Skin pallor and blush monitor
First Claim
1. A pallor and blush monitor for measuring changes in blood circulation of a patient'"'"'s skin, the monitor comprising(a) transmitter means, adapted for positioning upon the patient'"'"'s skin, for transmitting infrared radiation to a defined area of the skin;
- (b) pulsed power means, connected to the transmitter means, for pulsing the radiation from the transmitter means;
(c) detector means, also adapted for positioning upon the skin, for detecting infrared radiation reflected by the defined area and generating electrical signals responsive thereto;
(d) synchronous demodulator means, connected to the detector means, for receiving signals generated by the detector means when the transmitter means is on and off, and for producing an amplified difference signal from said detector-generated signals;
(e) current regulating means for controlling the amplitude of the current drawn by the transmitter means; and
(f) temperature compensating means, connecting to the synchronous demodulator means, said temperature compensating means including a thermistor located in proximity to the transmitter means for measuring changes in the temperature of the transmitter and a means for temperature compensating the amplified difference signal in response to the output of the thermistor.
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Accused Products
Abstract
A new type of infrared reflectance device is disclosed to provide a quantitative evaluation of skin pallor. The instrument is designed to produce a measurement proportional to the percentage of infrared reflectance of the skin. In one embodiment, it consists of a miniature GaAs light emitting diode, which provides a pulsed infrared light source, a silicon photodiode detector, and processing circuitry. The device electronics are temperature compensated and are designed to respond only to the pulsed component of the detector output and to reject components due to stray light from external sources. The wavelength is chosen such that the measurement is relatively insensitive to the level of blood oxygenation and melanin pigment in the skin.
99 Citations
13 Claims
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1. A pallor and blush monitor for measuring changes in blood circulation of a patient'"'"'s skin, the monitor comprising
(a) transmitter means, adapted for positioning upon the patient'"'"'s skin, for transmitting infrared radiation to a defined area of the skin; -
(b) pulsed power means, connected to the transmitter means, for pulsing the radiation from the transmitter means; (c) detector means, also adapted for positioning upon the skin, for detecting infrared radiation reflected by the defined area and generating electrical signals responsive thereto; (d) synchronous demodulator means, connected to the detector means, for receiving signals generated by the detector means when the transmitter means is on and off, and for producing an amplified difference signal from said detector-generated signals; (e) current regulating means for controlling the amplitude of the current drawn by the transmitter means; and (f) temperature compensating means, connecting to the synchronous demodulator means, said temperature compensating means including a thermistor located in proximity to the transmitter means for measuring changes in the temperature of the transmitter and a means for temperature compensating the amplified difference signal in response to the output of the thermistor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A pallor and blush monitor for measuring changes in blood circulation of a patient'"'"'s skin, the monitor comprising:
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(a) a light-emitting diode, adapted for positioning upon the patient'"'"'s skin, for transmitting infrared radiation at an isobestic wavelength of hemoglobin to a defined area of the skin; (b) an oscillator-pulsed power source connected to the light-emitting diode for pulsing the radiation from the diode; (c) adjustment means connected between the power source and the light-emitting diode cojprising a potentiometer for varying the current to the light-emitting diode whereby the sensitivity of the monitor can be adjusted to the patient'"'"'s natural skin color and skin hemoglobin content; (d) current regulating means connected between the power source and the light-emitting diode for controlling the amplitude of the current drawn by the light-emitting diode; (e) a photodiode detector, also adapted for positioning upon the patient'"'"'s skin, for detecting radiation reflected by the defined area and generating an electrical current in response thereto; (f) a synchronous demodulator circuit, connected to the photodiode detector, comprising (i) converter means for converting the current from the detector into a voltage; (ii) first capacitance means for storing a first voltage from the detector when the light-emitting diode is on; (iii) second capacitance means for storing a second voltage from the detector when the light-emitting diode is off; and (iv) differential amplifying means for amplifying the difference between the first and second voltage to generate an amplified difference signal; and (g) temperature compensating means, connected to the synchronous demodulator circuit, comprising a thermistor located in close proximity to the light-emitting diode, means for temperature-compensating the amplified difference signal in response to the output of the thermistor; and a low pass filter for filtering the temperature-compensated signal.
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Specification