Method and apparatus for establishing the pressure-diameter relationship of an artery by non-invasive measures
First Claim
1. A method for establishing the pressure-diameter relationship of an artery at a given point in its course including the following succession of steps:
- (a) measuring non-invasively and simultansouely during at least one cardiac cycle the diameter D(t) of the artery at a first location and the pressure p(t) of the arterial bed at a second location separated from said first location by an unknown distance Δ
x, to generate electrical signals representing said diameter and said pressure, said measuring of said diameter comprising directing ultrasonic waves toward said artery at said first location and sensing echoes of said waves reflected from a wall of said artery to produce the electrical signal representing said artery diameter the pressure measurement signal produced by a non-evasive blood pressure sensor means,(b) storing in a memory device at successive instants of the cardiac cycle pairs of values representing said signals, each pair of values including a diameter value D(t) and a pressure value p(t), said pairs of values exhibiting a dispersion due to the fact that said diameter is measured at said first location and said pressure is measured at said second location,(c) calculating on the basis of the stored pairs of values by a mathematical adjustment procedure the parameters α
, β
, γ
, . . . of a relationsip of the diameter as a function of the pressure D(p)=D(p, α
, β
, γ
, . . . ), where α
, β
, γ
, . . . are parameters expressing the behavior of the artery and p represents pressure,(d) calculating on the basis of said parameters and of each pressure value p(t) initially measured, the propagation velocity c(p) of the pressure wave generated by the cardiac function,(e) calculating for each value of propagation velocity c(p) thus calculated and taking into account said distance Δ
x, the course time Δ
t(p)=Δ
x/c(p) of the pressure wave between said first and second locations,(f) calculating for each pressure value p(t) initially measured, a new pressure value [p[t+Δ
t(p)]] p(t+Δ
t(p)) prevailing at said first location and(g) establishing, from the diameter value D(t) initially measured and said new pressure values at said first location, new pairs of values representing the pressure-diameter relationship of said artery at said first location.
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Abstract
This method for establishing the pressure-diameter relationship of an artery employs the measurement results from a non-invasive sensor (3) of the artery diameter, for instance of the humeral artery, and from a non-invasive sensor (4) of the blood pressure applied for instance to the end of a finger. The measurement locations being separated by a distance Δx, the method provides for the correction of the pressure measurements as if such measurements had been effected at the location of the diameter measurements. The method further provides a correction which takes into account the mechanical properties of the artery, defined by the parameters α, β, γ, . . . and which are calculated, if necessary by successive iterations, until the pressure-diameter curve appears free from all measurement anomalies (hysteresis). The pressure-diameter relationship enables the calculation of the mechanical properties of the artery, in particular by compliance curves and the propagation velocity as a function of the pressure.
45 Citations
16 Claims
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1. A method for establishing the pressure-diameter relationship of an artery at a given point in its course including the following succession of steps:
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(a) measuring non-invasively and simultansouely during at least one cardiac cycle the diameter D(t) of the artery at a first location and the pressure p(t) of the arterial bed at a second location separated from said first location by an unknown distance Δ
x, to generate electrical signals representing said diameter and said pressure, said measuring of said diameter comprising directing ultrasonic waves toward said artery at said first location and sensing echoes of said waves reflected from a wall of said artery to produce the electrical signal representing said artery diameter the pressure measurement signal produced by a non-evasive blood pressure sensor means,(b) storing in a memory device at successive instants of the cardiac cycle pairs of values representing said signals, each pair of values including a diameter value D(t) and a pressure value p(t), said pairs of values exhibiting a dispersion due to the fact that said diameter is measured at said first location and said pressure is measured at said second location, (c) calculating on the basis of the stored pairs of values by a mathematical adjustment procedure the parameters α
, β
, γ
, . . . of a relationsip of the diameter as a function of the pressure D(p)=D(p, α
, β
, γ
, . . . ), where α
, β
, γ
, . . . are parameters expressing the behavior of the artery and p represents pressure,(d) calculating on the basis of said parameters and of each pressure value p(t) initially measured, the propagation velocity c(p) of the pressure wave generated by the cardiac function, (e) calculating for each value of propagation velocity c(p) thus calculated and taking into account said distance Δ
x, the course time Δ
t(p)=Δ
x/c(p) of the pressure wave between said first and second locations,(f) calculating for each pressure value p(t) initially measured, a new pressure value [p[t+Δ
t(p)]] p(t+Δ
t(p)) prevailing at said first location and(g) establishing, from the diameter value D(t) initially measured and said new pressure values at said first location, new pairs of values representing the pressure-diameter relationship of said artery at said first location. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for establishing the press-diameter relationship of an artery at a given location in its course, said method comprising the following steps:
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(a) disposing first and second sensor means outside said artery at first and second locations separated by an unknown distance assumed to be a distance Δ
X;(b) energizing said sensor means whereby one of said sensor means produces an electrical output signal representing the diameter of said artery at one of said locations and the other of said sensor means produces an electrical output signal representing the pressure of the arterial bed at the other of said locations; (c) repeatedly and simultaneously sampling said output signals from said sensor means over an interval including at least one cardiac cycle to produce electrical signals representing pairs of values, each pair of values including a diameter value D(t5) and a pressure value p(t) and exhibiting a dispersion due to the fact that said diameter and pressure are measured at said first and second locations; (d) storing said pairs of values in a computer memory; (e) determining from said stored pairs of values by a mathematical adjustment procedure the parameters, α
, β
, γ
, . . . of a relationship of the diameter as a function of the pressure D(p)=D(p, α
, β
, γ
, . . . ). where α
, β
, γ
, . . . are parameters expressing behavior of the artery,(f) calculating from said parameters and each pressure value p(t) initially measured, the propagation velocity c(p) of the pressure wave generated by the cardiac function, (g) calculating for each value of propagation velocity c(p) thus established and taking into account said distance Δ
x, the course time Δ
t(p)=Δ
x/c(p) of the pressure wave between said first and second locations,(h) calculating for each pressure value p(t) initially measured, a new pressure value p(t+Δ
t(p)) [p[t+Δ
t(p)]] prevailing at said first location and,(i) establishing, from the diameter values D(t) initially sampled and said new pressure values at said first location, new pairs of values representing the pressure-diameter relationship of said artery at said first location. - View Dependent Claims (10, 11, 12, 13, 14)
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15. Apparatus for establishing the pressure-diameter relationship of an artery at a given point in its course, said apapratus comprising:
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(a) first and second sensor means disposed outside said artery at first and second locations spearated by an unknown distance assumed to be a distance Δ
X, one of said sensor means producing an electrical output signal representing the diameter of said artery at one of said locations and the other of said sensor means producing an electrical output signal representing the pressure of the arterial bed at the other of said locations;(b) means for repeatedly and simultaneously sampling said output signals from said sensor means over an interval including at least one cardiac cycle to produce electrical signals representing pairs of values, each pair of values including a diameter value D(t) and a pressure value p(t) and exhibiting a dispersion due to the fact that said diameter and pressure are measured at said first and second locations; (c) a computer memory for storing said pairs of values; and
,(d) a computer, said computer including, first means for calculating on the basis of the stored pairs of values by a mathematical adjustment procedure the parameters α
, β
, γ
, . . . of a relationship of the diameter as a function of the pressure D(p)=D(P, α
, β
, γ
, . . . ), where said parameters express behvaior of the artery,second means responsive to said first means and said computer memory for calculating from said parameters and each pressure value p(t) initially measured, the propagation velocity c(p) of the pressure wave generated by the cardiac function, third means responsive to said second means for calculating from each value of propagation velocity c(p) thus calculated and a value representing said distance Δ
x, the course time Δ
t(p)=Δ
x/c(p) of the pressure wave between said first and second locations,fourth means responsive to said third means for calculatiogn for each pressure value p(t) initially measured, a new pressure value [p[t+Δ
t(p)]] p(t+Δ
t(p)) prevailing at said first location, andmeans responsive to said fourth means for establishing from the diameter values D(t) initially sampled and said new pressure values at said first location, new pairs of values representing the pressure-diameter relationsihp of said artery at said first location. - View Dependent Claims (16)
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Specification