KR20110074326A - High-intensity focused ultrasound treatment system - Google Patents

Abstract

PURPOSE: A high-intensity focused ultrasound treatment system is provided to enable a user to conveniently monitor treatment procedure while treating the human body. CONSTITUTION: A high-intensity focused ultrasound treatment system comprises: a container(10) of a spherical crown shape; a plurality of transducers(20) which are arranged in a plurality of virtual concentric circles and generate ultrasonic wave for treatment; and a probe supporting member(40) of a pipe shape in which a diagnosis probe(30) is equipped in one end thereof and which is arranged in the central curvature direction of the container.

Description

High-Intensity Focused Ultrasound Treatment System

The present invention relates to a high-intensity focused ultrasound therapy system, and more particularly, to a high-intensity focused ultrasound therapy system that can perform the treatment of the human body and at the same time can easily confirm the treatment site and monitor the treatment process.

HIFU (High-Intensity Focused Ultrasound Treatment System) is a system that treats human diseases by using high-intensity focused ultrasound, and it is capable of absorbing sound wave energy of energy intensity that normal tissue of human body can accept. Through the sound bearing medium, it penetrates into the patient's body tissue and concentrates on the specific treatment site tissue, causing necrotic necrosis of cancer cells. Such high intensity focused ultrasound therapy systems typically consist of a single transducer or a plurality of transducer arrays that generate therapeutic ultrasound.

1 shows an example of a high intensity focused ultrasound treatment system 1 consisting of a plurality of transducer arrays. The system 1 is arranged on a spherical crown-shaped container 2 and a plurality of virtual concentric circles drawn on the inner circumferential surface of the container 2, and is used to treat the ultrasonic wave to the human body H. And a plurality of transducers (5) having a planar piezoelectric ceramic (3) for irradiating (U), and a sound wave absorbing material (4) attached to a rear surface of the piezoelectric ceramic (3). Ultrasound U irradiated from the ceramic 3 is focused on the center of curvature O of the container 2, thereby treating the human body H.

On the other hand, in order not to While these high-intensity focused ultrasound therapy system necrotic tumor cells of the treated area in a flash affect normal tissue, the ultrasonic focus and the side lobe (Sidelobe, 副葉) is smaller, and larger the energy in the ultrasound focus. In addition, in order to prevent burns caused by the high temperature of the normal tissue in the skin and the ultrasonic irradiation path, the focusing angle β of the ultrasonic wave shown in FIG. 1 should be large.

However, since the high-intensity focused ultrasound therapy system 1 uses the planar piezoelectric ceramic 3, the center of curvature (1) is irradiated in the form of the ultrasonic wave U irradiated from the piezoelectric ceramic 3 in a constant width ( There is a problem that the focal region of the ultrasonic wave U focused on O) becomes large.

In addition, the high-intensity focused ultrasound therapy system 1 has a structure in which ultrasonic waves U irradiated backward from the piezoelectric ceramic 3 are absorbed by the sound absorbing material 4. When operating for a long time there is also a problem that a large amount of heat generated in the sound absorbing material 4 affects the normal operation of the transducer (5).

In addition, in the case of the high-intensity focused ultrasound therapy system (1), it is difficult to combine the diagnostic probe (probe) to determine the treatment site and monitor the treatment process to the container (2), the treatment behavior of the human body At the same time there is a problem that it is difficult to perform the identification of the treatment site and monitoring the treatment process.

Another example of a system consisting of a plurality of transducer arrays is <a kind of focal ultrasonic wave source> of Chinese patent application No. 2001270265.x. Each transducer in this system has a planar piezoceramic or a piezoceramic acoustic lens in combination. However, since the ultrasonic output of the transducer is limited, the intensity of focus ultrasound is polarized. In addition, as can be seen from the transducers of the piezoelectric multi-element high intensity focus ultrasonic transducer and focusing method of Chinese Patent Application No. 200510038963.1, Publication No. There is also a problem that the manufacturing process is complicated because the processing of the acoustic lens is required.

On the other hand, in the case of a system using one transducer, the position and size of the focal point are determined by the geometric shape and frequency of the transducer, and the advantage is that the focal region of the formed focal point is small and the side lobe is small. However, due to the limitation of the processing technology, there is a problem that the ultrasonic irradiation area and the focusing angle β are small and the energy in the focal region is weak.

The present invention has been made to solve the above problems, the object of which is to provide a high-intensity focused ultrasound therapy system with improved structure to perform the treatment of the human body and at the same time to easily perform the identification of the treatment site and monitoring the treatment process To do this.

In order to achieve the above object, the high-intensity focused ultrasound therapy system according to the present invention, in the high-intensity focused ultrasound therapy system for performing treatment by irradiating therapeutic ultrasound to a specific area of the human body, the spherical crown (sphere) Vessel; A plurality of transducers arranged on a plurality of virtual concentric lines drawn on the inner circumferential surface of the container and generating therapeutic ultrasonic waves; It has one end to which the diagnostic probe for irradiating the diagnostic ultrasonic wave can be mounted, the one end portion is a pipe-shaped probe support member disposed in the direction of the center of curvature of the container through the container; .

According to the present invention, by having a pipe-shaped probe support member that can be equipped with a diagnostic probe for irradiating diagnostic ultrasonic waves at one end, while performing the treatment of the human body at the same time, the confirmation of the treatment site and the monitoring of the treatment process can be easily performed. The effect is that you can.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a plan view of the high-intensity focused ultrasound therapy system according to an embodiment of the present invention, Figure 3 is a cross-sectional view III-III of the high-intensity focused ultrasound therapy system shown in FIG. 4 is a cross-sectional view taken along line IV-IV of the transducer illustrated in FIG. 3, and FIG. 5 is a diagram illustrating a case in which all of the plurality of transducers are operated.

2 to 5, the high-intensity focused ultrasound therapy system 100 according to a preferred embodiment of the present invention is an apparatus for performing treatment by irradiating therapeutic ultrasound (U) to a specific region of the human body, including a container ( 10), the transducer 20, the diagnostic probe 30 and the probe support member 40 is configured.

The vessel 10 is a spherical crown-shaped vessel, made of duralumin, and the radius of curvature of the vessel 10 is 300 mm.

A plurality of first through holes 11 are formed on an inner circumferential surface of the container 10, wherein the first through holes 11 are formed around the central axis C of the container 10. Are arranged on a plurality of virtual concentric lines drawn on the inner circumferential surface of, and are arranged at equal intervals on each of the concentric circles. In the present embodiment, the concentric circles are two, and the first through-hole 11 has eight in the concentric circles, 16 in the outer concentric circles are distributed 24 are provided in total.

A second through hole 12 is formed in the center of the container 10, the diameter of the second through hole 12 is 60mm.

The transducer 20 is provided on the inner peripheral surface of the container 10 by being provided in plural as a device for generating the therapeutic ultrasound (U), respectively coupled to the first through-hole (11). The transducer 20 includes a piezoelectric ceramic 21, a case 22, a crimp clamp 23, and a gasket 24. In the present embodiment, 16 transducers are used which are equal to the number of the first through holes 11.

The piezoelectric ceramic 21 has a spherical surface having a predetermined radius of curvature as a member for generating the ultrasonic waves U for treatment. In this embodiment, the radius of curvature of the spherical surface of the piezoelectric ceramic 21 is the same as the radius of curvature of the spherical container 10.

The case 22 is a pipe-shaped member for accommodating the piezoelectric ceramic 21 therein, and has a locking jaw 26 extending inwardly at one end thereof.

The crimping clamp 23 is a cylindrical member having one end opened, and the open end is inserted into the other end of the case 22 so that the reflective cavity 28 can be provided. The hole 27 is formed in the center part.

The gasket 24 is an insulating member disposed between the piezoelectric ceramic 21 and one end of the crimp clamp 23.

The power supply device 25 is provided in plural as a device for supplying high power high frequency electricity to the piezoelectric ceramic 21, and is electrically connected to the piezoelectric ceramic 21 one by one. A conductive wire 29 connected to the piezoelectric ceramic 21 passes through the hole 27 of the crimp clamp 23 and is connected to the power supply device 25.

The diagnostic probe 30 is a device for irradiating diagnostic ultrasonic waves for diagnosing a human body and is disposed in the center of curvature O of the container 10.

The probe support member 40 is a pipe-shaped member, and the diagnostic probe 30 is mounted at one end thereof. The probe supporting member 40 has one end thereof so as to be movable up and down along the central axis C of the container 10 and to be rotatable about the central axis C of the container 10. It is coupled to the container 10 while penetrating through the through hole 12, and the other end is connected to a driving device (not shown) for generating the vertical motion and the rotary motion. In this embodiment, the outer diameter of the probe support member 40 is 60mm.

A sealing ring (not shown) is provided between the probe support member 40 and the second through hole 12 of the container 10 to prevent the liquid contained in the container 10 from leaking out.

Hereinafter, an example of a method of using the high intensity focused ultrasound therapy system 100 having the above-described configuration will be described.

When the power supply device 25 connected to the piezoelectric ceramic 21 is turned on, an ultrasonic wave U is generated from the piezoelectric ceramic 21, and the ultrasonic wave U is not only irradiated forward toward the human body H, It is also irradiated from the rear. At this time, by the reflection cavity 28 formed by the piezoelectric ceramic 21 and the pressing clamp 23, the ultrasonic wave (U) irradiated to the rear is reflected toward the front, and overlaps the ultrasonic wave (U) irradiated to the front. This has the advantage of increasing energy utilization.

In the case of the high intensity focused ultrasound treatment system 100, since the ultrasonic wave U irradiated backward by the reflective cavity 28 is reflected to the front without a separate sound absorbing material, the conventional high intensity focused ultrasound Unlike the treatment system 1, there is an advantage that the exothermic phenomenon due to the absorption of the ultrasonic wave U can be suppressed. In addition, since the hole 27 is provided in the crimping clamp 23, a part of the heat generated by the ultrasonic wave U may be easily discharged to the outside.

On the other hand, the piezoelectric ceramic 21, unlike the planar piezoelectric ceramic (3) used in the conventional high-intensity focused ultrasound therapy system 1, the spherical surface having the same radius of curvature as the radius of curvature of the spherical container 10 Since the primary focus is formed by the shape of the container 10 at the center of curvature O, the secondary focal by the spherical shape of the piezoelectric ceramics 21 is formed to overlap at the same point. By doing so, there is an advantage that double focusing is implemented. Therefore, there is an advantage that the focus area is small and the energy in the focus area is large.

In addition, unlike the conventional system using one transducer, the high-intensity focused ultrasound therapy system 100 includes a large-diameter container 10 having a radius of curvature of 300 mm. There is also a big advantage. Therefore, it is possible to prevent the image from occurring on the skin and normal tissue in the ultrasonic irradiation path.

In the case of the high intensity focused ultrasound treatment system 100, since the power supply device 25 is connected to the piezoelectric ceramic 21 one by one, the output of the power supply device 25 may be adjusted as a whole or individually. The output energy of the transducer 20 can be adjusted collectively or individually, and by selectively operating only some of the transducers 20 of the plurality of transducers 20, the transducer 20 can be removed from the transducer 20 as necessary. There is an advantage that the irradiation path of the ultrasonic wave (U) to be irradiated can be selected.

That is, when there is no obstruction on the irradiation path of the ultrasonic wave U and a strong output treatment is required, as shown in FIG. 5, all the transducers 20 can be operated and the ultrasonic wave U can be operated. If there is an obstruction such as a skeleton of the human body H on the path of irradiation of the device, as shown in FIG. 6, only the transducers 20 arranged on the outer concentric circles, which can avoid the obstruction, may be operated. It may be. In addition, when a weak output treatment is required as in the case of the treatment of the skin of the human body H, as illustrated in FIG. 7, one or several transducers 20 on one side may be selectively operated. It may be.

In addition, the high-intensity focused ultrasound therapy system 100 is movable up and down along the central axis C of the container 10 while penetrating the container 10, and is centered on the central axis C. Since the rotatable probe support member 40 is provided, the diagnostic probe 30 can be easily mounted, and at the same time, the treatment of the human body (H) can be performed while the confirmation of the treatment site and the monitoring of the treatment process can be performed easily. Therefore, it is possible to evaluate the treatment site and evaluate the treatment effect even during the treatment procedure.

In particular, the probe support member 40 is movable up and down along the central axis (C) and can be rotated about the center axis (C), so that the diagnostic probe 30 is suitable for the human body (H) The advantage is that it can be approached in a direction. Therefore, a smarter ultrasound diagnosis image can be obtained, and since the diagnosis probe 30 can be moved from the irradiation path of the ultrasonic wave U emitted from the piezoelectric ceramic 21, the diagnosis can be made from the high power ultrasonic wave U. There is also an advantage that the probe 30 can be prevented from being damaged.

The technical scope of the present invention is not limited to the contents described in the above embodiments, and the equivalent structure modified or changed by those skilled in the art can be applied to the technical It is clear that the present invention does not depart from the scope of thought.

1 is a cross-sectional view showing a conventional high intensity focused ultrasound treatment system.

2 is a plan view of a high-intensity focused ultrasound therapy system according to an embodiment of the present invention.

3 is a cross-sectional view taken along the line III-III of the high intensity focused ultrasound treatment system shown in FIG.

4 is a cross-sectional view taken along the line IV-IV of the transducer shown in FIG. 3.

5 is a diagram illustrating a case in which all of a plurality of transducers are operated.

6 is a diagram illustrating a case where a transducer arranged on an outer concentric circle among a plurality of transducers is operated.

7 is a diagram illustrating a case in which a transducer of one side is selectively operated among a plurality of transducers.

＊ Explanation of symbols on major part of drawing ＊

100: high intensity focused ultrasound therapy system 10: container

11: first through hole 12: second through hole

20: transducer 21: piezoceramic

22 case 23 crimping clamp

24: gasket 25: power supply

30: diagnostic probe 40: probe support member

Claims (8)

In the high-intensity focused ultrasound therapy system for performing treatment by irradiating therapeutic ultrasound to a specific area of the human body, Spherical crown shaped containers; A plurality of transducers arranged on a plurality of virtual concentric lines drawn on the inner circumferential surface of the container and generating therapeutic ultrasonic waves; A pipe-shaped probe support member having one end to which a diagnostic probe for radiating diagnostic ultrasonic waves can be mounted, the one end penetrating through the container and disposed in a direction of the center of curvature of the container; High intensity focused ultrasound therapy system comprising: a. The method of claim 1, Each transducer is A piezoelectric ceramic having a spherical surface having a predetermined radius of curvature; A case having a pipe shape accommodating the piezoelectric ceramic therein, the case having one end of an engaging jaw extending inwardly; A cylindrical member having one end opened, the clamp being formed to be provided with a reflection cavity by being inserted into the other end of the case; A gasket disposed between the piezoelectric ceramic and one end of the crimping clamp; A power supply unit for supplying high power high frequency electricity to the piezoelectric ceramics; High intensity focused ultrasound therapy system comprising: a. 3. The method of claim 2, The compression clamp is a high intensity focused ultrasound therapy system, characterized in that the hole is formed in the center of the other end closed. The method of claim 1, The plurality of concentric circles are centered on the central axis of the container, the inner peripheral surface of the container is formed with a plurality of first through-holes arranged at equal intervals on each of the concentric circle, The transducers are arranged on the inner circumferential surface of the container by being respectively coupled to the first through hole, A second through hole is formed at the center of the container, and the probe support member passes through the second through hole. 3. The method of claim 2, The radius of curvature of the piezoceramic spherical surface is the same as the radius of curvature of the spherical container, high intensity focused ultrasound treatment system. The method of claim 4, wherein The probe support member is movable up and down along the central axis of the container, high intensity focused ultrasound therapy system, characterized in that the rotational movement around the center axis of the container. The method of claim 1, And the output energy of the plurality of transducers is collectively or individually adjustable. The method of claim 1, And by selectively operating some of the plurality of transducers, an irradiation path of ultrasonic waves irradiated from the transducers can be selected.

Images