Impedance plethysmograph
First Claim
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1. A plethysmograph for measuring cardiac output comprising in combination excitation electrode means adapted to be connected to a mammalian subject at the superior and inferior ends of the thorax, a current generator means comprising an electronic oscillator conductively connected to the electrode means for supplying a fluctuating excitation current thereto, sensor means adapted to be conductively connected to said thorax for carrying a sensed electrical signal which varies as the impedance changes in the thorax between said electrode means, a control means conductively connected to the oscillator for balancing the current from the oscillator with the sensed signal, a first amplifier conductively connected to the control means, a second amplifier connected to said sensor means whereby signals of approximately equal strength are fed to said first and second amplifiers from said control and said sensor means respectively and a voltage subtracting means conductively connected to each of the amplifiers for comparing the output of each said amplifier.
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Abstract
.Iadd.Cardiac output is measured by connecting excitation electrodes at the upper and lower ends of the thorax of a mammalian subject, connecting measuring electrodes to the thorax between the excitation electrodes, applying a constant fluctuating excitation current to the excitation electrodes, measuring, with appropriate circuitry, changes in impedance within the thorax, and simultaneously measuring the beginning and end of systole, and determining cardiac output by measuring the maximum decreasing impedance slope during systole..Iaddend.
169 Citations
17 Claims
- 1. A plethysmograph for measuring cardiac output comprising in combination excitation electrode means adapted to be connected to a mammalian subject at the superior and inferior ends of the thorax, a current generator means comprising an electronic oscillator conductively connected to the electrode means for supplying a fluctuating excitation current thereto, sensor means adapted to be conductively connected to said thorax for carrying a sensed electrical signal which varies as the impedance changes in the thorax between said electrode means, a control means conductively connected to the oscillator for balancing the current from the oscillator with the sensed signal, a first amplifier conductively connected to the control means, a second amplifier connected to said sensor means whereby signals of approximately equal strength are fed to said first and second amplifiers from said control and said sensor means respectively and a voltage subtracting means conductively connected to each of the amplifiers for comparing the output of each said amplifier.
- 3. A plethysmograph for measuring cardiac output comprising in combination a first elongated band excitation electrode adapted to be positioned to at least partially encircle the neck of a subject, a second elongated band excitation electrode adapted to be positioned to at least partially encircle the thorax of said subject at the approximate position of the xiphisternal joint, a source of a fluctuating current conductively connected across the electrodes for supplying an excitation current thereto, sensor means adapted to be conductively connected to said thorax for receiving a sensed signal, a voltage balancing means conductively connected to the oscillator, a first output lead conductively connected to the balancing means, a second output lead connected to said sensor means, and a voltage subtracting means conductively connected to each of the output leads for comparing the voltage, whereby the adjustment of the balancing means is adapted to feed signals of approximately equal strength to the subtracting means.
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6. A plethysmograph for measuring cardiac output comprising in combination a first elongated band excitation electrode adapted to be positioned around the neck of said subject, a second elongated band excitation electrode adapted to be positioned to encircle the thorax of said subject at the approximate location of the xiphisternal joint, an electronic oscillator means conductively connected across the excitation electrodes for supplying an excitation current thereto, sensor electrodes adapted to be conductively connected to said thorax for carrying a sensed current, a balancing means conductively connected to the oscillator, a first amplifier conductively connected to the balancing means, a second amplifier connected to one of said sensor electrodes, a voltage subtracting means conductively connected to each of the amplifiers for comparing the output thereof and a means for rectifying the current received by the subtracting means from each said amplifier means, whereby the adjustment of the balancing means is adapted to feed signals of approximately equal strength to said subtracting means.
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7. A plethysmographic method for measuring cardiac output which comprises connecting excitation electrode means at the upper and lower ends of the thorax of a mammalian subject above the upper border of the lungs and below the lower border of the heart and lungs, respectively;
- connecting measuring electrode means to the thorax of the subject between said excitation electrode means;
applying a constant fluctuating excitation current to said excitation electrode means and through a balancing resistance;
amplifying, detecting and measuring the voltage across the measuring electrode means and across the balancing resistance and adjusting the balancing resistance to equalize the voltages;
measuring the changes in impedance within the thorax as sensed by said measuring electrode means; and
simultaneously measuring the beginning and end of systole of the subject and determining cardiac output therefrom. - View Dependent Claims (8, 9)
- connecting measuring electrode means to the thorax of the subject between said excitation electrode means;
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10. A plethysmograph comprising in combination:
- excitation electrode means adapted to be connected to a mammalian subject at the superior and inferior ends of the thorax;
electric generator means for supplying a fluctuating excitation current, said generator means being conductively connected to said electrode means whereby said excitation current is applied to said electrode means;
measuring means;
conductor means adapted to be conductively connected to the thorax and to said measuring means for carrying an electrical signal from the portion of the thorax between said electrode means to said measuring means;
balancing means connected to said generator means for providing a second electrical signal approximately equal in magnitude to said first mentioned signal;
means for rectifying each of said signals; and
means for comparing the signals after rectification.
- excitation electrode means adapted to be connected to a mammalian subject at the superior and inferior ends of the thorax;
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11. A plethysmographic method for measuring cardiac output which comprises the steps of:
- applying a substantially constant current, fluctuating voltage, excitation signal between the upper and lower ends of the thorax of a mammalian subject from above the upper border of the lung to below the lower border of the heart and lung;
measuring impedance changes within the portion of the thorax carrying the signal while simultaneously measuring the beginning and the end of systole of the subject; and
recording the simultaneous measurements for determining cardiac output therefrom.
- applying a substantially constant current, fluctuating voltage, excitation signal between the upper and lower ends of the thorax of a mammalian subject from above the upper border of the lung to below the lower border of the heart and lung;
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12. A plethysmographic method for measuring cardiac output which comprises the steps of:
- applying a substantially constant current, fluctuating voltage, excitation signal between the upper and lower ends of the thorax of a mammalian subject from above the upper border of the lung to below the lower border of the heart and lung; and
measuring impedance changes within the portion of the thorax carrying the signal relative to a period from beginning to end of systole of the subject for determining cardiac output therefrom.
- applying a substantially constant current, fluctuating voltage, excitation signal between the upper and lower ends of the thorax of a mammalian subject from above the upper border of the lung to below the lower border of the heart and lung; and
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13. A plethysmograph comprising:
- electrical means adapted to induce a fluctuating excitation current between the superior and inferior ends of the thorax of a mammalian subject; and
means for measuring impedance changes in said thorax, in the presence of said fluctuating excitation current, and for measuring, simultaneously, the beginning and the end of systole of the subject. .Iadd.
- electrical means adapted to induce a fluctuating excitation current between the superior and inferior ends of the thorax of a mammalian subject; and
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14. A plethysmograph for measuring cardiac output comprising in combination:
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(a) excitation electrode means adapted to be connected to a mammalian subject at the superior and inferior ends of the thorax, (b) a current generator means comprising an electronic oscillator conductively connected to the electrode means for supplying a fluctuating excitation current thereto, (c) sensor means adapted to be conductively connected to said thorax for carrying a sensed electrical signal which varies as the impedance changes in the thorax between said electrode means, (d) a control means conductively connected to the oscillator for balancing the current from the oscillator with the sensed signal, (e) a first amplifier conductively connected to the control means, (f) a second amplifier connected to said sensor means whereby signals of approximately equal strength are fed to said first and second amplifiers from said control and sensor means respectively, (g) a voltage subtracting means conductively connected to each of the amplifiers for comparing the output of each said amplifier, (h) and means connected to said subtracting means for receiving an output therefrom whereby the maximum decreasing slope of said impedance changes in the thorax may be determined. .Iaddend. .Iadd.
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15. a plethysmograph for measuring cardiac output comprising in combination:
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(a) excitation electrode means adapted to be connected to a mammalian subject at the superior and inferior ends of the thorax, (b) a current generator means comprising an electronic oscillator conductively connected to the electrode means for supplying a fluctuating excitation current thereto, (c) sensor means adapted to be conductively connected to said thorax for carrying a sensed electrical signal which varies as the impedance changes in the thorax between said electrode means, (d) a control means conductively connected to the oscillator for balancing the current from the oscillator with the sensed signal, (e) a first amplifier conductively connected to the control means, (f) a second amplifier connected to said sensor means whereby signals of approximately equal strength are fed to said first and second amplifiers from said control and sensor means respectively, (g) a voltage subtracting means conductively connected to each of the amplifiers for comparing the output of each said amplifier, (h) and means connected to said subtracting means for receiving an output therefrom whereby the maximum decreasing slope of said impedance changes in the thorax and Δ
Z may be determined. .Iaddend. .Iadd.
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16. A plethysmographic method for measuring cardiac output which comprises:
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(a) connecting excitation electrode means at the upper and lower ends of the thorax of a mammalian subject above the upper border of the lungs and below the lower border of the heart and lungs, respectively; (b) connecting measuring electrode means to the thorax of the subject between said excitation electrode means; (c) applying a constant fluctuating excitation current to said excitation electrode means and through a balancing resistance; (d) amplifying, detecting, and measuring the voltage across the measuring electrode means and across the balancing resistance and adjusting the balancing resistance to equalize the voltages; (e) measuring the changes in impedance within the thorax as sensed by said measuring electrode means; (f) and simultaneously measuring the beginning and end of systole of the subject, determining the maximum decreasing impedance slope during systole, and determining cardiac output therefrom. .Iaddend. .Iadd.
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17. A plethysmographic method for measuring cardiac output which comprises:
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(a) connecting excitation electrode means at the upper and lower ends of the thorax of a mammalian subject above the upper border of the lungs and below the lower border of the heart and lungs, respectively; (b) connecting measuring electrode means to the thorax of the subject between said excitation electrode means; (c) applying a constant fluctuating excitation current to said excitation electrode means and through a balancing resistance; (d) amplifying, detecting, and measuring the voltage across the measuring electrode means and across the balancing resistance and adjusting the balancing resistance to equalize the voltages; (e) measuring the changes in impedance within the thorax as sensed by said measuring electrode means; (f) and simultaneously measuring the beginning and end of systole of the subject, determining the maximum decreasing impedance slope during systole and Δ
Z, and determining cardiac output therefrom..Iaddend.
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Current AssigneeRegents of The University of Minnesota (University of Minnesota)
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Original AssigneeRegents of The University of Minnesota (University of Minnesota)
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InventorsPatterson, Robert P., Witsoe, David A., Kubicek, William G., Kinnen, Edwin
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Primary Examiner(s)Howell, Kyle L.
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Application NumberUS05/589,360Time in Patent Office1,555 DaysField of Search128/2.05 F, 128/2.05 V, 128/2.05 R, 128/2.1 ZUS Class Current600/526CPC Class CodesA61B 5/026 Measuring blood flow A61B3/...A61B 5/0295 using plethysmography, i.e....A61B 5/0535 Impedance plethysmography f...
