KR20120008218A - Method for providing an elastic image - Google Patents

Abstract

PURPOSE: A method for providing elastic image is provided to offer exact diagnosis results by generating a two- dimensional plane wave of a transverse wave and simultaneously measuring the progress speed of the plane wave on a two-dimensional plane. CONSTITUTION: A transmission first transducer(A) making a two-dimensional plane wave of a transverse wave is arranged. A receiving second transducer(B) measuring the arrival time of the transverse wave is arranged to be parallel to the transmission first transducer. The distance between the first transducer and the second transducer is measured. The speed of the transverse wave is calculated using the measured arrival time of the transverse wave and a measured distance. A value of lateral elasticity and a value of vertical elasticity are calculated and a first result is output.

Description

How to provide elastic images {METHOD FOR PROVIDING AN ELASTIC IMAGE}

The present invention relates to an elastic image providing method, and more particularly, to a transverse elastic image providing method having a linear transducer arranged in parallel.

The medical diagnostic apparatus using ultrasound transmits an ultrasound signal to an object by using reflection, absorption, and scattering characteristics of the ultrasound, receives an ultrasound signal reflected from the object, and converts the received ultrasound signal into an electrical signal to make an ultrasound diagnosis. To provide. In the conventional method of providing an ultrasound image, a reflection coefficient derived from an impedance difference between tissues is used. However, a lesion such as a cancer or a tumor does not have a large difference in reflection coefficient compared to surrounding tissues of an object, so it is easy to use an ultrasound image. There is a limit that cannot be diagnosed.

The technical problem of the present invention is to solve such a conventional problem, and a first object of the present invention is to facilitate the discovery of lesions by providing a lateral elastic image to image the properties of the subject tissue.

In addition, the ultrasonic diagnostic method using the conventional method has a limitation that can not derive a more precise and accurate result by accepting the error coming from the position of the measurement equipment by measuring the object only once to derive the result. Therefore, the technical problem of the present invention is to solve this conventional problem, and the second object of the present invention is to provide a more accurate diagnosis result by providing an average value of the result obtained by repeating the same process by changing only the role of two transducers. To provide.

=

(μ는 횡 탄성, ρ는 밀도, E는 종 탄성, ν는 포아슨비)에 대입하여 횡탄성값과 종탄성값을 계산하여 제1 결과를 도출한다.According to a preferred embodiment of the present invention in order to achieve the above object, the present invention provides a method for providing an elastic image for transmitting a transverse wave that is a two-dimensional plane wave by a method of forming a long sound field depth during the transmission of high-power ultrasound in the first step A second transducer for receiving the transverse wave generated by the transmitting first transducer in the second step and measuring the arrival time of the transverse wave in parallel with the first transducer for transmission The distance between the first transducer and the second transducer is measured in a third step, and the arrival time of the transverse wave measured in the second step and the distance measured in the third step are measured in the fourth step. calculate the speed of the transverse wave through, and the speed of the transverse waves obtained in step 4 to step 5 C _T =

=

(μ is the lateral elasticity, ρ is the density, E is the longitudinal elasticity, ν is the Poisson's ratio), and the lateral and final elastic values are calculated to derive the first result.

According to another embodiment of the present invention, the method for providing an elastic image according to the present invention derives a second result with the measured value by changing the role of transmitting and receiving the first transducer and the second transducer, and the first result and the first 2 Give the mean of the results.

Through the above-described configuration, it is possible to facilitate the discovery of lesions by providing a lateral elastic image for imaging the properties of the object tissue. That is, by generating a two-dimensional shear wave plane wave and simultaneously measuring the traveling speed of the plane wave on the two-dimensional plane, it is possible to provide a transverse elastic image of the lesion. When a tumor such as cancer occurs in the soft tissues of the human body, the tumor's elasticity value increases as the tumor becomes harder, so the sound velocity of the shear wave increases, and when the sound velocity of the shear wave is measured, the transverse elasticity value is known to diagnose the lesion. It is.

In addition, it is possible to reduce the range of the error of the conventional ultrasonic diagnostic method. In other words, instead of measuring the object only once and immediately determining it as the final result, it is more accurate by providing the average value of the two results obtained by repeating the same process only by changing their roles in the two transducers used as measuring equipment. Diagnostic results can be provided.

1 is a schematic diagram showing generation of acoustic radiation power by ultrasonic waves.
2 is a schematic diagram showing that a plane wave transverse wave is generated by transmitting a sound field depth long.
Figure 3 is a schematic diagram showing that the acoustic radiation is generated on the plane by transmitting from all the elements of the linear transducer.
4 is a schematic diagram showing a state in which a two-dimensional plane wave transverse wave is transmitted.
5 is a schematic diagram illustrating a phenomenon in which a wavefront of a plane wave transverse wave passing through a region having a lesion is distorted.

(Ⅰ는 초음파의 음압의 강도(intensity)[W/cm²], α는 조직의 감쇄 계수[NP/m], c는 음속도[m/s])로 주어진다. 이러한 음향복사력에 의해서 인체의 연조직이 이동하면, 송신 음장의 방향과 직각으로 횡파가 발생한다. 인체의 연조직에서 종파의 음속도는 1500m/s정도 되지만, 횡파의 음속도는 1m/s 내지 10m/s 정도의 범위에 있으며, 횡파의 음속도 C_T는 횡탄성값(shear modulus)μ와 다음의 관계를 가진다. C_T =

=

(E는 종탄성값, μ는 횡탄성값, ρ는 매질의 밀도, E는 종탄성, ν는 포아슨비) Referring to Figure 1 showing the generation of the acoustic radiation by the ultrasonic wave, when transmitting a high-power ultrasound corresponding to 1MHz to 10MHz to the soft tissues of the human body, the soft tissues of the human body is pushed out depending on the sound pressure of the ultrasonic waves. This force is called acoustic radiation force and its magnitude is

(I is the intensity of sound pressure [W / cm ² ] of the ultrasonic wave, α is the attenuation coefficient of the tissue [NP / m], and c is the sound velocity [m / s]). When the soft tissues of the human body are moved by the acoustic radiation force, shear waves are generated at right angles to the direction of the transmission sound field. In the soft tissues of the human body, the longitudinal sound velocity is about 1500m / s, but the sound velocity of the shear wave is in the range of 1m / s to 10m / s, and the sound velocity C _T of the shear wave is the shear modulus μ and Has a relationship with C _T =

=

(E is the final elasticity value, μ is the lateral elasticity value, ρ is the density of the medium, E is the final elasticity, ν is the Poisson's ratio)

When a tumor such as cancer occurs in the soft tissues of the human body, the soft tissue becomes hard and the elasticity value increases. Therefore, the sound velocity of the shear wave is also increased accordingly, and by measuring the sound velocity of the shear wave, the transverse elasticity value of the tissue can be known to diagnose the lesion.

According to an embodiment of the present invention, as a first step for providing an elastic image, a first transducer for transmission generating a transverse wave, which is a two-dimensional plane wave, by forming a long sound field depth during transmission of high-power ultrasound (A) is placed. Referring to FIG. 2, the first step is to transmit the high power ultrasound so that the sound field depth is long enough to generate the plane wave transverse wave, and the transducer controls the transmission sound field when transmitting the high power ultrasound as a transmission transducer. Transmit so that the sound field depth is formed long. As a method for forming a long sound field depth, a method of transmitting bursts of several tens of milliseconds (ms) or a method of simultaneously focusing and transmitting at multiple focal depths is used. In this way, since the acoustic radiation force can be made at a long sound field depth in the direction of the scanning line of the sound field, a plane wave transverse wave can be generated in the vertical direction of the radiation force as shown in FIG. 2. Referring to FIG. 3 according to another embodiment of the present invention, when all the elements of the linear transducer simultaneously transmit bursts, acoustic radiation is generated in a two-dimensional plane through which the ultrasonic sound field passes. By this method, as shown in Fig. 4, a two-dimensional plane wave transverse wave is generated in the vertical direction from the plane through which the transmission sound field passes. In tissues with tumors such as cancer, the measurement of shear waves is faster, so when the shear waves pass through the lesions, the wavefronts of the shear waves bend and pass through the lesions faster. 5 shows the wavefront of the shear wave passing through the lesion to which this phenomenon is applied.

As a second step for providing an elastic image, a receiving second transducer B for receiving a transverse wave generated by the transmitting first transducer A and measuring arrival time of the transverse wave is the first transducer for transmission. Arrange in parallel with (A). Referring to FIG. 5, the first transducer A is a transmission transducer for generating plane waves, and the second transducer B is a reception transducer to observe and measure the progress of the transverse waves. It is arranged in parallel with the producer (A). That is, the transmitting first transducer A generates a shear wave, while the receiving second transducer B acquires an image at high speed and checks the arrival time of the shear wave. Through the data obtained in this way, it is possible to confirm that the lesion exists in the portion where the shear wave arrives quickly in the whole image of the tissue.

In a third step of providing an elastic image, the distance between the first transducer A and the second transducer B is measured. The distance of the two transducers can be used to calculate the velocity of the shear wave from the arrival time of the shear wave. Based on these results, the transverse and final elastic values can be calculated.

=

(μ는 횡탄성, ρ는 밀도, E는 종탄성, ν는 포아슨비)에 대입하여 횡탄성값과 종탄성값을 계산하여 제1 결과를 도출한다.That is, as a fourth step for providing an elastic image, a speed of the shear wave is calculated based on the arrival time of the shear wave measured in the second step and the distance measured in the third step. the velocity of a transverse wave derives from step 4 C _T =

=

(μ is lateral elasticity, ρ is density, E is longitudinal elasticity, ν is Poisson's ratio), and the lateral and final elastic values are calculated to derive the first result.

In addition, in order to reduce the range of the error of the conventional ultrasonic diagnostic method, the first transducer A and the second transducer B used as the measuring device switch the transmission and reception of each other and return the second result to the measured value. To derive. Through these two measurements, the measurement error can be reduced by providing an average of the first and second results.

Although the above-described detailed description for carrying out the present invention has been described with reference to a preferred embodiment of the present invention, those skilled in the art without departing from the spirit and scope of the invention described in the claims to be described later It will be appreciated that various modifications and variations can be made.

Claims (4)

A first step of disposing a first transducer (A) for transmitting a transverse wave as a two-dimensional plane wave by a method of forming a long sound field depth during transmission of high power ultrasound;
The receiving second transducer B for receiving the transverse wave generated by the transmitting first transducer A and measuring the arrival time of the transverse wave is disposed in parallel with the transmitting first transducer A. Second step;
A third step of measuring a distance between the first transducer A and the second transducer B;
A fourth step of calculating the speed of the shear wave based on the arrival time of the shear wave measured in the second step and the distance measured in the third step; And
The velocity of the shear wave derived in step 4 is C _T. =

=

elasticity, comprising the fifth step of calculating the transverse and final elastic values and substituting (μ for lateral elasticity, ρ for density, E for final elasticity, ν for Poisson's ratio) to derive a first result How to provide video. The method of claim 1,
It is characterized by deriving a second result by a value measured by changing the role of transmitting and receiving the first transducer (A) and the second transducer (B) with each other, and providing an average value of the first result and the second result Elastic image providing method. The method of claim 1,
The method of forming a long sound field depth of the first step is a method of providing an elastic image, characterized in that for transmitting a burst of millisecond (ms) length. The method of claim 1,
The method of forming a long sound field depth of the first step is characterized in that the focusing and transmitting at the same time to the multiple focus depth elastic image providing method.

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