Heart-related parameters monitoring apparatus
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1. Apparatus for determining the magnitude of heart-related parameters in a patient;
- comprising;
means for detecting blood volume, and thereby blood volume variation, in said patient, and for providing a signal representative of said blood volume, and thereby said blood volume variation;
said means for detecting being attachable to said patient to thereby detect said blood volume, and thereby said blood volume variation;
said blood volume variation being cyclic in nature whereby said signal comprises a cyclic curve having, in each cycle of variation, a variable slope, a maximum amplitude representative of the maximum amount of blood volume, a minimum amplitude representative of the minimum amount of blood volume, a first time interval between said minimum amplitude and said maximum amplitude, a maximum rate of change of said signal being representative of the maximum rate of increase of blood volume, a second time interval between the minimum amplitude and the time of the maximum rate of change of said signal, a first difference in amplitude between said maximum amplitude and said minimum amplitude, a second difference in amplitude between the maximum amplitude and the amplitude at the time of maximum rate of change of said signal being representative of the difference in volume between the maximum amount of blood volume and the volume at the time of maximum rate of change of said blood volume, and a pulse repetition period;
means for measuring said maximum amplitude, said minimum aplitude, said maximum rate of change of said signal, said first difference, said second different, said first time interval, and said second time interval; and
means for calculating the magnitude of selected ones of said parameters, said means for calculating being connected to both said means for detecting and means for measuring;
wherein means for calculating calculates the magnitude of the pulse pressure parameter in accordance with the following expression;
##EQU17## wherein Ppi =pulse pressure during cycle iKpp =constant determined by a first calibrationr1 =constantr2 =constantRil =(Δ
ViVm /Δ
Vi) where Δ
ViVm =volume change at time tiVm during cycle i corresponding to maximum rate of volume change, VimaxΔ
Vi =maximum volume change during cycle iΔ
tiVm =time interval from start of cycle i to time of maximum rate of volume change Vimax.
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Abstract
A non-invasive method, and an apparatus, for determining heart-related parameters in patients. The method and apparatus determine pulse pressure, time constant of the arterial system, systolic and diastolic pressure, peripheral resistance, cardiac output and mean arterial blood pressure.
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16 Claims
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1. Apparatus for determining the magnitude of heart-related parameters in a patient;
comprising; means for detecting blood volume, and thereby blood volume variation, in said patient, and for providing a signal representative of said blood volume, and thereby said blood volume variation; said means for detecting being attachable to said patient to thereby detect said blood volume, and thereby said blood volume variation; said blood volume variation being cyclic in nature whereby said signal comprises a cyclic curve having, in each cycle of variation, a variable slope, a maximum amplitude representative of the maximum amount of blood volume, a minimum amplitude representative of the minimum amount of blood volume, a first time interval between said minimum amplitude and said maximum amplitude, a maximum rate of change of said signal being representative of the maximum rate of increase of blood volume, a second time interval between the minimum amplitude and the time of the maximum rate of change of said signal, a first difference in amplitude between said maximum amplitude and said minimum amplitude, a second difference in amplitude between the maximum amplitude and the amplitude at the time of maximum rate of change of said signal being representative of the difference in volume between the maximum amount of blood volume and the volume at the time of maximum rate of change of said blood volume, and a pulse repetition period; means for measuring said maximum amplitude, said minimum aplitude, said maximum rate of change of said signal, said first difference, said second different, said first time interval, and said second time interval; and means for calculating the magnitude of selected ones of said parameters, said means for calculating being connected to both said means for detecting and means for measuring; wherein means for calculating calculates the magnitude of the pulse pressure parameter in accordance with the following expression;
##EQU17## wherein Ppi =pulse pressure during cycle iKpp =constant determined by a first calibration r1 =constant r2 =constant Ril =(Δ
ViVm /Δ
Vi)where Δ
ViVm =volume change at time tiVm during cycle i corresponding to maximum rate of volume change, VimaxΔ
Vi =maximum volume change during cycle iΔ
tiVm =time interval from start of cycle i to time of maximum rate of volume change Vimax.
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2. Apparatus for determining the magnitude of heart-related parameters in a patient;
comprising; means for detecting blood volume, and thereby blood volume variation, in said patient, and for providing a signal representative of said blood volume, and thereby said blood volume variation; said means for detecting being attachable to said patient to thereby said blood volume, and thereby said blood volume variation; said blood volume variation being cyclic in nature whereby said signal comprises a cyclic curve having, in each cycle of variation, a variable slope, a maximum amplitude representative of the maximum amount of blood volume, a minimum amplitude representative of the minimum amount of blood volume, a first time interval between said minimum amplitude and said maximum amplitude, a maximum rate of change of said signal being representative of the maximum rate of increase of blood volume, a second time interval between the minimum amplitude and the time of the maximum rate of change of said signal, a first difference in amplitude between said maximum amplitude and said minimum amplitude, a second difference in amplitude between the maximum amplitude and the amplitude at the time of maximum rate of change of said signal being representative of the difference in volume between the maximum amount of blood volume and the volume at the time of maximum rate of change of said blood volume, and a pulse repetition period; means for measuring said maximum amplitude, said minimum aplitude, said maximum rate of change of said signal, said first difference, said second different, said first time interval, and said second time interval; and means for calculating the magnitude of selected ones of said parameters, said means for calculating being connected to both said means for detecting and means for measuring; wherein means for calculating calulates the magnitude of the mean arterial blood pressure, Pmi parameter in accordance with the following expression;
space="preserve" listing-type="equation">P.sub.mi =P.sub.o +P.sub.mmi ##EQU18## where K.sub.4 =constant determined for each subjectb3 =constant Pmmi =pseudo mean arterial blood pressure during cycle i Δ
i =maximum volume change during cycle i ##EQU19## ##EQU20##
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3. Apparatus for determining the magnitude of heart-related parameters in a patient;
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comprising; means for detecting blood volume, and thereby blood volume variation, in said patient, and for providing a signal representative of said blood volume, and thereby said blood volume variation; said means for detecting being attachable to said patient to thereby detect said blood volume, and thereby said blood volume variation; said volume variation being cyclic in nature whereby said signal comprises a cyclic curve having, in each cycle of variation, a variable slope, a maximum amplitude representative of the maximum amount of blood volume, a minimum amplitude representative of the minimum amount of blood volume, a first time interval between said minimum amplitude and said maximum amplitude, a maximum rate of change of said signal being representative of the maximum rate of increase of blood volume, a second time interval between the minimum amplitude and the time of the maximum rate of change of said signal, a first difference in amplitude between said maximum amplitude and said minimum amplitude, a second difference in amplitude between the maximum amplitude and the amplitude at the time of maximum rate of change of said signal being representative of the difference in volume between the maximum amount of blood volume and the volume at the time of maximum rate of change of said blood volume, and a pulse repetition period; means for measuring said maximum amplitude, said minimum aplitude, said maximum rate of change of said signal, said first difference, said second different, said first time interval, and said second time interval; and means for calculating the magnitude of selected ones of said parameters, said means for calculating being connected to both said means for detecting and means for measuring; wherein means for calculating calculates the magnitude of the systolic pressure (Psi) parameter in accordance with the following expression;
space="preserve" listing-type="equation">P.sub.si =P.sub.mi +(l-g.sub.0)P.sub.piwherein g0 =constant.
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4. Apparatus for determining the magnitude of heart-related parameters in a patient;
comprising; means for detecting blood volume, and thereby blood volume variation, in said patient, and for providing a signal representative of said blood volume, and thereby said blood volume variation; said means for detecting being attachable to said patient to thereby detect said blood volume, and thereby said blood volume variation; said blood volume variation being cyclic in nature whereby said signal comprises a cyclic curve having, in each cycle of variation, a variable slope, a maximum amplitude representative of the maximum amount of blood volume, a minimum amplitude representative of the minimum amount of blood volume, a first time interval between said minimum amplitude and said maximum amplitude, a maximum rate of change of said signal being representative of the maximum rate of increase of blood volume, a second time interval between the minimum amplitude and the time of the maximum rate of change of said signal, a first difference in amplitude between said maximum amplitude and said minimum amplitude, a second difference in amplitude between the maximum amplitude and the amplitude at the time of maximum rate of change of said signal being representative of the difference in volume between the maximum amount of blood volume and the volume at the time of maximum rate of change of said blood volume, and a pulse repetition period; means for measuring said maximum amplitude, said minimum aplitude, said maximum rate of change of said signal, said first difference, said second different, said first time interval, and said second time interval; and means for calculating the magnitude of selected ones of said parameters, said means for calculating being connected to both said means for detecting and means for measuring; wherein means for calculating calculates the magnitude of the systolic pressure (Psi) parameter in accordance with the following expression;
space="preserve" listing-type="equation">P.sub.si =P.sub.mi +(1-g.sub.i)P.sub.piwherein; gi =(Δ
ViAV /Δ
Vi)Ppi =pulse pressure during cycle i Δ
Vi =represented by said first differenceΔ
ViAV =represented by the difference between said minimum amplitude and an amplitude equal to the average value of a pulse in a cycle i.
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5. Apparatus for determining the magnitude of heart-related parameters in a patient;
comprising; means for detecting blood volume, and thereby blood volume variation, in said patient, and for providing a signal representative of said blood volume, and thereby said blood volume variation; said means for detecting being attachable to said patient to thereby detect said blood volume, and thereby said blood volume variation; said blood volume variation being cycle in nature whereby said signal comprises a cyclic curve having, in each cycle of variation, a variable slope, a maximum amplitude representative of the maximum amount of blood volume, a minimum amplitude representative of the minimum amount of blood volume, a first time interval between said minimum amplitude and said maximum amplitude, a maximum rate of change of said signal being representative of the maximum rate of increase of blood volume, a second time interval between the minimum amplitude and the time of the maximum rate of change of said signal, a first difference in amplitude between said maximum amplitude and said minimum amplitude, a second difference in amplitude between the maximum amplitude and the amplitude at the time of maximum rate of change of said signal being representative of the difference in volume between the maximum amount of blood volume and the volume at the time of maximum rate of change of said blood volume, and a pulse repetition period; means for measuring said maximum amplitude, said minimum aplitude, said maximum rate of change of said signal, said first difference, said second different, said first time interval, and said second time interval; and means for calculating the magnitude of selected ones of said parameters, said means for calculating being connected to both said means for detecting and means for measuring; wherein means for calculating calculates the magnitude of the arterial blood pressure, Pmi parameter in accordance with the following expression;
space="preserve" listing-type="equation">P.sub.mi =P.sub.o +P.sub.mmi ##EQU21## where K.sub.4 =constant determined for each subjectb3 =constant Pmmi =pseudo mean arterial blood pressure during cycle i Δ
Vi =maximum volume change during cycle i ##EQU22## Po =constant whereG(t)=a function of t.
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6. A method for determining the magnitude of heart-related parameters in a patient;
comprising; detecting blood volume, and thereby blood volume variation, in said patient and providing a signal representative of said blood volume, and thereby said blood volume variation; said blood volume variation being cyclic in nature whereby said signal comprises a cyclic curve having, in each cycle of variation, a variable slope, a maximum amplitude representative of the maximum amount of blood volume, a minimum amplitude representative of the minimum amount of blood volume, a first time interval between said maximum amplitude and said minimum amplitude, a maximum rate of change of said signal being representative of the maximum rate of change of blood volume, a second time interval between the minimum amplitude and the time of the maximum rate of change of said signal, a first difference in amplitude between said maximum amplitude and said minimum amplitude, a second difference in amplitude between the maximum amplitude and the amplitude at the time of maximum change of rate of said signal being representative of the difference in volume between the maximum amount of blood volume and the volume at the time of maximum rate of change of said blood volume, and a pulse repetition period; measuring said maximum amplitude, said minimum amplitude, said maximum rate of change of said signal, said first difference, said second difference, said first time interval, and said second time interval; and calculating the magnitude of the pulse pressure parameter in accordance with the following expression;
##EQU23## wherein Ppi =pulse pressure during cycle iKpp =constant determined by a first calibration r1 =constant r2 =constant Ril =(Δ
ViVm /Δ
Vi)where Δ
ViVm =volume change at time tiVm during cycle i corresponding to maximum rate of volume change, VimaxΔ
Vi =maximum volume change during cycle iΔ
tiVm =time interval from start of cycle i to time of maximum rate of volume change Vimax.
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7. A method for determining the magnitude of heart-related parameters in a patient;
comprising; detecting blood volume, and thereby blood volume variation, in said patient and providing a signal representative of said blood volume, and thereby said blood volume variation; said blood volume variation being cyclic in nature whereby said signal comprises a cyclic curve having, in each cycle of variation, a variable slope, a maximum amplitude representative of the maximum amount of blood volume, a minimum amplitude representative of the minimum amount of blood volume, a first time interval between said maximum amplitude and said minimum amplitude, a maximum rate of change of said signal being representative of the maximum rate of change of blood volume, a second time interval between the minimum amplitude and the time of the maximum rate of change of said signal, a first difference in amplitude between said maximum amplitude and said minimum amplitude, a second difference in amplitude between the maximum amplitude and the amplitude at the time of maximum change of rate of said signal being representative of the difference in volume between the maximum amount of blood volume and the volume at the time of maximum rate of change of said blood volume, and a pulse repetition period; measuring said maximum amplitude, said minimum amplitude, said maximum rate of change of said signal, said first difference, said second difference, said first time interval, and said second time interval; and calculating the magnitude of the mean artial pressure Pmi in accordance with the following expression;
space="preserve" listing-type="equation">P.sub.mi =P.sub.o +P.sub.mmi ##EQU24## where K.sub.4 =constant determined for each subjectb3 =constant Pmmi =pseudo mean arterial blood pressure during cycle i Δ
Vi =maximum volume change during cycle iΔ
Vimax =maximum time rate of change of Δ
Vi =Vimax ##EQU25##
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8. A method for determining the magnitude of heart-related parameters in a patient;
comprising; detecting blood volume, and thereby blood volume variation, in said patient and providing a signal representative of said blood volume, and thereby said blood volume variation; said blood volume variation being cyclic in nature whereby said signal comprises a cyclic curve having, in each cycle of variation, a variable slope, a maximum amplitude representative of the maximum amount of blood volume, a minimum amplitude representative of the minimum amount of blood volume, a first time interval between said maximum amplitude and said minimum amplitude, a maximum rate of change of said signal being representative of the maximum rate of change of blood volume, a second time interval between the minimum amplitude and the time of the maximum rate of change of said signal, a first difference in amplitude between said maximum amplitude and said minimum amplitude, a second difference in amplitude between the maximum amplitude and the amplitude at the time of maximum change of rate of said signal being representative of the difference in volume between the maximum amount of blood volume and the volume at the time of maximum rate of change of said blood volume, and a pulse repetition period; measuring said maximum amplitude, said minimum amplitude, said maximum rate of change of said signal, said first difference, said second difference, said first time interval, and said second time interval; and calculating the magnitude of the systolic pressure (Psi parameter in accordance with the following expression;
space="preserve" listing-type="equation">P.sub.si =P.sub.mi +(1-g.sub.0)P.sub.piwherein g0 =constant.
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9. A method for determining the magnitude of heart-related parameters in a patient;
comprising; detecting blood volume, and thereby blood volume variation, in said patient and providing a signal representive of said blood volume, and thereby said blood volume variation; said blood volume variation being cyclic in nature whereby said signal comprises a cyclic curve having, in each cycle of variation, a variable slope, a maximum amplitude representative of the maximum amount of blood volume, a minimum amplitude representative of the minimum amount of blood volume, a first time interval between said maximum amplitude and said minimum amplitude, a maximum rate of change of said signal being representative of the maximum rate of change of blood volume, a second time interval between the minimum amplitude and the time of the maximum rate of change of said signal, a first difference in amplitude between said maximum amplitude and said minimum amplitude, a second difference in amplitude between the maximum amplitude and the amplitude at the time of maximum change of rate of said signal being representative of the difference in volume between the maximum amount of blood volume and the volume at the time of maximum rate of change of said blood volume, and a pulse repetition period; measuring said maximum amplitude, said minimum amplitude, said maximum rate of change of said signal, said first difference, said second difference, said first time interval, and said second time interval; and calculating the magnitude of the systolic pressure (Psi) parameter in accordance with the following expression;
space="preserve" listing-type="equation">P.sub.si =P.sub.mi +(1-g.sub.i)P.sub.piwherein; gi =(Δ
ViAV /Δ
Vi)Ppi =pulse pressure during cycle i Δ
Vi =represented by said first differenceΔ
ViAV =represented by the difference between said minimum amplitude and an amplitude equal to the average value of a pulse in a cycle i.
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10. A method for determining the magnitude of heart-related parameters in a patient;
comprising; detecting blood volume, and thereby blood volume variation, in said patient and providing a signal representative of said blood volume, and thereby said blood volume variation; said blood volume variation being cyclic in nature whereby said signal comprises a cyclic curve having, in each cycle of variation, a variable slope, a maximum amplitude representative of the maximum amount of blood volume, a minimum amplitude representative of the minimum amount of blood volume, a first time interval between said maximum amplitude and said minimum amplitude, a maximum rate of change of said signal being representative of the maximum rate of change of blood volume, a second time interval between the minimum amplitude and the time of the maximum rate of change of said signal, a first difference in amplitude between said maximum amplitude and said minimum amplitude, a second difference in amplitude between the maximum amplitude and the amplitude at the time of maximum change of rate of said signal being representative of the difference in volume between the maximum amount of blood volume and the volume at the time of maximum rate of change of said blood volume, and a pulse repetition period; measuring said maximum amplitude, said minimum amplitude, said maximum rate of change of said signal, said first difference, said second difference, said first time interval, and said second time interval; and calculating the magnitude of the arterial blood pressure, Pmi parameter in accordance with the following expression;
space="preserve" listing-type="equation">P.sub.mi =P.sub.o +P.sub.mmi ##EQU26## where K.sub.4 =constant determined for each subjectb3 =constant Pmmi =pseudo mean arterial blood pressure during cycle i Δ
Vi =maximum volume change during cycle iΔ
Vimax =maximum time rate of change of Vi =VimaxPo =constant G(t)=a function of t and T.
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11. Apparatus for determining the magnitude of heart-related parameters in a patient;
comprising; means for detecting blood volume, and thereby blood volume variation, in said patient, and for providing a signal representative of said blood volume, and thereby said blood volume variation; said means for detecting being attachable to said patient to thereby detect said blood volume, and thereby said blood volume variation; said blood volume variation being cyclic in nature whereby said signal comprises a cyclic curve having, in each cycle of variation, a variable slope, a maximum amplitude representative of the maximum amount of blood volume, a minimum amplitude representative of the minimum amount of blood volume, a first time interval between said minimum amplitude and said maximum amplitude, a maximum rate of change of said signal being representative of the maximum rate of increase of blood volume, a second time interval between the minimum amplitude and the time of the maximum rate of change of said signal, a first difference in amplitude between said maximum amplitude and said minimum amplitude, a second difference in amplitude between the maximum amplitude and the amplitude at the time of maximum rate of change of said signal being representative of the difference in volume between the maximum amount of blood volume and the volume at the time of maximum rate of change of said blood volume, and a pulse repetition period; means for measuring said maximum amplitude, said minimum aplitude, said maximum rate of change of said signal, said first difference, said second different, said first time interval, and said second time interval; and means for calculating the magnitude of selected ones of said parameters, said means for calculating being connected to both said means for detecting and means for measuring; wherein means for calculating calculates the magnitude of the pulse pressure parameter in accordance with the following expression;
##EQU27## wherein Ppi =pulse pressure during cycle iKpp =constant determined by a first calibration r1 =constant r2 =constant Ri1 =Δ
ViVm /Δ
Viwhere Δ
ViVm =volume change at preselected time tiVm during cycle iΔ
Vi =maximum volume change during cycle iΔ
tiVm =time interval from start of cycle i to preselected time of tiVm.
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12. A method for determining the magnitude of heart-related parameters in a patient;
comprising; detecting blood volume, and thereby blood volume variation, in said patient and providing a signal representative of said blood volume, and thereby said blood volume variation; said blood volume variation being cyclic in nature whereby said signal comprises a cyclic curve having, in each cycle of variation, a variable slope, a maximum amplitude representative of the maximum amount of blood volume, a minimum amplitude representative of the minimum amount of blood volume, a first time interval between said maximum amplitude and said minimum amplitude, a maximum rate of change of said signal being representative of the maximum rate of charge of blood volume, a second time interval between the minimum amplitude and the time of the maximum rate of change of said signal, a first difference in amplitude between said maximum amplitude and said minimum amplitude, a second difference in amplitude between the maximum amplitude and the amplitude at the time of maximum change of rate of said signal being representative of the difference in volume between the maximum amount of blood volume and the volume at the time of maximum rate of change of said blood volume, and a pulse repetition period; measuring said maximum amplitude, said minimum amplitude, said maximum rate of change of said signal, said first difference, said second difference, said first time interval, and said second time interval; and calculating the magnitude of the pulse pressure parameter in accordance with the following expression;
##EQU28## wherein Ppi =pulse pressure during cycle iKpp =constant determined by a first calibration r1 =constant r2 =constant Ri1 =(Δ
ViVm /Vi)where Δ
ViVm =volume change at preselected time tiVm during cycle iΔ
Vi =maximum volume change during cycle iΔ
tiVm =time interval from start of cylcle i to predetermined time of tiVm.
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13. Apparatus for determining the magnitude of heart-related parameters in a patient;
comprising; means for detecting blood volume, and thereby blood volume variation, in said patient, and for providing a signal representative of said blood volume, and thereby said blood volume variation; said means for detecting being attachable to said patient to thereby detect said blood volume, and thereby said blood volume variation; said blood volume variation being cyclic in nature whereby said signal comprises a cyclic curve having, in each cycle of variation, a variable slope, a maximum amplitude representative of the maximum amount of blood volume, a minimum amplitude representative of the minimum amount of blood volume, a first time interval between said minimum amplitude and said maximum amplitude, a maximum rate of change of said signal being representative of the maximum rate of increase of blood volume, a second time interval between the minimum amplitude and the time of the maximum rate of change of said signal, a first difference in amplitude between said maximum amplitude and said minimum amplitude, a second difference in amplitude between the maximum amplitude and the amplitude at the time of maximum rate of change of said signal being representative of the difference in volume between the maximum amount of blood volume and the volume at the time of maximum rate of change of said blood volume, and a pulse repetition period; means for measuring said maximum amplitude, said minimum amplitude, said maximum rate of change of said signal, said first difference, said second different, said first time interval, and said second time interval; and means for calculating the magnitude of selected ones of said parameters, said means for calculating being connected to both said means for detecting and means for measuring; wherein the means for calculating calculates the magnitude of the mean pressure parameter in accordance with the following expression; (1) P'"'"'mi =K1 rica where K1 =calibration constant P'"'"'mi =(Ps +Pd)/2-Po Psi =systolic blood pressure, in cycle i Pmi =(Ps +Pd)/2 Pdi =diastolic blood pressure, in cycle i a=constant Po =constant.
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14. A method for determining the magnitude of heart-related parameters in a patient;
comprising; detecting blood volume, and thereby blood volume variation, in said patient and providing a signal representation of said blood volume, and thereby said blood volume variation; said blood volume variation being cyclic in nature whereby said signal comprises a cyclic curve having, in each cycle of variation, a variable slope, a maximum amplitude representative of the maximum amount of blood volume, a minimum amplitude representative of the minimum amount of blood volume, a first time interval between said maximum amplitude and said minimum amplitude, a maximum rate of change of said signal being representative of the maximum rate of change of blood volume, a second time interval between the minimum amplitude and the time of the maximum rate of change of said signal, a first difference in amplitude between said maximum amplitude and said minimum amplitude, a second difference in amplitude between the maximum amplitude and the amplitude at the time of maximum change of rate of said signal being representative of the difference in volume between the maximum amount of blood volume and the volume at the time of maximum rate of change of said blood volume, and a pulse repetition period; measuring said maximum amplitude, said minimum amplitude, said maximum rate of change of said signal, said first difference, said second difference, said first time interval, and said second time interval; and calculating the magnitude of mean pulse pressure in accordance with the following expression; (1) Pmi =K1 rica where K1 =calibration constant P'"'"'mi =(Ps +Pd)/2-Po Psi =systolic blood pressure, in cycle i Pmi =(Ps +Pd)/2 Pdi =diastolic blood pressure, in cycle i a=constant Po =constant.
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15. Apparatus for determining the magnitude of heart-related parameters in a patient;
comprising; means for detecting blood volume, and thereby blood volume variation, in said patient, and for providing a signal representative of said blood volume, and thereby said blood volume variation; said means for detecting being attachable to said patient to thereby detect said blood volume, and thereby said blood volume variation; said blood volume variation being cyclic in nature whereby said signal comprises a cyclic curve having, in each cycle of variation, a variable slope, a maximum amplitude representative of the maximum amount of blood volume, a minimum amplitude representative of the minimum amount of blood volume, a first time interval between said minimum amplitude and said maximum amplitude, a maximum rate of change of said signal being representative of the maximum rate of increase of blood volume, a second time interval between the minimum amplitude and the time of the maximum rate of change of said signal, a first difference in amplitude between said maximum amplitude and said minimum amplitude, a second difference in amplitude between the maximum amplitude and the amplitude at the time of maximum rate of change of said signal being representative of the difference in volume between the maximum amount of blood volume and the volume at the time of maximum rate of change of said blood volume, and a pulse repetition period; means for measuring said maximum amplitude, said minimum amplitude, said maximum rate of change of said signal, said first difference, said second different, said first time interval, and said second time interval; and means for calculating the magnitude of selected ones of said parameters, said means for calculating being connected to both said means for detecting and means for measuring; wherein the means for calculating calculates implicitly the magnitude of the mean pulse pressure in accordance with the following expression;
##EQU29## where Pmo =constant at calibrationφ
1i +φ
2i =PPi =pulse pressure during cycle ik=constant j=constant Psi =Pmo +φ
2i +PoPdi =Pmo -φ
1i +PoPmi =(Psi +Pdi)/2 Po =constant ri =ratio of exponentials K3 =coefficient (variable or constant).
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16. A method for determining the magnitude of heart-related parameters in a patient;
comprising; detecting blood volume, and thereby blood volume variation, in said patient and providing a signal representative of said blood volume, and thereby said blood volume variation; said blood volume variation being cyclic in nature whereby said signal comprises a cyclic curve having, in each cycle of variation, a variable slope, a maximum amplitude representative of the maximum amount of blood volume, a minimum amplitude representative of the minimum amount of blood volume, a first time interval between said maximum amplitude and the said minimum amplitude, a maximum rate of change of said signal being representative of the maximum rate of change of blood volume, a second time interval between the minimum amplitude and the time of the maximum rate of change of said signal, a first difference in amplitude between said maximum amplitude and said minimum amplitude, a second difference in amplitude between the maximum amplitude and the amplitude at the time of maximum change of rate of said signal being representative of the difference in volume between the maximum amount of blood volume and the volume at the time of maximum rate of change of said blood volume, and a pulse repetition period; measuring said maximum amplitude, said minimum amplitude, said maximum rate of change of said signal, said first difference, said second difference, said first time interval, and said second time interval; and wherein the means for calculating calculates implicitly the magnitude of mean pulse pressure in accordance with the following expressure;
##EQU30## where Pmo =constant at calibrationφ
1i +φ
2i =PPi =pulse pressure during cycle ik=constant j=constant P2i =Pmo +φ
2i +PoPdi =Pmo -φ
1i +PoPmi =(Psi +Pdi)/2 Po =constant ri =ratio of exponentials K3 =coefficient (variable or constant).
Specification