Apparatus and method for measuring myocardial oxygen consumption
First Claim
1. A pulmonary artery catheter adapted to be inserted into a patient'"'"'s venous system to detect the rate of oxygen consumption in the heart by comparing oxygen levels in the pulmonary artery to oxygen levels in the right atrium, or superior vena cava, the catheter comprising:
- an elongated flexible tube having an inflatable balloon at a distal end, a syringe positioned at a proximal end of the tube, the syringe allowing an operator to selectively inflate the balloon to thereby allow the catheter to be pulled through the patient'"'"'s venous system;
a thermistor proximal to the balloon, the thermistor measuring blood temperatures and determining cardiac output;
a first oxygen sensor located adjacent the distal end of the tube and comprising a series of light emitting diodes and a photodetector, the first oxygen sensor determining blood oxygen content by measuring the blood'"'"'s absorption of infrared light, the first oxygen sensor adapted to be positioned within a patient'"'"'s pulmonary artery;
a second oxygen sensor positioned proximal to the first oxygen sensor and likewise comprising a series of light emitting diodes and a photodetector, the second oxygen sensor determining blood oxygen content by measuring the blood'"'"'s absorption of infrared light, the second oxygen sensor adapted to be positioned within a patient'"'"'s right atrium or superior vena cava;
a microprocessor operatively coupled to the first and second oxygen sensors, the microprocessor implementing an algorithm that calculates the rate of oxygen consumption in the heart as a function of the difference between blood oxygen content as measured by the first and second oxygen sensors and the cardiac output as determined by the thermistor.
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Abstract
Disclosed is a pulmonary artery catheter (“PAC”) that is used in determining myocardial oxygen consumption. Myocardial oxygen consumption is of critical importance because decreased myocardial energy utilization during acute illness may lead to tissue hypoperfusion, multiple organ failure, and eventually death. The inventor has discovered that myocardial oxygen consumption is a function of the difference in oxygen levels in atrial and mixed venous blood. The invention has further discovered that differences in lactate, glucose or any other measurable blood concentration metabolite in atrial or superior vena cava and mixed venous blood can also be used in determining myocardial oxygen consumption.
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Citations
12 Claims
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1. A pulmonary artery catheter adapted to be inserted into a patient'"'"'s venous system to detect the rate of oxygen consumption in the heart by comparing oxygen levels in the pulmonary artery to oxygen levels in the right atrium, or superior vena cava, the catheter comprising:
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an elongated flexible tube having an inflatable balloon at a distal end, a syringe positioned at a proximal end of the tube, the syringe allowing an operator to selectively inflate the balloon to thereby allow the catheter to be pulled through the patient'"'"'s venous system; a thermistor proximal to the balloon, the thermistor measuring blood temperatures and determining cardiac output; a first oxygen sensor located adjacent the distal end of the tube and comprising a series of light emitting diodes and a photodetector, the first oxygen sensor determining blood oxygen content by measuring the blood'"'"'s absorption of infrared light, the first oxygen sensor adapted to be positioned within a patient'"'"'s pulmonary artery; a second oxygen sensor positioned proximal to the first oxygen sensor and likewise comprising a series of light emitting diodes and a photodetector, the second oxygen sensor determining blood oxygen content by measuring the blood'"'"'s absorption of infrared light, the second oxygen sensor adapted to be positioned within a patient'"'"'s right atrium or superior vena cava; a microprocessor operatively coupled to the first and second oxygen sensors, the microprocessor implementing an algorithm that calculates the rate of oxygen consumption in the heart as a function of the difference between blood oxygen content as measured by the first and second oxygen sensors and the cardiac output as determined by the thermistor. - View Dependent Claims (2)
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3. A pulmonary artery catheter comprising:
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an elongated flexible tube; a first metabolite sensor located adjacent the distal end of the tube for determining blood metabolite content and adapted to be positioned within a patient'"'"'s pulmonary artery; a second metabolite sensor positioned proximal to the first metabolite sensor and likewise determining blood metabolite content, the second metabolite sensor adapted to be positioned within a patient'"'"'s right atrium or superior vena cava; a microprocessor operatively coupled to the first and second sensors, the microprocessor implementing an algorithm that calculates the rate of oxygen consumption in the heart as a function of the difference between blood metabolite content as measured by the first and second sensors. - View Dependent Claims (4)
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5. A pulmonary artery catheter comprising:
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an elongated flexible tube; a first oxygen sensor located adjacent the distal end of the tube for determining blood oxygen content and adapted to be positioned within a patient'"'"'s pulmonary artery; a second oxygen sensor positioned proximal to the first oxygen sensor and likewise determining blood oxygen content, the second oxygen sensor adapted to be positioned within a patient'"'"'s right atrium or superior vena cava; a microprocessor operatively coupled to the first and second oxygen sensors, the microprocessor implementing an algorithm that calculates the rate of oxygen consumption in the heart as a function of the difference between blood oxygen content as measured by the first and second oxygen sensors. - View Dependent Claims (6, 7, 8, 9)
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10. A system for determining myocardial oxygen consumption of the heart comprising:
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a first oxygen sensor for determining blood oxygen content, the first sensor adapted to be positioned within the heart'"'"'s pulmonary artery; a second oxygen sensor positioned proximal to the first oxygen sensor and likewise determining blood oxygen content, the second oxygen sensor adapted to be positioned within the heart'"'"'s right atrium or superior vena cava; a microprocessor operatively coupled to the first and second oxygen sensors, the microprocessor implementing an algorithm that calculates the rate of oxygen consumption in the heart as a function of the difference between blood oxygen content as measured by the first and second oxygen sensors. - View Dependent Claims (11, 12)
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Specification