Method and apparatus for monitoring the fluid balance of the body
First Claim
1. A method for monitoring the fluid balance of a body comprising the steps of:
- (1) attaching a first pair of electrodes to the body at spaced locations to establish a path for current to pass therebetween;
(2) attaching a second pair of electrodes to the body, each located at a short distance from one of the first pair of electrodes and located in the current path between said first pair of electrodes;
(3) simultaneously passing first and second high-frequency alternating currents between said first pair of electrodes, one of said currents having a frequency on the order of 1.5 kHz and the other 150 kHz;
(4) measuring the voltage drop between said second pair of electrodes for a first measurement;
(5) separating the voltage drop into two components of different frequencies, each of which scalarly represents the impedance of the body at the respective frequency;
(6) repeating steps 4 and 5 after a desired time period for a second measurement; and
(7) calculating the ratio between the differences in impedance taken in the first measurement and the difference in impedances in the second measurement to thereby indicate a change in fluid balance of the body so that a tapping or refilling of fluid may be effected to restore fluid balance.
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Accused Products
Abstract
The change in body fluid is monitored by placing a pair of electrodes at spaced locations on a body, i.e. a wrist and a diametrically opposed ankle and generating two high frequency alternating currents, one of 1.5 kHz and the other 150 kHz, through the body via the electrodes. Another pair of electrodes is placed in the current path of the first pair of electrodes and connected to a detector for measuring body impedances at the two frequencies. A microprocessor calculates the change in fluid weight of the body according to the empiric formula: ##EQU1## where ΔV=change in fluid weight
k=a proportionality constant having a negative value
S=body surface area, based on the patient'"'"'s weight and length
Z1 and Z2 =impedance at the lower frequency (for example 1.5 kHz), and respectively, the higher frequency (for example 150 kHz) at the second measuring occasion
Z1.sbsb.i and Z2.sbsb.i =corresponding impedances at the first measuring occasion (intitial values).
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Citations
7 Claims
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1. A method for monitoring the fluid balance of a body comprising the steps of:
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(1) attaching a first pair of electrodes to the body at spaced locations to establish a path for current to pass therebetween; (2) attaching a second pair of electrodes to the body, each located at a short distance from one of the first pair of electrodes and located in the current path between said first pair of electrodes; (3) simultaneously passing first and second high-frequency alternating currents between said first pair of electrodes, one of said currents having a frequency on the order of 1.5 kHz and the other 150 kHz; (4) measuring the voltage drop between said second pair of electrodes for a first measurement; (5) separating the voltage drop into two components of different frequencies, each of which scalarly represents the impedance of the body at the respective frequency; (6) repeating steps 4 and 5 after a desired time period for a second measurement; and (7) calculating the ratio between the differences in impedance taken in the first measurement and the difference in impedances in the second measurement to thereby indicate a change in fluid balance of the body so that a tapping or refilling of fluid may be effected to restore fluid balance. - View Dependent Claims (2, 3)
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4. An apparatus for monitoring the fluid balance of a body comprising:
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means for simultaneously generating two constant high frequency alternating currents, one of the frequencies being on the order of 1.5 kHz and the other 150 kHz; a first pair of electrodes for attachment to the body at spaced locations so as to establish a current path therebetween, each electrode being connected to said generating means by a flexible conductor; a second pair of electrodes for attachment to the body at locations near each electrode of the first pair of electrodes and in the current path between said first pair of electrodes; a detector means connected to each of the second pair of electrodes by flexible conductors for dividing a sensed voltage drop into an output representative of two components of the two frequencies, each component being proportional to the impedance of the body at the respective frequency; and means for processing the output taken during an initial measurement of the output and a second subsequent measurement of the output according to the empiric formula;
##EQU4## where Δ
V=change in fluid weightk=a proportionality constant having a negative value S=body surface area, based on the patient'"'"'s weight and length Z1 and Z2 =impedance at the lower frequency (for example 1.5 kHz) and, respectively, the higher frequency (for example 150 kHz) at the second measuring occasion Z1.sbsb.i and Z2.sbsb.i =corresponding impedances at the first measuring occasion (initial values). - View Dependent Claims (5, 6, 7)
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Specification