Medical diagnostic instrument using light-to-frequency converter
First Claim
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1. A system for determining a pulse rate of a cardiovascular system comprising:
- a. an electromagnetic radiation source for illumination of a volume of intravascular blood with electromagnetic radiation, the electromagnetic radiation having at least one frequency component having an intensity, the intensity of the at least one frequency component of the electromagnetic radiation being altered by interaction with the volume of intravascular blood thereby generating an optical signal from the interaction of the at least one frequency component of the electromagnetic radiation with the volume of intravascular blood, the optical signal having an intensity;
b. a light-to-frequency converter having an electromagnetic radiation sensor electrically connected to an electronic signal generator, said electromagnetic radiation sensor being optically coupled to said electromagnetic radiation source for reception of the optical signal and said electronic signal generator generating a periodic electrical signal responsive to said electromagnetic radiation sensor, the periodic electrical signal comprising a digital pulse train having pulses, the timing of the pulses of the electrical signal corresponding to the intensity of the optical signal; and
c. a signal analyzer operatively connected to said light-to-frequency converter for determining from the pulses of the periodic electrical signal the pulse rate of the cardiovascular system.
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Abstract
A diagnostic instrument for determining a cardiovascular system parameter. In one embodiment, the instrument takes the form of a portable pulse oximeter comprising a light to frequency converter (LFC) as a sensor. Also provided is a light to frequency converter comprising a photoresistor and capacitor in circuit communication with an inverting Schmitt trigger and configured such that the inverter generates a periodic electrical signal corresponding to the amount of electromagnetic radiation illuminating the photoresistor.
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Citations
17 Claims
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1. A system for determining a pulse rate of a cardiovascular system comprising:
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a. an electromagnetic radiation source for illumination of a volume of intravascular blood with electromagnetic radiation, the electromagnetic radiation having at least one frequency component having an intensity, the intensity of the at least one frequency component of the electromagnetic radiation being altered by interaction with the volume of intravascular blood thereby generating an optical signal from the interaction of the at least one frequency component of the electromagnetic radiation with the volume of intravascular blood, the optical signal having an intensity; b. a light-to-frequency converter having an electromagnetic radiation sensor electrically connected to an electronic signal generator, said electromagnetic radiation sensor being optically coupled to said electromagnetic radiation source for reception of the optical signal and said electronic signal generator generating a periodic electrical signal responsive to said electromagnetic radiation sensor, the periodic electrical signal comprising a digital pulse train having pulses, the timing of the pulses of the electrical signal corresponding to the intensity of the optical signal; and c. a signal analyzer operatively connected to said light-to-frequency converter for determining from the pulses of the periodic electrical signal the pulse rate of the cardiovascular system. - View Dependent Claims (2, 3, 4)
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5. A system for determining a respiration rate of a cardiovascular system comprising:
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a. an electromagnetic radiation source for illumination of a volume of intravascular blood with electromagnetic radiation, the electromagnetic radiation having at least one frequency component having an intensity, the intensity of the at least one frequency component of the electromagnetic radiation being altered by interaction with the volume of intravascular blood thereby generating an optical signal from the interaction of the at least one frequency component of the electromagnetic radiation with the volume of intravascular blood, the optical signal having an intensity; b. a light-to-frequency converter having an electromagnetic radiation sensor electrically connected to an electronic signal generator, said electromagnetic radiation sensor being optically coupled to said electromagnetic radiation source for reception of the optical signal and said electronic signal generator generating a periodic electrical signal responsive to said electromagnetic radiation sensor, the periodic electrical signal comprising a digital pulse train having pulses, the timing of the pulses of the electrical signal corresponding to the intensity of the optical signal; and c. a signal analyzer operatively connected to said light-to-frequency converter for determining from the pulses of the periodic electrical signal the respiration rate of the cardiovascular system. - View Dependent Claims (6, 7, 8)
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9. A system for determining an intravascular volume status of a cardiovascular system comprising:
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a. an electromagnetic radiation source for illumination of a volume of intravascular blood with electromagnetic radiation, the electromagnetic radiation having at least one frequency component having an intensity, the intensity of the at least one frequency component of the electromagnetic radiation being altered by interaction with the volume of intravascular blood thereby generating an optical signal from the interaction of the at least one frequency component of the electromagnetic radiation with the volume of intravascular blood, the optical signal having an intensity; b. a light-to-frequency converter having an electromagnetic radiation sensor electrically connected to an electronic signal generator, said electromagnetic radiation sensor being optically coupled to said electromagnetic radiation source for reception of the optical signal and said electronic signal generator generating a periodic electrical signal responsive to said electromagnetic radiation sensor, the periodic electrical signal comprising a digital pulse train having pulses, the timing of the pulses of the electrical signal corresponding to the intensity of the optical signal; and c. a signal analyzer operatively connected to said light-to-frequency converter for determining from the pulses of the periodic electrical signal the intravasular volume status of the cardiovascular system. - View Dependent Claims (10, 11, 12)
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13. A method of determining a parameter of a cardiovascular system comprising:
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a. illuminating a volume of intravascular blood with electromagnetic radiation, the electromagnetic radiation having at least one frequency component having an intensity, the intensity of the at least one frequency component of the electromagnetic radiation being altered by interaction with the volume of intravascular blood thereby generating an optical signal from the interaction of the at least one frequency component of the electromagnetic radiation with the volume of intravascular blood, the optical signal having an intensity; b. optically coupling a light-to-frequency converter to receive the optical signal; c. generating with the light-to-frequency converter a periodic electrical signal comprising a digital pulse train having pulses, the timing of the pulses of the electrical signal corresponding to a parameter of the optical signal; d. determining data values corresponding to the pulses of the periodic electrical signal; and e. determining the cardiovascular system parameter from the data values. - View Dependent Claims (14, 15, 16, 17)
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Specification