CN113229848A - Ultrasonic tomography detection method with solid coupling medium and breast detection device - Google Patents

Abstract

The invention relates to the technical field of ultrasonic detection equipment, and discloses a mammary gland detection device with a solid coupling medium and an ultrasonic fault detection method for realizing human tissues by utilizing the solid coupling medium, which comprises an outer water tank, an inner solid coupling ultrasonic conduction piece, an annular probe, a control assembly and a data acquisition module, wherein the control assembly is used for controlling the movement of a screw rod movement module and the replacement of water in the water tank, the data acquisition module is used for receiving echo data acquired by the annular probe, converting the echo data into a fault image after analysis and treatment and then transmitting the fault image to a display device arranged on the side surface of a bed body for display, the solid coupling ultrasonic conduction piece is used as the medium for ultrasonic conduction, the inner surface of the solid coupling ultrasonic conduction piece is made into cylinders with different sizes so as to be suitable for the human tissues of different shapes and sizes of examined persons, the method has the advantages of good imaging effect and accurate detection result.

Description

Ultrasonic tomography detection method with solid coupling medium and breast detection device

Technical Field

The invention relates to the technical field of ultrasonic detection equipment, in particular to an ultrasonic fault detection method with a solid coupling medium and a breast detection device.

Background

Ultrasound tomography is a revolutionary technique in the field of medical imaging. The high-resolution (micron-order) tomographic image is obtained by acquiring 360-degree total-scattering ultrasonic signals and reconstructing, so that the method has the advantages of being noninvasive, free of radiation, capable of providing a three-dimensional total-tissue image and the like, a comfortable, safe and private examination environment can be provided for an examinee, a standardized detection mode and a high-quality image can be provided for a clinician, the working intensity is reduced, and the diagnosis accuracy is improved.

The ultrasonic tomography technology acquires more ultrasonic information by acquiring reflected waves and transmitted waves of an imaging object to perform tomography, reconstructs to obtain morphological and functional images, and can reconstruct a three-dimensional image to be convenient for determining the position of a focus. The ultrasonic tomography technology has the advantages of being fast, radiationless and cheap in the traditional ultrasonic examination. After the doctor scans, the three-dimensional ultrasonic image can be obtained, and diagnosis is carried out according to the reflection image, the sound velocity image and the attenuation image. Excellent image quality has unique advantages in early screening.

At present, no imaging equipment suitable for female breast cancer screening in China exists in the market, and a breast ultrasonic tomography system can fill the gap, provide a new method and means for early screening and diagnosis of breast cancer in China, and has wide market application prospect.

Disclosure of Invention

Technical problem to be solved

The embodiment of the invention provides an ultrasonic tomography detection method with a solid coupling medium and a mammary gland detection device, which are used for solving the defect that the accuracy of a detection result is influenced due to poor imaging effect caused by the difficulty in mammary gland shaping of the conventional mammary gland detection device.

Disclosure of the invention

The embodiment of the invention provides an ultrasonic fault detection method with a solid coupling medium and a mammary gland detection device, which comprise a bed body and a detection cavity arranged in the middle of the bed body, wherein the detection cavity comprises an outer water tank, an inner solid coupling ultrasonic conduction piece and an annular probe, and the annular probe is sleeved outside the solid coupling ultrasonic conduction piece and is tightly attached to the outer surface of the solid coupling ultrasonic conduction piece; the annular probe is also connected with the screw rod motion module and the data acquisition module; the screw rod movement module is arranged in the bed body below the water tank and is used for driving the annular probe to do translational movement in the vertical direction along the outer surface of the solid-state coupling ultrasonic conduction piece; the bed body is also internally provided with a control assembly and a data acquisition module, the control assembly is used for controlling the movement of the screw rod movement module and the replacement of water in the water tank, and the data acquisition module is used for receiving echo data acquired by the annular probe, converting the echo data into a tomographic image after analysis and processing, and transmitting the tomographic image to a display device arranged on the side surface of the bed body for display; the upper surface of the bed body is provided with a detection hole, the water tank is arranged under the detection hole, and the mammary tissue of a person to be detected sinks into the water tank through the detection hole.

Preferably, the solid-state coupled ultrasound transducer is cylindrical.

Preferably, the inner bottom surface of the solid-state coupling ultrasonic conduction piece is provided with a concave part.

Preferably, the bottom of the solid-state coupled ultrasonic transmitter is also provided with a breast pad.

Preferably, the bed body is divided into three parts by partition plates, namely a control section, a detection section and a data acquisition section in sequence, the control assembly is arranged in the control section, the screw rod movement module and the detection cavity are arranged in the detection section, and the data acquisition module is arranged in the data acquisition section; the display device is arranged on the outer side surface of the control section.

Preferably, the side of water tank still is equipped with camera mouth and light incident port.

Preferably, the solid-state coupling ultrasonic conduction piece comprises a hollow cylinder and a movable cylindrical surface clamped in the hollow cylinder, wherein the surface of the movable cylindrical surface is concave and can slide along the inner surface of the hollow cylinder.

Preferably, the included angle between the outer edge of the movable cylindrical surface and the bottom surface of the movable cylindrical surface is delta, and delta is more than or equal to 45 degrees and less than or equal to 75 degrees.

Simultaneously, the ultrasonic tomography human tissue detection method using the solid coupling agent as the ultrasonic conduction medium is disclosed, and comprises the following steps:

the method comprises the following steps: the solid coupling medium which is made into a specific shape partially wraps or completely wraps the human tissue to be checked;

step two: arranging a combination of two or more ultrasonic probes on two opposite sides of the examined tissue;

step three: the solid coupling medium with a specific shape is attached to human tissues and an ultrasonic probe;

step four: the ultrasonic probe can perform rotary scanning on the same fault plane to image a single fault plane, and can also perform translation to image different fault planes to complete detection.

(III) advantageous effects

The ultrasonic fault detection method with the solid coupling medium and the mammary gland detection device provided by the embodiment of the invention comprise an outer water tank, an inner solid coupling ultrasonic conduction piece, an annular probe, a control assembly and a data acquisition module, wherein the control assembly is used for controlling the movement of a screw rod movement module and the replacement of water in the water tank, the data acquisition module is used for receiving echo data acquired by the annular probe, converting the echo data into a fault image after analysis and treatment and then transmitting the fault image to a display device arranged on the side surface of a bed body for display, and compared with the mode that water is directly used as the conduction medium, the solid coupling ultrasonic conduction piece is used as the ultrasonic conduction medium, the breast support can better complete plasticity in a matching way, so that the breast support is suitable for mammary glands of examinees with different shapes and sizes, the imaging effect is improved, and the accuracy of a detection result is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an ultrasonic tomography breast detection apparatus with a solid-state coupling medium in an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a detection cavity of a breast detection device with a solid-state coupling medium in an embodiment of the invention.

Fig. 3 is a schematic diagram of an ultrasonic tomography device with a solid-state coupling medium for detecting human tissues in the embodiment of the invention.

Description of reference numerals:

1: a bed body; 21: a water tank; 22: a solid state coupled ultrasound transducer;

23: an annular probe; 24: a breast support; 25: a detection hole;

26: a light incident port; 27: a camera port; 6: a display device;

3: a control component; 4: a screw rod movement module; 5: and a data acquisition module.

221: a hollow cylinder; 222: a movable cylindrical surface; 7: an ultrasound probe.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the embodiments of the present invention, it should be noted that the terms "first", "second" and "third" are used for the sake of clarity in describing the numbering of the components of the product and do not represent any substantial difference, unless explicitly stated or limited otherwise. The directions of "up", "down", "left" and "right" are all based on the directions shown in the attached drawings. Specific meanings of the above terms in the embodiments of the present invention can be understood by those of ordinary skill in the art according to specific situations.

It is to be understood that, unless otherwise expressly specified or limited, the term "coupled" is used broadly, and may, for example, refer to directly coupled devices or indirectly coupled devices through intervening media. Specific meanings of the above terms in the embodiments of the invention will be understood to those of ordinary skill in the art in specific cases.

Fig. 1 is a schematic diagram of an overall structure of an ultrasonic tomography method and a breast detection apparatus with a solid-state coupling medium in an embodiment of the present invention, which includes a bed 1 and a detection chamber disposed in the middle of the bed 1, as shown in fig. 2, the detection chamber includes an outer water tank 21 and an inner solid-state coupling ultrasonic conducting member 22, the solid-state coupling ultrasonic conducting member 22 is cylindrical, and further includes an annular probe 23, the annular probe 23 is sleeved outside the solid-state coupling ultrasonic conducting member 22 and is tightly attached to an outer surface thereof; the annular probe 23 is also connected with the screw rod motion module 4 and the data acquisition module 5; the screw rod motion module 4 is arranged in the bed body 1 below the water tank 21 and is used for driving the annular probe 23 to do translational motion in the vertical direction along the outer surface of the solid-state coupling ultrasonic transmission piece 22; the bed body 1 is also internally provided with a control assembly 3 and a data acquisition module 5, the control assembly 3 is used for controlling the movement of the screw rod movement module 4 and the replacement of water in the water tank 21, and the data acquisition module 5 is used for receiving echo data acquired by the annular probe 23, converting the echo data into a tomographic image after analysis and processing, and transmitting the tomographic image to a display device 6 arranged on the side surface of the bed body 1 for display; the upper surface of the bed body 1 is provided with a detection hole 25, the water tank 21 is arranged right below the detection hole 25, and the mammary tissue of the person to be detected enters the water tank 21 through the detection hole 25.

Preferably, the bottom of the inner surface of the solid-state coupled ultrasound conducting piece 22 is provided with a recessed portion, and an included angle θ between the inner surface and the bottom surface is 50 °, so that the breast tissue of the detected person can be better attached to the inner wall of the solid-state coupled ultrasound conducting piece 22 at a certain angle, and the shaping is facilitated. In order to facilitate manufacturing and installation, as shown in fig. 2, the solid-state coupling ultrasonic conduction element 22 is divided into a hollow cylinder 221 and a movable cylinder 222 clamped in the hollow cylinder 221, the surface of the movable cylinder 222 is concave and can slide along the inner surface of the hollow cylinder 221, the included angle between the outer edge of the movable cylinder 222 and the bottom surface of the movable cylinder is 50 °, when in use, firstly, the breast is placed in the hollow cylinder 221, a small amount of water is added into the concave part of the movable cylinder 222, the movable cylinder 222 moves upwards to be attached to the breast, the excessive water flows out through the upper part of the movable cylinder 222, then the residual water is pumped out through the small hole in the middle of the movable cylinder 222, and the whole breast is completely attached to the solid-state coupling agent; the movable cylinder 222 is then pulled down slightly to allow more breast tissue to enter, and the probe can then scan up and down. Another function of the hollow cylinder 221 is to shape the part of the breast close to the chest wall, where the angle is too small to affect the imaging effect.

Preferably, a breast support 24 is further fixed to the bottom of the solid-state coupled ultrasound transducer 22, and the breast support 24 is used to cooperate with the solid-state coupled ultrasound transducer 22 to plastically deform breast tissue for detection.

Preferably, the bed body 1 is divided into three parts by partition plates, namely a control section, a detection section and a data acquisition section in sequence, the control assembly 3 is arranged in the control section, the screw rod movement module 4 and the detection cavity are arranged in the detection section, and the data acquisition module 5 is arranged in the data acquisition section; the display device 6 is arranged on the outer side surface of the control section, and the multi-section structure prevents interference among all components.

Preferably, the outer wall of the water tank 21 is further provided with a camera port 27 and a light incident port 26, so that the internal condition can be conveniently photographed and monitored.

The using method comprises the following steps: firstly, a solid-state coupling ultrasonic conducting piece 22 with a proper inner diameter is selected to be placed in the middle of an annular probe 23, an examinee lies down, a mammary gland hangs down into the middle of the solid-state coupling ultrasonic conducting piece 22, the front end of the mammary gland is sucked by a breast support 24 below the middle of a water tank 21, the mammary gland is pulled slightly, the whole mammary gland hangs down into a hole of the solid-state coupling ultrasonic conducting piece 22, and the side face of the mammary gland is attached to the inner face of the solid-state coupling ultrasonic conducting piece 22 to form a cylindrical shape or a circular truncated cone shape. After the ultrasonic wave is stabilized, the annular probe 23 is attached to the outer cylindrical surface of the solid-state coupling ultrasonic conduction piece 22 to scan and image up and down. As shown in fig. 3, the solid coupling medium partially or completely wraps the body tissue to be examined, the combination of two or more ultrasonic probes 7 is located on two opposite sides of the body tissue to be examined, each ultrasonic probe 7 can acquire the transmission signal of the opposite ultrasonic probe 7, the ultrasonic probes 7 form a whole, not only can rotate and scan on the same fault plane to image a single layer surface, but also can move and image different fault planes, and a ring probe formed by combining a plurality of probes 6 can be adopted, because the ultrasonic probes 7 form a whole, the solid coupling agent has the function of easy shaping, can be made into any required shape to attach the ultrasonic probes and the body tissue to be examined, and simultaneously, the solid coupling agent can also be used in ultrasonic tomography equipment for detecting other body tissues.

Compared with the prior art that the examined tissue and the ultrasonic probe are completely soaked in water and are detected in a water coupling mode, the method of the solid couplant is more flexible to use and does not limit the part of the examined tissue. The water container is not needed any more, the probe can be adapted to various parts of the human body at any angle, and the manufacturing difficulty of the whole equipment is greatly reduced.

Benefits of solid state coupling of the ultrasound transducer 22: the probe has the sound conduction characteristic similar to that of water, when the water is used, the probe moves, the water is also shaken, bubbles always exist in the water, and the bubbles are attached to the surface of the probe and the surface of human skin, which are factors influencing the image quality. The solid-state coupled ultrasound transducer 22, in addition to being shaped, also solves these problems of using water. And the contact of the solid-state coupling ultrasonic transmitter 22 and other objects is soft contact, the upper surface is attached to the chest wall of a person, the chest wall is supported, and the person to be examined lies prone more comfortably.

Experiments have shown that the quality of imaging using the solid state coupled ultrasound transducer 22 is much improved over imaging in water.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (9)

1. An ultrasonic tomography human tissue detection method taking a solid couplant as an ultrasonic conducting medium is characterized by comprising the following steps:

the method comprises the following steps: the solid coupling medium which is made into a specific shape partially wraps or completely wraps the human tissue to be checked;

step two: arranging a combination of two or more ultrasonic probes on two opposite sides of the examined tissue;

step three: the solid coupling medium with a specific shape is attached to human tissues and an ultrasonic probe;

step four: the ultrasonic probe can perform rotary scanning on the same fault plane to image a single fault plane, and can also perform translation to image different fault planes to complete detection.

2. The ultrasonic tomography mammary gland detection device with the solid coupling medium is characterized by comprising a bed body, a detection cavity arranged in the middle of the bed body, an annular probe and a control module, wherein the detection cavity comprises an outer water tank, an inner solid coupling ultrasonic conduction piece and the annular probe, and the annular probe is sleeved outside the solid coupling ultrasonic conduction piece and is tightly attached to the outer surface of the solid coupling ultrasonic conduction piece; the annular probe is also connected with the screw rod motion module and the data acquisition module; the screw rod movement module is arranged in the bed body below the water tank and is used for driving the annular probe to do translational movement in the vertical direction along the outer surface of the solid-state coupling ultrasonic conduction piece; the bed body is also internally provided with a control assembly and a data acquisition module, the control assembly is used for controlling the movement of the screw rod movement module and the replacement of water in the water tank, and the data acquisition module is used for receiving echo data acquired by the annular probe, converting the echo data into a tomographic image after analysis and processing, and transmitting the tomographic image to a display device arranged on the side surface of the bed body for display; the upper surface of the bed body is provided with a detection hole, the water tank is arranged under the detection hole, and the mammary tissue of a detected person sinks into the water tank through the detection hole.

3. The ultrasonic tomography breast detection device with the solid-state coupling medium as claimed in claim 2, wherein the solid-state coupling ultrasonic transmitter is cylindrical.

4. The ultrasonic tomography breast detection device with the solid-state coupling medium as claimed in claim 3, wherein the bottom surface of the inner side of the solid-state coupling ultrasonic transmitter is provided with a recess.

5. The ultrasonic tomography breast detection device with the solid-state coupling medium as claimed in claim 2, wherein a breast support is further arranged at the bottom of the solid-state coupling ultrasonic conduction piece.

6. The ultrasonic tomography breast detection device with the solid-state coupling medium as claimed in claim 2, wherein the bed body is divided into three parts by a partition board, which are a control section, a detection section and a data acquisition section in sequence, the control assembly is arranged in the control section, the screw rod motion module and the detection cavity are arranged in the detection section, and the data acquisition module is arranged in the data acquisition section; the display device is arranged on the outer side surface of the control section.

7. The ultrasonic tomography breast detection device with the solid-state coupling medium as claimed in claim 2, wherein a camera port and a light incident port are further provided on the side surface of the water tank.

8. The ultrasonic tomography breast detection device with the solid-state coupling medium as claimed in claim 2, wherein the solid-state coupling ultrasonic transmitter comprises a hollow cylinder and a movable cylindrical surface clamped in the hollow cylinder, and the surface of the movable cylindrical surface is concave and can slide along the inner surface of the hollow cylinder.

9. The ultrasonic tomography breast detection apparatus with a solid-state coupling medium of claim 8 wherein the angle between the outer edge of the movable cylindrical surface and the bottom surface thereof is δ, 45 ° ≦ δ ≦ 75 °.

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