Instantaneous ultrasonic echo measurement of bladder volume with a limited number of ultrasound beams
First Claim
1. An apparatus for measuring the volume of fluid in a human or animal body cavity using a non-invasive, ultrasound echo technique, comprising:
- a transducer configured to;
transmit at least a first ultrasound signal at a first power level into the body such that the at least first ultrasound signal reaches a portion of the body cavity, the body cavity being at least partially empty of the fluid such that the respective volumes of the body cavity and the fluid are different from one another, andtransmit at least a second ultrasound signal having a first frequency and at a second power level higher than the first power level such that the at least second ultrasound signal reaches the portion of the body cavity;
a receiver component configured to receive at least a first ultrasound echo signal from the body cavity for the at least first ultrasound signal, and receive at least a second ultrasound echo signal for the at least second ultrasound signal; and
a processor component configured to;
determine a reference signal based on the at least first ultrasound signal and the received at least first ultrasound echo signal, wherein the reference signal is used to eliminate effects of variation caused by patient anatomy,determine a measure of an energy level of a harmonic component of the received at least second ultrasound echo signal, wherein the harmonic component corresponds to at least a second harmonic having at least two times the first frequency,re-scale the reference signal based on an increase in power level between the first power level and the second power level, anddetermine the volume of the fluid in the body cavity based on the measured energy level of the harmonic component and the re-scaled reference signal, wherein determining the volume comprises accessing a table storing correspondences between harmonic energy levels and volumes of fluid.
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Abstract
An apparatus and methods to quantify the volume of urine in a human bladder with a limited number of acoustic beams is disclosed. In a first version a plurality of narrow ultrasound beams is transmitted in different directions towards the bladder. Returning echoes are converted to digital form and stored in memory. A volume display on the apparatus allows to define the optimal apposition of the transducer assembly. Signal processing software automatically determines the bladder Depth D and Height H and computes the volume of urine. In a second version, a single wide angle ultrasound beam transducer transmits ultrasounds signals at a fundamental frequency to quantify the urine volume. Return signals originating from a depth beyond the usual position of the posterior wall depth of a filled bladder are analyzed for presence of higher harmonic signals, which in turn are related to the presence or absence of urine.
209 Citations
14 Claims
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1. An apparatus for measuring the volume of fluid in a human or animal body cavity using a non-invasive, ultrasound echo technique, comprising:
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a transducer configured to; transmit at least a first ultrasound signal at a first power level into the body such that the at least first ultrasound signal reaches a portion of the body cavity, the body cavity being at least partially empty of the fluid such that the respective volumes of the body cavity and the fluid are different from one another, and transmit at least a second ultrasound signal having a first frequency and at a second power level higher than the first power level such that the at least second ultrasound signal reaches the portion of the body cavity; a receiver component configured to receive at least a first ultrasound echo signal from the body cavity for the at least first ultrasound signal, and receive at least a second ultrasound echo signal for the at least second ultrasound signal; and a processor component configured to; determine a reference signal based on the at least first ultrasound signal and the received at least first ultrasound echo signal, wherein the reference signal is used to eliminate effects of variation caused by patient anatomy, determine a measure of an energy level of a harmonic component of the received at least second ultrasound echo signal, wherein the harmonic component corresponds to at least a second harmonic having at least two times the first frequency, re-scale the reference signal based on an increase in power level between the first power level and the second power level, and determine the volume of the fluid in the body cavity based on the measured energy level of the harmonic component and the re-scaled reference signal, wherein determining the volume comprises accessing a table storing correspondences between harmonic energy levels and volumes of fluid. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for measuring the volume of fluid in a human or animal body cavity using a non-invasive, ultrasound echo technique, comprising:
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using a transducer to; transmit at least a first ultrasound signal at a first power level into the body such that the at least first ultrasound signal reaches a portion of the body cavity, the body cavity being at least partially empty of the fluid such that the respective volumes of the body cavity and the fluid are different from one another; and transmit at least a second ultrasound signal having a first frequency and at a second power level higher than the first power level such that the at least second ultrasound signal reaches the portion of the body cavity; receiving ultrasound echo signals from the body cavity for the at least first and the at least second ultrasound signals; determining a reference signal based on the at least first ultrasound signal and the received at least first ultrasound echo signal; determining an energy level of a harmonic component of the received at least second ultrasound echo signal, wherein the harmonic component corresponds to at least a second harmonic having at least two times the first frequency; re-scaling the reference signal based on an increase in power level between the first power level and the second power level; and determining the volume of the fluid in the body cavity based on the determined energy level of the harmonic component and the re-scaled reference signal, wherein determining the volume comprises accessing a table storing correspondences between harmonic energy levels and volumes of fluid. - View Dependent Claims (10, 11, 12, 13, 14)
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Specification