Four function vital sign monitor
First Claim
1. An apparatus of the type designed to monitor the vital signs of a person, comprising,a cuff to exert pressure on any preselected artery of a person,means for inflating and deflating said cuff,means for controlling the deflation rate of said cuff so as to maintain the rate at a substantially constant value during the deflation of said cuff,a transducer coupled to said cuff which transmits pressure signals proportional to the pressure of said cuff and pressure pulses from said artery,an analog to digital converter responsive to pressure signals from said transducer to convert said pressure signals to digital representations,a plurality of amplifiers coupled to said transducer and respectively responsive to pressure pulses having the smallest amplitude, the highest amplitude and amplitudes therebetween, for providing transmission indications of said pressure pulses,a microprocessor coupled to said analog to digital converter and said amplifiers to receive transmission indications of said pressure pulses and digital representations of the pressures at which said pressure pulse transmissions start and end, so as to compute the systolic and diastolic pressure, andmeans associated with said microprocessor for displaying the systolic and diastolic pressure values.
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Accused Products
Abstract
A four function vital sign monitor. The apparatus provides a display showing a person'"'"'s temperature, respiration rate, pulse rate and blood pressure. The apparatus is specifically designed to provide accurate systolic and diastolic measurements for persons having healthy, flexible arteries or unhealthy, rigid arteries, or having unusually low blood pressure as a result of trauma or other shock-inducing event. A blood pressure cuff applied around any extremity transmits cuff pressure signals, for blood pressure and pulse rate computation, to a pressure transducer housed in the monitor. The versatility of the apparatus resides in its provision of a plurality of devices having different levels of sensitivity so that pressure pulses of differing amplitudes transmitted by the pressure transducer are detected by different ones of such detecting devices. Each device, when activated by a pressure pulse having the requisite threshold amplitude, emits a signal to a microprocessor that computes the diastolic and systolic pressure and the pulse rate. When any one or more of the pressure pulses of an individual are not present, the microprocessor performs computations on the available data as modified by the addition of predicted values for the unavailable data. When pressure signals even smaller than a preselected allowable threshold are present, a threshold-establishing device is automatically bypassed to admit such small signals to the microprocessor through the amplifiers.
27 Citations
16 Claims
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1. An apparatus of the type designed to monitor the vital signs of a person, comprising,
a cuff to exert pressure on any preselected artery of a person, means for inflating and deflating said cuff, means for controlling the deflation rate of said cuff so as to maintain the rate at a substantially constant value during the deflation of said cuff, a transducer coupled to said cuff which transmits pressure signals proportional to the pressure of said cuff and pressure pulses from said artery, an analog to digital converter responsive to pressure signals from said transducer to convert said pressure signals to digital representations, a plurality of amplifiers coupled to said transducer and respectively responsive to pressure pulses having the smallest amplitude, the highest amplitude and amplitudes therebetween, for providing transmission indications of said pressure pulses, a microprocessor coupled to said analog to digital converter and said amplifiers to receive transmission indications of said pressure pulses and digital representations of the pressures at which said pressure pulse transmissions start and end, so as to compute the systolic and diastolic pressure, and means associated with said microprocessor for displaying the systolic and diastolic pressure values.
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13. A method for computing the blood pressure of a person, in a vital sign monitoring apparatus comprising a cuff, a transducer, an analog-to-digital converter, first, second, third and fourth amplifiers and a microprocessor, including the steps of:
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exerting pressure with said cuff on any preselected artery of the person; transmitting pressure signals proportional to the pressure of said cuff by said transducer; transmitting pressure pulses from the artery by said transducer; providing transmission indications of pressure pulses with small amplitude by said first amplifier; providing transmission indications of pressure pulses with medium amplitude by said second amplifier; providing transmission indications of pressure pulses with normal amplitude by said third amplifier; providing transmission indications of pressure pulses with high amplitude by said fourth amplifier; converting the pressure signals to digital representations by said analog-to-digital converter; receiving by said microprocessor the transmission indications of pressure pulses with small, medium, normal and high amplitudes and the digital representations of the pressure signals; averaging by said microprocessor of the digital representations of the pressures at which the pressure pulses with small, medium, normal and high amplitudes start transmission to determine the systolic pressure; and averaging, by said microprocessor, the digital representations of the pressures at which the pressure pulses with small, medium, normal and high amplitudes end transmission to determine the diastolic pressure.
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14. A method for computing blood pressure of a person with low pressure pulse, in a vital sign monitoring apparatus comprising a cuff, a transducer, an analog-to-digital converter, first and second amplifiers, and a microprocessor, including the steps of:
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exerting pressure with said cuff on any preselected artery of the person; transmitting pressure signals proportional to the pressure of said cuff by said transducer; transmitting pressure pulses from the preselected artery by said transducer; providing transmission indications of pressure pulses with small amplitude by said first amplifier; providing transmission indications of pressure pulses with medium amplitude by said second amplifier; converting the pressure signals to digital representations by said analog-to-digital converter; receiving by said microprocessor the transmission indications of pressure pulses from said first and second amplifiers and the digital representations from said analog-to-digital converter; averaging by said microprocessor the digital representation of the pressures at which the pressure pulses with small and medium amplitudes start transmission to determine systolic pressure; and averaging by said microprocessor the digital representation of the pressures at which the pressure pulses with small and medium ampliutudes end transmission to determine diastolic pressure.
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15. A method for computing blood pressure of a person in shock, in a vital sign monitoring apparatus comprising a cuff, a transducer, an analog-to-digital converter, a first amplifier and a microprocessor, including the steps of:
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exerting pressure with said cuff in any preselected artery of the person; transmitting pressure signals proportional to the pressure of said cuff by said transducer; transmitting pressure pulses from said artery by said transducer; providing transmission indications of pressure pulses with small amplitude by said first amplifier; converting the pressure signals to digital representations by said analog-to-digital converter; receiving by said microprocessor the transmission indications of pressure pulses from said first amplifier and the digital representations from said analog-to-digital converter; averaging by said microprocessor of the digital representation of the pressure at which the pressure pulses with small amplitude start transmission plus the value of said representation minus a known constant to determine systolic pressure; and averaging by said microprocessor of the digital representation of the pressure at which the pressure pulses with small amplitude end transmission plus the value of said representation plus said known constant to determine diastolic pressure.
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16. A method for computing the heart rate of a person, in a vital sign monitoring apparatus comprising a cuff, a transducer, an analog-to-digital converter, a first amplifier and a microprocessor, including the steps of:
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exerting pressure with said cuff on any preselected artery of the person; transmitting pressure signals proportional to the pressure of said cuff by said transducer; transmitting pressure pulses from said artery by said transducer; providing transmission indications of pressure pulses with small amplitude by said first amplifier; converting the pressure signals to digital representation by said analog-to-digital converter; receiving by said microprocessor the transmission indications of pressure pulses from said first amplifier and the digital representations from said analog-to-digital converter; discarding the digital representation of the first transmitted pressure pulse with small amplitude; determining a first pulse rate by computing the wave period between the second and third pressure pulses with small amplitude, as the difference between the two digital representations at which said second and third pressure pulses start transmission; determining a second pulse rate by computing the wave period between the third and fourth pressure pulses with small amplitude, as the difference between the two digital representations at which said third and fourth pressure pulses start transmission; and comparing the differences between the first and second pulse rates with a number plus or minus a preselected constant to consider the first pulse rate as the heart rate if said difference is less than the number plus or minus said preselected constant such as three.
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Specification