatile signal indicative of pressure pulsations in a patient'"'"'s artery;
  
  using said pulsatile signal to compute a longitudinal pressure gradient waveform;
  
  computing plural harmonic components of said pressure gradient waveform; and
  
  ,using said plural harmonic components of said pressure gradient waveform to estimate plural harmonic blood flow components.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. A method, as defined in claim 1, wherein computing plural harmonic components of said pressure gradient waveform involves an FFT process.
  - 3. A method, as defined in claim 2, wherein said pressure gradient waveform is computed, at least in part, by differencing successive samples of said pulsatile signal.
  - 4. A method, as defined in claim 3, wherein said estimated harmonic blood flow components are non-linearly dependent on harmonic frequency-related variables.
  - 5. A method, as defined in claim 3, wherein said estimated harmonic blood flow components are non-linearly dependent on arterial radius-related variables.
  - 6. A method, as defined in claim 3, wherein said estimated harmonic blood flow components are non-linearly dependent on elasticity-related variables.
  - 7. A method, as defined in claim 3, wherein said pulsatile signal is obtained from a pressure cuff.
  - 8. A method, as defined in claim 3, wherein plural pulsatile signals are obtained from plural respective pressure cuffs.
  - 9. A method, as defined in claim 3, wherein estimating plural harmonic blood flow components involves estimating at least three harmonic blood flow components.
  - 10. A method, as defined in claim 3, where said plural harmonic blood flow components are computed at each heartbeat.
  - 11. A method, as defined in claim 1, wherein computing plural harmonic components of said pressure gradient waveform involves a DFT process.

12. A method of estimating blood flow, comprising:
- receiving a pulsatile signal related to pressure pulsations in a patient'"'"'s artery;
  
  computing a longitudinal pressure gradient waveform, at least in part from said pulsatile signal;
  
  computing plural harmonic components of said pressure gradient waveform; and
  
  ,using at least two of said plural harmonic components of said pressure gradient waveform to estimate blood flow.
- View Dependent Claims (13, 14, 15, 16, 17, 18)
- - 13. A method, as defined in claim 12, wherein computing plural harmonic components of said pressure gradient waveform involves an FFT process.
  - 14. A method, as defined in claim 12, wherein said pressure gradient waveform is computed, at least in part, by differencing successive samples of said pulsatile signal.
  - 15. A method, as defined in claim 12, wherein said pulsatile signal is received from a pressure cuff.
  - 16. A method, as defined in claim 12, wherein plural pulsatile signals are received from plural respective pressure cuffs.
  - 17. A method, as defined in claim 12, wherein estimating blood flow involves estimating at least two harmonic blood flow components.
  - 18. A method, as defined in claim 12, wherein computing plural harmonic components of said pressure gradient waveform involves a DFT process.

19. Estimating blood flow in a patient'"'"'s artery using at least the following acts:
- computing a pressure gradient waveform related to longitudinal pressure variations along at least a portion of the patient'"'"'s artery;
  
  computing plural harmonic components of said pressure gradient waveform; and
  
  ,using at least two of said plural harmonic components of said pressure gradient waveform to estimate blood flow.
- View Dependent Claims (20)
- - 20. Estimating blood flow, using at least the acts of claim 19, wherein said pressure gradient waveform is computed, at least in part, by differencing successive samples of a pulsatile signal generated by sampling pressure pulsations in the patient'"'"'s artery.

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Current Assignee
Ted W. Russell
Original Assignee
Ted W. Russell
Inventors
Russell, Ted W.
Primary Examiner(s)
Marmor, II; Charles A
Assistant Examiner(s)
Mallari; Patricia C

Application Number

US10/222,564
Publication Number

US 20030135124A1
Time in Patent Office

1,677 Days
Field of Search

None
US Class Current

600/504
CPC Class Codes

A61B 5/02007   Evaluating blood vessel con...

A61B 5/02028   Determining haemodynamic pa...

A61B 5/02255   the pressure being controll...

A61B 5/029   Measuring or recording bloo...

A61B 5/412   Detecting or monitoring sepsis

A61B 5/7257   using Fourier transforms

Methods, apparatus and articles-of-manufacture for noninvasive measurement and monitoring of peripheral blood flow, perfusion, cardiac output biophysic stress and cardiovascular condition

First Claim

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Abstract

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Methods, apparatus and articles-of-manufacture for noninvasive measurement and monitoring of peripheral blood flow, perfusion, cardiac output biophysic stress and cardiovascular condition

First Claim

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Accused Products

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Abstract

Citations

20 Claims

Specification

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Solutions

Use Cases

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