Method and device for measuring pulse rate, blood pressure, and monitoring blood vessel access
First Claim
1. A method of measuring a patient'"'"'s pulse rate in a medical device, which is connected the patient'"'"'s blood vessel by a blood vessel access and has a mechanical device for applying a pressure to a fluid in order to transport the fluid to said blood vessel, comprising steps of:
- measuring the pressure of said fluid;
detecting a spectrum consisting of frequency components comprising the step of applying a frequency analysis to said measured pressure for a period of time;
identifying a frequency component caused by the patient'"'"'s heartbeat by removing a frequency component caused by said mechanical device from said spectrum; and
measuring the patient'"'"'s pulse rate from said frequency component caused by the patient'"'"'s heartbeat.
1 Assignment
0 Petitions
Accused Products
Abstract
A method and device for measuring a patient'"'"'s pulse rate and blood pressure and also the condition of the blood vessel access can be accurately monitored by identifying a frequency component of the pressure wave caused by the patient'"'"'s heartbeat among other pressure waves in a fluid by frequency analysis. The method and device are used when a medical device is connected to the patient'"'"'s blood vessel via a blood vessel access and has a mechanical device for applying pressure to a fluid to transport it to said blood vessel.
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Citations
31 Claims
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1. A method of measuring a patient'"'"'s pulse rate in a medical device, which is connected the patient'"'"'s blood vessel by a blood vessel access and has a mechanical device for applying a pressure to a fluid in order to transport the fluid to said blood vessel, comprising steps of:
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measuring the pressure of said fluid;
detecting a spectrum consisting of frequency components comprising the step of applying a frequency analysis to said measured pressure for a period of time;
identifying a frequency component caused by the patient'"'"'s heartbeat by removing a frequency component caused by said mechanical device from said spectrum; and
measuring the patient'"'"'s pulse rate from said frequency component caused by the patient'"'"'s heartbeat. - View Dependent Claims (2, 3)
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4. A method of measuring a patient'"'"'s pulse rate in a medical device, which is connected the patient'"'"'s blood vessel by a blood vessel access and has a mechanical device for applying a pressure to a fluid in order to transport the fluid to said blood vessel, comprising steps of:
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measuring the pressure of said fluid prior to installing the blood vessel access while causing a pump to fluctuate a rotating frequency within a certain range of a standard frequency;
detecting a spectrum consisting of a frequency component caused by the patient'"'"'s heartbeat by applying a frequency analysis to said measured pressure for a period of time; and
measuring the patient'"'"'s pulse rate from said frequency component caused by the patient'"'"'s heartbeat.
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5. A method of measuring blood pressure in a medical device, which is connected the patient'"'"'s blood vessel by a blood vessel access and has a mechanical device for applying a pressure to a fluid in order to transport the fluid to said blood vessel, comprising steps of:
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measuring the pressure of said fluid;
detecting a spectrum consisting of frequency components by applying a frequency analysis to said measured pressure for a period of time;
identifying a frequency component caused by the patient'"'"'s heartbeat by removing a frequency component caused by said mechanical device from said spectrum; and
measuring the patient'"'"'s blood pressure from an intensity of said frequency component caused by the patient'"'"'s heartbeat. - View Dependent Claims (6, 7)
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8. A method of measuring a patient'"'"'s blood pressure in a medical device, which is connected the patient'"'"'s blood vessel by a blood vessel access and has a mechanical device for applying a pressure to a fluid in order to transport the fluid to said blood vessel, comprising steps of:
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measuring the pressure of said fluid prior to installing the blood vessel access while causing a pump to fluctuate a rotating frequency within a certain range of a standard frequency;
detecting a spectrum consisting of a frequency component caused by the patient'"'"'s heartbeat by applying a frequency analysis device to said measured pressure for a period of time; and
measuring the patient'"'"'s blood pressure from an intensity of said frequency component caused by the patient'"'"'s heartbeat.
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9. A medical device, which is connected the patient'"'"'s blood vessel by a blood vessel access and has a mechanical device for applying a pressure to a fluid in order to transport the fluid to said blood vessel, characterized in having a pulse rate measuring circuit comprising:
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a pressure detection device measuring the pressure of said fluid;
a frequency analysis device detecting a spectrum comprising frequency components by applying a frequency analysis device to said measured pressure for a period of time;
a removal device removing a frequency component caused by the patient'"'"'s heartbeat by removing a frequency component caused by said mechanical device from said spectrum; and
a pulse rate conversion device converting the frequency of said frequency component caused by the patient'"'"'s heartbeat into the patient'"'"'s pulse rate. - View Dependent Claims (10, 11, 15)
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12. A medical device, connected to the patient'"'"'s blood vessel by a blood vessel access and has a mechanical device for applying a pressure to a fluid in order to transport the fluid to said blood vessel, characterized in having a blood pressure measuring circuit comprising:
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a pressure detection device measuring the pressure of said fluid, a frequency analysis device detecting a spectrum consisting of frequency components by applying a frequency analysis to said measured pressure for a period of time;
a removal device removing a frequency component caused by the patient'"'"'s heartbeat by removing a frequency component caused by said mechanical device from said spectrum, and a blood pressure conversion device converting an intensity of said frequency component caused by the patient'"'"'s heartbeat into the patient'"'"'s blood pressure. - View Dependent Claims (13, 14, 16)
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17. A method of monitoring a blood vessel access in a medical device, which is connected the patient'"'"'s blood vessel by a blood vessel access and has a mechanical device for applying a pressure to a fluid in order to transport the fluid to said blood vessel, comprising steps of:
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measuring the pressure of said fluid;
detecting a spectrum consisting of frequency components by applying a frequency analysis device to said measured pressure for a period of time;
identifying a frequency component caused by the patient'"'"'s heartbeat by removing a frequency component caused by said mechanical device from said spectrum, and monitoring anomalies of said blood vessel access by judging an intensity level of said frequency component caused by the patient'"'"'s heart beat. - View Dependent Claims (18, 21, 22)
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19. A method of monitoring a blood vessel access in a medical device, which is connected the patient'"'"'s blood vessel by the blood vessel access and has a mechanical device for applying a pressure to a fluid in order to transport the fluid to said blood vessel, comprising steps of:
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measuring the pressure of said fluid prior to installing the blood vessel access while causing a pump to fluctuate a rotating frequency within a certain range of a standard frequency;
detecting a spectrum consisting of a frequency component caused by the patient'"'"'s heartbeat by applying a frequency analysis device to said measured pressure for a period of time; and
monitoring anomalies of the blood vessel access comprising the step of judging an intensity level of said frequency component caused by the patient'"'"'s heart beat. - View Dependent Claims (23)
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20. A method of monitoring a blood vessel access in a medical device, which is connected the patient'"'"'s blood vessel by a blood vessel access and has a mechanical device for applying a pressure to a fluid in order to transport the fluid to said blood vessel, comprising steps of:
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measuring the pressure of said fluid;
detecting a first spectrum consisting of a frequency component by applying a frequency analysis device to said measured pressure for a first period of time;
storing said first spectrum;
detecting a second spectrum consisting of a frequency component by applying a frequency analysis to said measure pressure for a second period of time after said first period of time;
storing said second spectrum;
obtaining a difference between the frequency component of said first spectrum and the frequency component of said second spectrum; and
judging the intensity level of said difference. - View Dependent Claims (24)
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25. A medical device, connected a patient'"'"'s blood vessel by a blood vessel access and has a mechanical device for applying a pressure to a fluid in order to transport the fluid to said blood vessel, having a blood vessel access monitoring circuit comprising:
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a pressure detection device measuring the pressure of said fluid, a frequency analysis device detecting a spectrum consisting of each frequency component by applying a frequency analysis device to said measured pressure for a period of time;
a removal device removing a frequency component caused by the patient'"'"'s heartbeat by removing a frequency component caused by said mechanical device from said spectrum, and a judgment device judging anomalies of said blood vessel access by measuring an intensity level of said frequency component caused by the patient'"'"'s heartbeat. - View Dependent Claims (26, 28, 29)
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27. A medical device connected a patient'"'"'s blood vessel by a blood vessel access and has a mechanical device for applying a pressure to a fluid in order to transport the fluid to said blood vessel, having a blood vessel access monitoring circuit comprising:
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a pressure detection device measuring pressure of said fluid;
a frequency analysis device detecting a first spectrum consisting of frequency components by applying a frequency analysis device to said measured pressure for a first period of time;
a first storage device for storing said first spectrum;
said frequency analysis device detecting a second spectrum consisting of frequency components by applying a frequency analysis device to said measured pressure for a second period of time;
a second storage device for storing said second spectrum; and
a judgment device judging the intensity level of the difference between said frequency component of said first spectrum and said frequency component of said second spectrum. - View Dependent Claims (30, 31)
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Specification