Apparatus for measuring blood volume and method of evaluating result of measurement by apparatus for measuring blood volume
First Claim
Patent Images
1. An apparatus for measuring a blood volume, the apparatus comprising:
- a first calculator which calculates a first blood volume by using information on a cardiac output of a subject;
a second calculator which calculates a second blood volume by using specific information of the subject including at least a sex, age, body surface area, heart rate and blood pressure of the subject,an evaluator which compares the first blood volume and the second blood volume and evaluates and displays a blood volume calculation function based on a comparison result,wherein the first calculator calculates the first blood volume based on a pulse wave propagation time and a heart rate of the subject, from an expression of CO=(α
K·
PWTT+β
K)·
HR where CO is the first blood volume, PWTT is the pulse wave propagation time, HR is the heart rate, and α
K and β
K are coefficients inherent to the subject.
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Abstract
An apparatus for measuring a blood volume, includes: a first calculator which calculates a first blood volume by using information on a cardiac output of a subject; and a second calculator which calculates a second blood volume by using information on oxygen metabolism of the subject.
9 Citations
15 Claims
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1. An apparatus for measuring a blood volume, the apparatus comprising:
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a first calculator which calculates a first blood volume by using information on a cardiac output of a subject; a second calculator which calculates a second blood volume by using specific information of the subject including at least a sex, age, body surface area, heart rate and blood pressure of the subject, an evaluator which compares the first blood volume and the second blood volume and evaluates and displays a blood volume calculation function based on a comparison result, wherein the first calculator calculates the first blood volume based on a pulse wave propagation time and a heart rate of the subject, from an expression of CO=(α
K·
PWTT+β
K)·
HR where CO is the first blood volume, PWTT is the pulse wave propagation time, HR is the heart rate, and α
K and β
K are coefficients inherent to the subject. - View Dependent Claims (2)
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3. An apparatus for measuring a blood volume, the apparatus comprising:
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a first calculator which calculates a first blood volume by using information on a cardiac output of a subject; and a third calculator which calculates a third blood volume from a change amount of a demand of a blood volume from a reference time to a time, the change amount being estimated by using information on a cardiac output, heart rate information, and blood pressure information of the subject at the reference time, wherein the third calculator calculates the third blood volume by using a blood pressure and a heart rate of the subject, and wherein the third calculator calculates the third blood volume based on an expression of CO=CO1+e1·
(HR·
PP−
HR0·
PP0) where CO is the third blood volume, CO1 is the cardiac output at the reference time, HR is the heart rate, HR0 is HR at the reference time, PP is the blood pressure, PP0 is PP at the reference time, and e1 is a constant. - View Dependent Claims (4, 5, 6)
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7. A method of evaluating a result of measurement of a blood volume by an apparatus for measuring the blood volume, the method comprising:
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inputting at least a sex, an age, a body surface area, a blood pressure, and a heart rate as specific information of a subject; and calculating a first blood volume based on a pulse wave propagation time and the heart rate, from an expression of CO=(α
K·
PWTT+β
K)·
HR where CO is the first blood volume, PWTT is the pulse wave propagation time, HR is the heart rate, and α
K and β
K are coefficients inherent to the subject,wherein the second blood volume is calculated by an expression of at least one of; CO2=a1+b1·
Sex+c1·
Age+d1·
BSA+e1·
HR·
PP where CO2 is the second blood volume;
Sex is the sex, when the subject is male, Sex=1, and when the subject is female, Sex=−
1;
Age is the age;
BSA is the body surface area;
HR is the heart rate;
PP is the blood pressure; and
a1, b1, c1, d1, and e1 are constants, andCO2=a2+b2·
Sex+c2·
Age+d2·
BSA+e2·
HR·
PP+f2·
PWTT where CO2 is the second blood volume;
Sex is the sex, when the subject is male, Sex=1, and when the subject is female, Sex=−
1;
Age is the age;
BSA is the body surface area;
HR is the heart rate;
PP is the blood pressure;
PWTT is a pulse wave propagation time of the subject; and
a2, b2, c2, d2, e2, and f2 are constants. - View Dependent Claims (8)
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9. An apparatus for measuring a blood volume, the apparatus comprising:
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an input portion for inputting specific information of a subject; a storage portion for storing a value, CO, at a reference time as CO1; a first calculator which calculates a first blood volume, esCO, by using information on a cardiac output of a subject, wherein the first calculator calculates the first blood volume, esCO, based on a pulse wave propagation time and a heart rate of the subject, from an expression of esCO=(α
K·
PWTT+β
K)·
HR, where esCO is the first blood volume, PWTT is the pulse wave propagation time, HR is the heart rate, and α
K and β
K are coefficients inherent to the subject wherein the specific information includes at least a sex, age, body surface area, blood pressure of the subject, and the heart rate;a second calculator which calculates a second blood volume by using specific information of the subject based on the following; CO2=a+b·
Sex+c·
Age+d·
BSA+e·
PWTT1+f·
HR1·
PP1, where CO2 is the second blood volume;
Sex is the sex, when the subjects male. Sex=1, and when the subject is female, Sex=−
1;
Age is the age;
BSA is the body surface area;
PWTT1 is a pulse wave propagation time of the subject at the reference time, HR1 is the heart rate at the reference time;
PP1 is the blood pressure at the reference time; and
a, b, c , d, e, and f are constants, anda third calculator for calculating a third blood volume, CO3, by an expression of CO3=a+b·
Sex+c·
Age+d·
BSA+e·
PWTT+f·
HR·
PP, where CO3 is the third blood volume;
Sex is the sex, when the subject is male, Sex=1, and when the subject is female, Sex=−
1;
Age is the age;
BSA is the body surface area;
HR is the heart rate;
PP is the blood pressure;
PWTT is a pulse wave propagation time of the subject; and
a, b, c, d, e, and f are constants;a display portion for displaying the calculated first blood volume, esCO; and an evaluator for calculating an evaluation value, representing the degree of coincidence between the first blood volume, esCO, and the third blood volume, CO3, by an expression of y=(esCO−
CO1)/CO1−
(CO3−
CO2)/CO2, and for determining whether the absolute value of the calculated evaluation value, y, is larger than a predetermined threshold. - View Dependent Claims (10)
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11. An apparatus for measuring a blood volume, the apparatus comprising:
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an input portion for inputting specific information of the subject; a storage portion for storing a value, CO, at a reference time as CO1; a substitution portion for substituting a second blood volume, CO2, by CO1; a first calculator which calculates a first blood volume, esCO, by using information on a cardiac output of a subject; a third calculator which calculates a third blood volume, CO3, from an amount of change of a demand of a blood volume from a reference time to a time, the change amount being estimated by using information on a cardiac output of the subject at the reference time, the third blood volume, CO3, being calculated using one of the following two expressions; a first expression wherein the third calculator calculates the third blood volume, CO3, by using a blood pressure and a heart rate of the subject, based on an expression of CO3=CO1+e1·
(HR·
PP−
HR0·
PP0), where CO3 is the third blood volume, CO1 is the cardiac output at the reference time, HR is the heart rate, HR0 is HR at the reference time, PP is the blood pressure, PP0 is PP at the reference time, and e1 is a constant, anda second expression wherein the third calculator calculates the third blood volume by using a pulse wave propagation time of the subject, based on an expression of CO3=CO1 +e1·
(HR·
PP−
HR0·
PP0)+f1·
PWTT−
PWTT0) where CO3 is the third blood volume, CO1 is the cardiac output at the reference time, HR is the heart rate, HR0 is HR at the reference time, PP is the blood pressure, PP0 is PP at the reference time, PWTT is the pulse wave propagation time, PWTT0 is PWTT at the reference time, and e1 and f1 are constants,a display portion for displaying the calculated first blood volume, esCO; and an evaluator for calculating an evaluation value, representing the degree of coincidence between the first blood volume, esCO, and the third blood volume, CO3, by an expression of y=(esCO−
CO3)/CO1, and for determining whether the absolute value of the calculated evaluation value, y, is larger than a predetermined threshold.
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12. A method of evaluating a result of measurement of a blood volume by using an apparatus for measuring the blood volume, the method comprising:
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inputting at least a sex, an age, a body surface area, a blood pressure, and a heart rate as specific information of a subject; inputting a value, CO, for calibration and storing the input value as CO1; using a second calculator for calculating a second blood volume, CO2, by the following; CO2=a+b·
Sex+c·
d·
Age+d·
BSA+e·
PWTT1+f·
HR1·
PP1, where CO2 is the second blood volume;
Sex is the sex. when the subject is male, Sex=1,and when the subject is female, Sex=−
1;
Age is the age;
BSA is the body surface area;
PWTT1 is a pulse wave propagation time of the subject at the reference time, HR1 is the heart rate at the reference time;
PP1 is the blood pressure at the reference time; and
a, b, c, d, e, and f are constants, andusing a first calculator for calculating a first blood volume, esCO, based on a pulse wave propagation time and the heart rate, from an expression of esCO=(α
K·
PWTT+β
K)·
HR, where esCO is the first blood volume, PWTT is the pulse wave propagation time, HR is the heart rate, and α
K and β
K are coefficients inherent to the subject;displaying on a display portion the calculated first blood volume, esCO; using a third calculator for calculating a third blood volume, CO3, by an expression of CO3=a+b·
Sex+c·
Age+d·
BSA+e·
PWTT+f·
HR·
PP, where CO3 is the third blood volume;
Sex is the sex, when the subject is male, Sex=1, and when the subject is female, Sex=−
1;
Age is the age;
BSA is the body surface area;
HR is the heart rate;
PP is the blood pressure;
PWTT is a pulse wave propagation time of the subject; and
a, b, c, d, e, and f are constants;using an evaluator for calculating an evaluation value, representing the degree of coincidence between the first blood volume, esCO, and the third blood volume, CO3, by an expression of y=(esCO−
CO1)/CO1−
(CO3−
CO2)/CO2; anddetermining whether the absolute value of the calculated evaluation value, y, is larger than a predetermined threshold. - View Dependent Claims (14)
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13. A method of evaluating a result of measurement of a blood volume by using an apparatus for measuring the blood volume, the method comprising:
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inputting at least a sex, an age, a body surface area, a blood pressure, and a heart rate as specific information of a subject; inputting a value, CO, for calibration and storing the input value as CO1; substituting a second blood volume, CO2, by CO1; using a first calculator for calculating a first blood volume, esCO, based on a pulse wave propagation time and the heart rate, from an expression of esCO=(α
K·
PWTT+β
K)·
HR where esCO is the first blood volume, PWTT is the pulse wave propagation time, HR is the heart rate, and α
K and β
K are coefficients inherent to the subject;displaying on a display portion the calculated first blood volume, esCO; using a third blood volume for calculating a third blood volume, CO3, by using one of the following two expressions; a first expression which uses a blood pressure and a heart rate of the subject, of CO3=CO1+e1·
(HR·
PP−
HR0·
P0), where CO3 is the third blood volume, CO1 is the cardiac output at the reference time, HR is the heart rate, HRO is HR at the reference time, PP is the blood pressure, PP0 is PP at the reference time, and el is a constant, anda second expression which uses a pulse wave propagation time of the subject, of CO3=CO1+e1·
(HR·
PP−
HR0·
PP0)+f1·
(PWTT−
PWTT0), where CO3 is the third blood volume, CO1 is the cardiac output at the reference time, HR is the heart rate, HRO is HR at the reference time, PP is the blood pressure, PP0 is PP at the reference time, PWTT is the pulse wave propagation time, PWTT0 is PWTT at the reference time, and e1 and f1 are constants;using an evaluator for calculating an evaluation value, representing the degree of coincidence between the first blood volume, esCO, and the third blood volume, CO3, by an expression of y=(esCO−
CO3)/CO1; anddetermining whether the absolute value of the calculated the evaluation value, y, is larger than a predetermined threshold. - View Dependent Claims (15)
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Specification