KR20160139517A - Ultrasoud catridge for high intensity focused ultrasound device - Google Patents

Abstract

The present invention relates to an ultrasound cartridge for a high-intensity focused ultrasound device. The ultrasound cartridge for a high-intensity focused ultrasound device according to an embodiment of the present invention includes: a cartridge body used in coupling with a surgical hand piece of ultrasound equipment for cosmetic skin treatment, coupled with the surgical hand piece, filled with a medium for ultrasound transmission, and provided on one side with a transmissive member for ultrasound transmission; and an ultrasound treatment unit provided in the cartridge body and non-invasively generating a thermal focal point of the high-intensity focused ultrasound (HIFU) at a predetermined depth from the skin surface through the transmissive member during an operation. The cartridge body has: a medium supply port provided at one end of the cartridge body for the medium to be supplied into the cartridge body; and a medium discharge port provided at the other end of the cartridge body for the medium to be discharged to the outside from the cartridge body.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an ultrasound cartridge for a high intensity focused ultrasound device,

The present invention relates to an ultrasound cartridge, a high-intensity focused ultrasound device having the same, and a cosmetic treatment method using the ultrasound cartridge. More particularly, the present invention relates to an ultrasound diagnostic system using a high- And a high intensity focused ultrasound device having the same, and a cosmetic treatment method using the ultrasound cartridge.

Recently, interest in skin beauty and obesity treatment is increasing, and various medical devices for skin beauty and obesity treatment are being developed. For example, a variety of skin care medical devices have been developed for patients who wish to perform face lifting or skin tightening procedures, and on the other hand, medical devices for the treatment of obese patients are being developed.

As a skin care medical device, there are invasive medical devices that cut the skin tissue, but as the safety problem of the patient and the rejection of the patient are emphasized, non-invasive medical devices that can be practiced without the incision of the skin tissue are noticed . This tendency is also seen in the field of medical devices for the treatment of obesity patients, and in recent years there has been a growing interest in non-invasive medical devices for the treatment of obesity.

In keeping with this trend, there is a medical device that uses High Intensity focused ultrasound (HIFU) as a non-invasive medical device that has recently been highlighted. For example, there is an ultrasonic medical device for skin beauty treatment, which performs skin lifting or skin tightening by forming a thermal focal point of a high-intensity focused ultrasonic wave in a relatively shallow skin tissue, and a high-intensity focused ultrasonic wave is applied to a subcutaneous fat layer There is an ultrasonic medical device for irradiating high intensity focused ultrasound (HIFU) to burn or dissolve fatty tissue. In recent years, medical devices for removing tumors and cancerous tissues using a high-intensity focused ultrasound, medical devices for treating gynecological diseases, medical devices for removing pregnancy lines, and medical devices for treating hyperhidrosis /

Korean Patent Publication No. 2011-0091831 Korean Patent Publication No. 2007-0065332 Korea Patent Publication No. 2012-0116908 Korean Patent Publication No. 2011-0121701

Disclosure of Invention Technical Problem [8] The present invention has been made in view of the above problems, and it is an object of the present invention to provide an ultrasound cartridge having improved efficiency of removal or reduction of adipose tissue and a high-intensity focusing ultrasound apparatus having the same.

An object of the present invention is to provide an ultrasound cartridge capable of effectively cooling the heat generated by the ultrasound therapy unit for forming a thermal focus of high-intensity focused ultrasound and improving the lifetime and product reliability of the ultrasound therapy unit and a high-intensity focused ultrasound device having the same .

It is an object of the present invention to provide an ultrasonic cartridge capable of performing a non-invasive face lifting or skin tightening procedure and a reduction or removal treatment of a non-invasive subcutaneous fat layer as a single device, and a high-intensity focusing ultrasonic apparatus having the same.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a cosmetic treatment method in which the efficiency of removal or reduction of adipose tissue is improved.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a cosmetic treatment method capable of effectively cooling the heat generated by an ultrasonic wave treatment unit for forming a thermal focus of a high intensity focused ultrasonic wave and improving the life span and product reliability of the ultrasonic wave treatment unit.

The object of the present invention is to provide a cosmetic treatment method capable of performing a non-invasive face lifting or skin tightening procedure and a reduction or removal treatment of a non-invasive subcutaneous fat layer as a single device.

The ultrasonic wave cartridge for use in a high-intensity focusing ultrasonic apparatus according to the present invention is used in combination with a surgical handpiece of an ultrasonic apparatus for skin beauty treatment. The ultrasonic wave cartridge is coupled to the procedure handpiece and is filled with a medium for transmitting ultrasonic waves, And a high intensity focused ultrasound (HIFU) ultrasound image is provided at a predetermined depth from the surface of the skin through the transmitting member in a non-invasive manner, The cartridge body is provided at one end of the cartridge body and has a medium supply port for receiving the medium into the cartridge body, and an ultrasonic treatment unit provided at the other end of the cartridge body for supplying a thermal focal point of the medium to the cartridge body. And the medium is transported to the outside of the cartridge body And a discharge port for discharging the medium.

According to an embodiment of the present invention, the medium is circulated in the cartridge body using the medium supply port and the medium discharge port, so that the temperature can be maintained in the range of 0 ° C to 30 ° C.

According to an embodiment of the present invention, the ultrasound therapy unit includes a plurality of ultrasound transducers for converting electrical energy into ultrasound energy, wherein the ultrasound transducer includes a plurality of ultrasound transducers, The thermal focus irradiated from the transducer can be formed at positions different from each other in the skin tissue to be treated.

According to an embodiment of the present invention, the ultrasound therapy unit includes a plurality of ultrasound transducers for converting electrical energy into ultrasound energy, wherein the ultrasound transducer includes a plurality of ultrasound transducers, The thermal focuses irradiated from the transducers can be formed at the same positions in the skin tissue to be treated.

According to the embodiment of the present invention, the ultrasonic treatment part has an irradiation depth from the skin surface of the thermal focus of 11.0 mm to 15.0 mm, and the irradiation depth of the thermal focus from the skin surface of 6.0 to 10.0 mm Lt; / RTI >

According to an embodiment of the present invention, the ultrasound therapy unit includes at least one ultrasound transducer for converting electrical energy into ultrasound energy, and the ultrasound transducer may be configured such that the thermal focus is limited to the target tissue Up and down movement, left and right movement, swing movement, pendulum movement, and tilting movement in the cartridge body under the condition that the at least one of the front and rear motions is formed.

The ultrasound cartridge and the high intensity focused ultrasound apparatus having the same according to the present invention may include a cartridge body having a built-in ultrasound therapy unit for forming a thermal focus of high intensity focused ultrasound, a medium for performing minimum loss of ultrasound transmission and cooling function of the ultrasound therapy unit, Circulation and cooling of the ultrasound therapy unit and continuously maintaining the predetermined temperature range can prevent the life of the ultrasound therapy unit from being reduced and the reliability of the equipment being lowered.

The ultrasound cartridge and the high-intensity focused ultrasound device having the same according to the present invention may be provided with cartridges having various purposes of operation in a compatible manner with a procedure handpiece, and then perform face lifting or skin tightening or reduction or removal of a subcutaneous fat layer, Two or more high-intensity focused ultrasound procedures can be performed as a single device by mounting a target cartridge on a procedure handpiece.

The method of cosmetic treatment using high-intensity focused ultrasound according to the present invention circulates and cools a medium that performs minimally loss transmission of ultrasonic waves and a cooling function of the ultrasonic treatment unit inside a cartridge body having an ultrasonic treatment unit, It is possible to prevent the life of the ultrasound therapy unit due to the heat generation and deterioration of the equipment reliability.

A cosmetic treatment method using a high-intensity focused ultrasound according to the present invention is a method of preparing a cartridge having various procedures according to the present invention in a manner compatible with an obesity state of a subject to be treated or a treatment site, By performing the procedure for the reduction of the subcutaneous fat layer, it is possible to perform customized treatment for each patient or site.

1 is a perspective view schematically illustrating a high-intensity focusing ultrasound apparatus according to an embodiment of the present invention.
FIG. 2 is a view for explaining a process of assembling the procedure handpiece and the cartridge shown in FIG. 1. FIG.
FIG. 3 is a cross-sectional view schematically illustrating an example of a procedure handpiece shown in FIG. 1. FIG.
Fig. 4 is a cross-sectional view schematically illustrating another example of the procedure handpiece shown in Fig. 1. Fig.
5 is a view schematically showing a structure of a transducer module in a high-intensity focusing ultrasound system according to an embodiment of the present invention.
6 is a view for explaining a tilting operation of the transducer module in the high-intensity focusing ultrasound apparatus according to the embodiment of the present invention.
7 is a view schematically showing the structure of a transducer module in a high-intensity focusing ultrasonic device according to another embodiment of the present invention.
8 is a view schematically showing an arrangement of a transducer module in a high-intensity focusing ultrasound apparatus according to another embodiment of the present invention.
9 is a view for explaining cosmetic treatment conditions of the first and second cartridges according to the embodiment of the present invention.
10 is a flowchart schematically illustrating a cosmetic treatment method using high-intensity focused ultrasound according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. These embodiments are provided so that the disclosure of the present invention is complete and that those skilled in the art will fully understand the scope of the present invention. Like reference numerals designate like elements throughout the specification.

The terms used herein are intended to illustrate embodiments and are not intended to limit the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. It is to be understood that the terms 'comprise', and / or 'comprising' as used herein may be used to refer to the presence or absence of one or more other components, steps, operations, and / Or additions.

In addition, the embodiments described herein will be described with reference to cross-sectional views and / or plan views, which are ideal illustrations of the present invention. In the drawings, the detailed size, shape, thickness, curvature, etc. of each structure are exaggerated or schematized for effective explanation of technical contents, and the shape may be modified by tolerance or the like.

Hereinafter, an ultrasound cartridge, a high-intensity focused ultrasound device having the same, and a cosmetic treatment method using the same will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view schematically illustrating a high-intensity focusing ultrasound apparatus according to an embodiment of the present invention, and FIG. 2 is a view for explaining a process of combining a procedure handpiece and a cartridge shown in FIG. FIG. 3 is a cross-sectional view schematically illustrating one example of the handpiece shown in FIG. 1. FIG. 4 is a cross-sectional view schematically illustrating another example of the handpiece shown in FIG.

Referring to FIGS. 1 to 4, the high-intensity focusing ultrasound apparatus 10 according to the embodiment of the present invention can perform skin cosmetic treatment using high intensity focused ultrasound (HIFU). For example, the high-intensity focused ultrasound device 10 may be a medical device provided to perform two or more procedures different from each other under the detailed operation conditions in the same operation target range as a single device. For example, the high-intensity focused ultrasound apparatus 10 is a device for performing a cellulite or subcutaneous fat layer reduction procedure, and includes a procedure for an obesity patient and a procedure for a first obese patient having a high-focus focused ultrasound As a single device. As another example, the high-intensity focused ultrasound device 10 may be a medical device designed to perform skin cosmetic procedures of different surgical purposes and conditions as a single device. For example, the high-intensity focused ultrasound device 10 may be used for non-invasive face lifting or skin tightening procedures, for the reduction or removal of non-invasive subcutaneous fat layers, for the treatment of hyperhidrosis / Or may be a medical device designed to perform at least two or more treatments as a single device. In addition, the high-intensity focused ultrasound apparatus 10 may include a procedure for removing or reducing a three-dimensional mass of a target tissue to be treated, such as a tumor or cancer tissue.

The high intensity focused ultrasound (hereinafter, referred to as 'HIFU') may be used to form thermal focal points 12 and 14 by focusing the ultrasound waves to be focused on one focal point. These thermal foci 12, 14 may be thermal foci at a high temperature of about 60 DEG C or higher. Therefore, the high-intensity focusing ultrasound apparatus 10 may be configured to perform the face lifting by forming the thermal focal points 12 and 14 on the dermal layer or the fascia layer (SMAS layer) located at about 1.5 mm to 4.5 mm from the skin surface, Or a skin tightening procedure may be performed or a fat reduction or removal procedure may be performed by forming the thermal focal points 12 and 14 on the subcutaneous fat layer located at about 6.0 mm to 15.0 mm from the skin surface.

The high intensity focused ultrasound apparatus 10 may include a machine body 100, a handpiece assembly 200, and a cartridge set 300. The apparatus main body 100 may be for providing operation-related information to a practitioner (not shown), and for the operator to operate or operate the high-intensity focusing ultrasonic apparatus 10. [ For example, the apparatus main body 100 may include a display device 110 for displaying information related to the procedure of the operator, and a controller 120 for operating or controlling the high-intensity focused ultrasound device 10. As the controller 120, a touch panel or a touch screen may be used.

The handpiece assembly 200 may include a procedure handpiece 210 and a connection cable 220. The procedure handpiece 210 is for irradiating the subject with HIFU, and may be provided in a hand-held form for the convenience of user's operation. For example, the procedure handpiece 210 may include a handle 212 to allow a practitioner to hold the procedure handpiece 210. A switch 212a for controlling an ultrasonic irradiation operation may be provided at an upper end of the handle 212. The connection cable 220 may be for electrically and physically connecting the surgical handpiece 210 and the apparatus main body 100. One end of the connection cable 220 may be connected to the manipulation handpiece 210 and the other end may be detachably connected to the device body 100 in a connecting manner.

The cartridge set 300 may be a set of a plurality of ultrasonic cartridges. Each of the ultrasonic cartridges may be detachably attached to the procedure handpiece 210 and may include an ultrasonic transducer for generating HIFU to irradiate the HIFU to the skin. If the ultrasonic transducer repeats the irradiation of the HIFU, the performance may gradually decrease and the reliability may be lowered. Therefore, each of the ultrasonic cartridges can be designed to be used as a consumable of the apparatus for skin beauty treatment, and to be capable of assuring the reliability of HIFU irradiation for a certain period of time.

The cartridge set 300 may include ultrasonic cartridges in various combinations and configurations. As an example, the cartridge set 300 may be formed of only one cartridge type out of the first ultrasonic cartridge (hereinafter referred to as the first cartridge) 310 or the second ultrasonic cartridge (hereinafter referred to as the second cartridge 320). As another example, the cartridge set 300 may include both a first cartridge 310 and a second cartridge 320 so that a practitioner can select among the first cartridge 310 and the second cartridge 320 And may be provided to perform the procedure purpose and condition.

Here, the first cartridge 310 and the second cartridge 320 may be ultrasound cartridges having different treatment conditions and / or different purposes. As an example, the first cartridge 310 and the second cartridge 320 may be cartridges of the same procedure purpose selected from skin lifting or subcutaneous fat reduction, and conditions for forming each high-intensity focused ultrasonic wave may be different. As another example, the first cartridge 310 is for removal or reduction of the subcutaneous fat layer, and the second cartridge 320 is for non-invasive face lifting or skin tightening procedures. . Details of the procedures, procedures, conditions, and the like for each of the first and second cartridges 310 and 320 will be described later.

Each of the first and second cartridges 310 and 320 may be detachably attached to the procedure handpiece 210. For example, the front end of the handle 212 may be provided with a guide portion 214 for fastening the cartridge with the cartridge of the cartridge set 300 (such as 310 in FIG. 2). In one embodiment, the guide portion 214 may be provided in a bar shape protruding in the front end direction of the handle portion 212. A through hole 312a having a shape corresponding to the cross section of the guide portion 214 may be provided in a central region of the cartridge body 312 of the first cartridge 310. [ Therefore, as shown in FIG. 2, the first cartridge body 312 can be mounted on the procedure handpiece 210 by inserting the guide portion 214 into the through-hole 312a. At this time, a lock device 214 (a) may be provided at the front end of the guide part 214 to prevent the first cartridge 310 from being unloaded, (a)), the first cartridge 310 can be locked or unlocked.

Inside the guide part 214, an image probe 216 may be provided to image the skin tissue to be treated. The image probe 216 may be provided in a substantially bar shape along the guide portion 214. The image probe 216 may generate an ultrasound image to image a skin tissue, for example, a subcutaneous fat layer to be treated. When the first and second cartridges 310 and 320 are fastened to the procedure handpiece 210, the guide portion 214 is provided to the first and second cartridges 310 and 320, And may be provided so as to be positioned above the ultrasound treatment unit 314. [ Accordingly, the ultrasound therapy unit 314 irradiates the HIFU while moving back and forth in the lower part of the guide unit 214. The image probe 216 generates a separate ultrasound image to image the subcutaneous fat layer, And can be displayed on the display unit 110.

Here, for the forward and backward movement of the ultrasound therapy unit 314, a driver 218 may be provided on the procedure handpiece 210. A stepping motor or the like may be used as the actuator 218 and the actuator 218 and the ultrasound therapy unit 314 may be connected to each other by a support 316. [ Accordingly, as the actuator 218 moves the support 316 back and forth, the ultrasonic treatment unit 314 can be moved back and forth. In another embodiment, the actuator 218 may be configured to move the ultrasonic treatment unit 314 in a tilting, swinging, pendular, or up-down motion within the cartridge body 312 It is possible to provide a driving force for causing at least any one movement.

The driver 218 may be moved in the forward and backward directions so that the ultrasonic treatment unit 314 has a procedure interval of approximately 20.0 mm to 100.0 mm. More specifically, the driver 218 may be provided as a stepping motor, and the ultrasonic treatment unit 314 may be moved back and forth by a selected length within a range of approximately 20.0 mm to 100.0 mm. At this time, the ultrasound therapy unit 314 can irradiate the HIFU during the movement of the range. The ultrasonic treatment unit 314 may be configured to irradiate the HIFU at regular intervals such that a plurality of dots are formed along the same line in the thermal focus 12, It can be set to irradiate the HIFU so as to form a straight line.

If the forward and backward movement range of the ultrasonic treatment unit 314 is less than 20.0 mm, the operation time for the skin lifting, skin tightening, or subcutaneous fat layer is small, and the operation time may be very long. Since the subcutaneous fat layer bends in both directions with reference to the human navel, when the fore and aft movement range of the ultrasound therapy unit 314 exceeds 100.0 mm, the ultrasound therapy unit 314 performs the HIFU The first HIFU irradiation depth and the last HIFU irradiation depth for the subcutaneous fat layer are different from each other, so that the risk of HIFU irradiation to the region outside the subcutaneous fat layer may be very high. This risk can similarly occur in terms of skin lifting or skin tightening. Therefore, it is preferable that the actuator 218 is set so that the ultrasonic treatment unit 314 can be moved back and forth within a range of approximately 20.0 mm to 100.0 mm, more preferably within a range of 40.0 mm to 80.0 mm, It may be suitable for shortening the procedure time while ensuring the safety of the procedure. If the ultrasound therapy unit 314 is used for removing or reducing a three-dimensional skin tissue mass such as cancer, tumor, and sweat glands, the ultrasound therapy unit 314 may be adapted to suit the size and shape of the skin tissue mass, The forward and backward moving ranges of the front wheels can be changed. That is, if the size of the skin tissue mass is less than 20.0 mm, it is preferable that the forward and backward movement range of the ultrasonic treatment unit 314 is adjusted to be less than 20.0 mm accordingly.

3, the ultrasound therapy unit 314 may be a single ultrasound transducer or a module having two or more ultrasound transducers as shown in FIG. Alternatively, although not shown, the ultrasound therapy unit may have an ultrasound transducer array structure having a single ultrasound transducer structure and capable of simultaneously forming two or more thermal foci at a time.

Each of the first and second cartridges 310 and 320 may include a medium 319 for transmitting ultrasonic waves of the ultrasound therapy unit 314. For example, water may be filled in the first cartridge body 312 as a medium 319 for ultrasonic wave transmission of the ultrasonic treatment unit 314. [ In addition, the medium 319 may be used as a cooling fluid for cooling the heat of the ultrasonic treatment unit 314. More specifically, the first cartridge 310 has a thermal focus 12 having a relatively high energy intensity to induce decomposition of adipose tissue, as compared to the second cartridge 320 The heat generated by the ultrasonic treatment unit 314 may be relatively high. Therefore, in the case of at least the first cartridge 310, it is necessary to maintain the medium 319 at a predetermined temperature range for cooling the first ultrasonic treatment section 314. The predetermined temperature range of the medium 319 may be a temperature at which the heat generation of the ultrasonic treatment unit 314 is effectively cooled and the function of the ultrasonic transmission medium is not problematic. As an example, the predetermined temperature range of the medium 319 may be approximately 0 ° C to 30 ° C. When the temperature of the medium 319 is lower than 0 ° C, the medium 319 is frozen or dew is formed on the main surface of the cartridge body 312 due to a temperature difference between the external environment, The safety may be deteriorated. On the other hand, if the temperature of the medium 319 exceeds 30 ° C, the heat generated by the ultrasonic treatment unit 314 can not be effectively cooled, and thus the service life and performance reliability of the ultrasonic treatment unit 314 may be deteriorated.

In order to control the temperature of the medium 319, the high-intensity focusing ultrasonic apparatus 10 may further include a medium circulator 130. The medium circulator 130 may cool the in-cartridge medium 319 mounted on the procedure handpiece 210 while maintaining the medium 319 at a predetermined temperature range. For example, the medium circulator 130 may include a medium storage vessel 132, a medium circulation line 134, a medium temperature meter 136, and a medium temperature controller 138.

The medium storage vessel 132 may store the medium 319. As the medium 319, water may be used, and the medium storage vessel 132 may receive a predetermined amount of water. A leveling line (not shown) or various sensors (not shown) may be provided in the medium storage container 132 to detect the stored amount of the medium 319. The medium circulation line 134 can circulate the medium 319 in the cartridge body 312 through the medium circulation port 315 provided in the cartridge body 312. The medium circulation line 134 includes a medium supply line 134a for supplying the medium 319 from the medium storage vessel 132 to the medium supply port 315a of the medium circulation port 315, And a medium recovery line 134b for recovering the medium 319 from the medium storage container 315b to the medium storage container 132. [ The medium temperature meter 136 may include at least one temperature sensor for measuring the temperature of the medium 319. The medium temperature measuring device 136 is provided in the medium circulation line 134, the medium storage container 132, or the leveling line and measures the temperature of the medium 319, (120). The medium temperature controller 138 may adjust the temperature of the medium 319 to a predetermined temperature. For example, the medium temperature controller 138 may include a cooler (not shown) provided in the medium storage vessel 132. As the cooler, a cooling element such as a Peltier element, a cooling water line through which cooling water flows, or the like can be used. Although not shown, circulation means such as a pump may be installed on the medium circulation line 134. The pump may provide a flow pressure of the medium for circulation of the medium 319.

In the high intensity focused ultrasound procedure, the controller 120 receives the temperature data of the medium 319 from the medium temperature meter 136, monitors the temperature in real time, If the medium 319 in the cartridge body 312 is out of the preset temperature range due to the heat generated by the ultrasonic wave treatment unit 314, the controller 120 determines that the temperature of the medium 319 satisfies a predetermined temperature range The medium temperature controller 138 may be controlled so that the medium 319 is cooled by the medium temperature controller 138 until the medium temperature controller 138 is operated. A detailed process of controlling the temperature of the medium 319 of the medium circulator 130 will be described later.

As described above, the high-intensity focused ultrasound apparatus 10 according to the embodiment of the present invention includes the ultrasonic cartridge 310 having the ultrasound therapy unit 314 for generating the thermal focuses 12 and 14 of the HIFU, 210 to perform skin cosmetic procedures such as cellulite or hypodermic fat reduction using HIFU. The heat generated by the ultrasonic wave treatment unit 314 is circulated and cooled by a medium 319 having ultrasonic wave transmission and cooling water functions The heat generated by the ultrasonic treatment unit 314 can be effectively cooled. Accordingly, the ultrasonic cartridge according to the present invention and the high-intensity focusing ultrasonic apparatus having the ultrasonic wave generating unit according to the present invention perform minimum loss transmission of ultrasonic waves and cooling function of the ultrasonic wave treatment unit inside a cartridge body having an ultrasonic treatment unit for forming a thermal focus of high intensity focused ultrasonic waves Circulating and cooling the medium to continuously maintain the predetermined temperature range, thereby preventing the life of the ultrasound therapy unit from being reduced and the reliability of the equipment being lowered.

The high intensity focusing ultrasound apparatus 10 according to the embodiment of the present invention may be configured such that the first cartridge 310 and the second cartridge 320 having conditions suitable for different types of operations are disposed on the procedure handpiece 210 The practitioner selects a cartridge capable of performing a desired operation among the first and second cartridges 310 and 320 and attaches the cartridge to the procedure handpiece 210 to perform the procedure . In this case, as compared with a high-intensity focused ultrasound medical instrument capable of only a single-purpose operation, various operations can be performed only by replacing a cartridge as a single device, so that a structure of a multi-purpose ultrasonic medical device can be realized.

Particularly, in case of non-invasive ultrasonication of face lifting and non-invasive ultrasonication of subcutaneous fat layer reduction, the depth and intensity condition of high-intensity focused ultrasound and skin tissue of imaging target are completely different. It was very difficult to implement. However, the high-intensity focusing ultrasound apparatus 10 according to the present invention may include a common image probe 216 for the first and second cartridges 310 and 320 in the procedure handpiece 210, The technical barriers are solved by enabling the heterodyning through the replacement of the first and second cartridges 310 and 320. [

Next, the arrangement and structure of the ultrasonic treatment unit of the treatment handpiece according to the embodiment of the present invention will be described in more detail. Here, the contents overlapping with the high-intensity focused ultrasound generating apparatus 10 can be omitted or simplified. In the following embodiments, referring to FIG. 4, the arrangement, structure, thermal focal formation conditions, and the like of the ultrasound therapy unit will be described with reference to the procedure handpiece structure having a plurality of independent transducers. However, the number of transducers included in the ultrasonic wave treatment unit may be one as shown in FIG. 3, or may be an ultrasonic array that simultaneously forms a plurality of thermal foci as a single transducer, and the number of transducers, shape, Size, shape, structure, arrangement, and the like may be variously modified and modified.

FIG. 5 is a view schematically showing a structure of a transducer module in a high-intensity focusing ultrasonic apparatus according to an embodiment of the present invention. FIG. 6 is a view showing a tilting operation of a transducer module in a high- Fig. FIG. 7 is a view schematically showing a structure of a transducer module in a high-intensity focusing ultrasound apparatus according to another embodiment of the present invention. FIG. 8 is a diagram showing the structure of a transducer module in a high-intensity focusing ultrasound apparatus according to another embodiment of the present invention. Figure 2 is a simplified illustration of the arrangement of the ducer module.

Referring to FIG. 5, each of the first and second cartridges 310 and 320 may be designed to form thermal foci 20 on different skin tissues. The ultrasonic treatment unit 314 may include a first transducer 314a for forming a first thermal focus 14a and a second thermal focus 14b at a position different from the first thermal focus 14a. And a second transducer 314b arranged to form the second transducer 314b. The first transducer 314a and the second transducer 314b may be disposed apart from the image probe 216 and spaced apart from each other with the image probe 216 interposed therebetween. The first and second transducers 314a and 314b are disposed so as not to interfere with the image acquisition of the image probe 216 so that the image probe 216 can transmit the first and second transducers 314a, and 314b to acquire an image ultrasonic wave for obtaining an image of a skin tissue to be treated.

Meanwhile, in another embodiment, the first and second transducers 314a and 314b may be disposed without being spaced apart from each other. In this case, the image probe 216 may acquire an ultrasound image before and after the movement of the first and second transducers 314a and 314b, so that there is no problem in the function of the image probe 216 .

Each of the first and second transducers 314a and 314b may have an internal spherical surface of a concave ultrasonic wave generation in a direction toward the thermal focal point 14. In this case, each of the first and second transducers 314a and 314b may collect the ultrasonic wave at a predetermined distance to form the thermal focal point 14. In addition, the first and second transducers 314a and 314b may be inclined so as to be spaced apart from each other in the downward direction with respect to the image probe 216 in the cartridge body 312. In this case, as shown in FIG. 5, the first and second transducers 314a and 314b may be gradually opened in a downward direction of the cartridge body 312. That is, the width W of the cartridge body 312 may be smaller than the sum of the widths W1 and W2 of the first and second transducers 314a and 314b. The width W of the cartridge body 312 can be reduced compared with a case where the first and second transducers 314a and 314b are horizontally disposed to the left and right.

In addition, the cartridge body 312 has a closed structure as a whole, and a medium 319 such as water may be filled in the cartridge body 312. A transparent member 318 such as a window may be provided under the cartridge body 312. HIFUs from the first and second transducers 314a and 314b can be irradiated through the permeable member 318 toward the subject's skin tissue. Accordingly, the ultrasound therapy unit 314 can non-invasively form thermal foci 14a and 14b in the skin tissue to be treated at a predetermined depth from the surface of the skin through the window.

At least two or more transducers 314a and 314b are provided through the cartridge body 312 and first and second heaters 314a and 314b formed from the respective first and second transducers 314a and 314b. The foci 14a and 14b may be formed spaced apart from each other at a predetermined gap G. [ Accordingly, since a single cartridge can be manufactured while forming at least two or more HIFU foci, the procedure time can be remarkably shortened as compared with a case in which single-row HIFU foci are formed.

Here, the first and second thermal foci 14a and 14b may be spaced apart from each other. The gap G between the first and second thermal foci 14a and 14b may be determined within a range of approximately 0.8 mm to 10.0 mm. When the gap G is less than 0.8 mm, interference between the first and second thermal foci 14a and 14b is generated, and HIFU is excessively irradiated to the skin to be treated, Damage may occur. On the other hand, when the gap G is 10.0 mm or more, the distance between the first and second thermal focal points 14a and 14b is very wide and the effect of the operation can be remarkably lowered. However, considering the skin necrosis and the treatment effect, it is more preferable that the gap G is adjusted to approximately 0.8 mm to 3.0 mm. If the gap G exceeds about 3.0 mm, the high-intensity focused ultrasound procedure may be repeated for the skin tissue between the intervals G. However, when the ultrasonic treatment unit 314 removes or reduces the cancer, the tumor, and the sweat glands, the first and second thermal foci 14a, 14b may be adjusted. That is, the purpose of removing or reducing the cancer, tumor, and sweat glands is to intensively irradiate or remove the thermal foci 20 to these skin tissues, The shape, size, position, tissue state, etc. of the tumor can be synthetically confirmed, and then the thermal foci 20 can be intensively irradiated onto these skin tissue masses. Accordingly, in the case of removing or reducing the cancer, tumor, and sweat glands, the gap G between the first and second thermal foci 14a and 14b may be optionally adjusted to 0.8 mm or less.

In addition, the depth of each of the first thermal foci 14a, 14b formed by the first and second transducers 314a, 314b can be about 1.5 < RTI ID = 0.0 > mm to 4.5 mm. Particularly, in the case of pore treatment, the depth of focus is set to about 1.5 mm with the skin layer (demis) as a target, and the irradiation intensity of the HIFU is set to about 0.4 J or less. If the strength at this time is more than 0.4 J, the surface layer of the skin may be damaged. In the collagen remodeling procedure, the irradiation depth of each of the first and second thermal focal points 14a and 14b is set to about 3.0 mm while the intensity of the high intensity focused ultrasonic wave is set to 0.4 J The procedure can be carried out. If the strength at this time exceeds 0.4J, it may damage the dermal layer of the skin. Further, during the skin lifting procedure, the procedure can be carried out by setting the depth of focus to 4.5 mm and the irradiation intensity of the HIFU within the range of 1.0J to 2.0J, with the muscle film as the target. More preferably, it is more preferable that the treatment is performed with a strength of about 1.2J or more. If the irradiation intensity of the HIFU irradiated for the skin lifting procedure is less than about 1.0J, the effect of improving the wrinkles may be insignificant because the intensity of the irradiated light is low. On the other hand, if the irradiation intensity of the HIFU is more than about 2.0J, damage to the skin muscle membrane may occur.

If the depth of each of the first and second thermal foci 14a, 14b formed by the first and second transducers 314a, 314b is for cellulite or subcutaneous fat layer reduction, And can be set within a range of approximately 6.0 mm to 15.0 mm. In particular, in the case of subcutaneous fat layer reduction, the thermal foci 14a and 14b can be provided to be about 13.0 mm or so. As an example, the first cartridge 310 can be used when the thickness T1 of the subcutaneous fat layer 20 to be treated is 25.0 mm or more. That is, the first cartridge 310 may be set in a condition that the thickness Tl of the subcutaneous fat layer 20 is 25.0 mm. In this case, the procedure patient may be highly obese. The first cartridge 310 is adjusted such that the irradiation depth from the skin surface of the HIFU is adjusted to approximately 11.0 mm to 15.0 mm while the vertical length H1 of the lesion 30 is adjusted to approximately 8.0 mm to 12.0 mm . If the vertical length H1 of the thermal focal point 30 is less than about 8.0 mm, the reduction efficiency of the subcutaneous fat layer 20 may be lowered. On the other hand, if the vertical length H1 of the thermal focal point 30 exceeds approximately 12.0 mm, a thermal focal point may be formed in a region deviating from the subcutaneous fat layer 20. In addition, if the irradiation depth is less than about 11.0 mm or more than about 15.0 mm, the thermal focal point 30 may escape from the subcutaneous fat layer 20 during the procedure. Therefore, the ultrasound treatment unit 314 of the first cartridge 310 is adjusted so that the vertical length H1 of the thermal focus 30 is adjusted to be approximately 10.0 mm +/- 2.0 mm and the irradiation depth of the HIFU is 13.0 mm +/- 2.0 mm, it is possible to alleviate the risk of being performed on the tissue other than the subcutaneous fat layer 20 even if the thickness T1 of the subcutaneous fat layer 20 is 25.0 mm or more. In the case of the procedure for reducing cellulite or subcutaneous fat layer as described above, the irradiation intensity of the HIFU can be adjusted to 2.0 J or more. In particular, in the case of a procedure for reducing the subcutaneous fat layer, it is preferable that the irradiation intensity of the HIFU is adjusted to 10.0 J or more. If the irradiation intensity of the HIFU is less than 10.0 J, sufficient HIFU energy for thermal degradation of the subcutaneous fat layer may not be transmitted. At this time, the ultrasonic frequency of the HIFU may preferably be 2 MHz or more.

Here, the ultrasound therapy unit 314 may be capable of tilting (tilting) at right angles by the driver 218 at a certain angle. For example, when the driver 218 includes a stepping motor, the actuator 218 may move the forward or backward movement bar of the stepping motor or the support 316 at a predetermined angle (Not shown) which can rotate the motor. Since the ultrasound therapy unit 314 is rotated to the left and right at a predetermined angle about the longitudinal direction by the rotation motor, the first and second thermal focal points 14a and 14b are rotated in a pendular movement ) Trajectory. The various operations of the ultrasound therapy unit 314 may be performed in accordance with the purpose of the treatment and the shape of the target skin tissue, Size, location, and condition of the device.

The tilting motion T of the ultrasonic treatment unit 314 allows the HIFU lesions 14a and 14b to be formed on the larger skin tissue even with a small movement of the ultrasonic treatment unit 314, The HIFU procedure can be performed on a wide area within the HIFU. In particular, in the case of fat decomposition surgery, tumor treatment, and cancer treatment, which require treatment of relatively thick tissues, HIFU must be intensively examined for lumpy skin tissue. Therefore, the tilting motion of the ultrasonic treatment unit 314 (T) can concentrate the HIFU thermal foci (14a, 14b) on three-dimensional skin tissue in a short period of time, and can exert a high treatment effect.

Meanwhile, the inclination of each of the first and second transducers 314a and 314b, the angle of the HIFU, and the longitudinal and lateral alignment may be variously modified or changed. 5 and 6, in one embodiment of the present invention, the HIFU irradiation angle of each of the first and second transducers 314a and 314b is set such that the manipulation handpiece 310 is in front They can be adjusted so that they do not cross each other. 7, the HIFU irradiation angle of each of the first and second transducers 314a and 314b may be set such that the manipulation hand piece 310 is viewed from the front and the top, respectively, , They can all be adjusted to cross each other. This structure may be such that the angles of the first and second transducers 314a and 314b are further inclined relative to the above-described embodiment. In this case, since the first and second transducers 314a and 314b each have a structure in which each of the first and second transducers 314a and 314b is wider than an embodiment of the present invention, the size of the width W of the cartridge body 312 Can be further reduced.

The transducer 314a and the transducer 314b are both perpendicular to the longitudinal direction of the surgical handpiece 310 The first and second transducers 314a and 314b may be disposed back and forth along the longitudinal direction of the procedure handpiece 310. In this case, 8, the first and second transducers 314a and 314b may be spaced apart from each other such that the first transducer 314a is spaced apart from the first transducer 314a The second transducer 314b may be arranged to follow the first transducer 314a when the second transducer 314b moves along the advancing direction 30. [ However, the first and second transducers 314a and 314b may be disposed back and forth on one line parallel to the advancing direction 28, or may be arranged diagonally with respect to each other as shown in FIG. 7 . The first and second transducers 314a and 314b may be formed so that the thermal foci 14a and 14b of the first and second transducers 314a and 314b are formed in a line on the left and right, The first and second thermal focal points 14a and 14b are spaced apart from each other by a predetermined angle so that the first and second thermal foci 14a and 14b overlap each other when the first cartridge 310 is viewed from above, (G). Of course, the positions and the like of the first and second thermal foci 14a and 14b may be variously changed according to the purpose of the procedure.

As described above, the high-intensity focusing ultrasonic apparatus 10 according to the embodiment of the present invention includes a plurality of transducers 314a and 314b (not shown) in the cartridge body 312 of each of the first and second ultrasonic cartridges 310 and 320 The transducers 314a and 314b are arranged such that thermal foci 14a and 14b are formed at mutually different positions so that a plurality of thermal foci 14a and 14b are simultaneously or sequentially applied to the skin tissue As shown in FIG. In this case, if the transducers 314a and 314b move back and forth during the operation, the thermal foci 14a and 14b form a plurality of rows to form HIFU foci. Therefore, when the HIFU foci of the thermal insulation are formed The procedure time can be remarkably shortened. Accordingly, the high-intensity focused ultrasound generating apparatus according to the embodiment of the present invention includes a plurality of transducers in a single cartridge body, each of the transducers being configured to form thermal foci at different positions, By allowing the HIFU focuses of more than a row to be generated, the procedure time can be greatly shortened.

Next, detailed procedures and conditions for the first and second cartridges 310 and 320 according to the embodiment of the present invention will be described in detail. Here, the redundant contents of the high intensity focused ultrasound device 10 can be omitted or simplified.

9 is a view for explaining the first and second cartridges according to the embodiment of the present invention. More specifically, FIG. 9A is a view for explaining a procedure condition of the first cartridge according to the embodiment of the present invention, and FIG. 9B is a view for explaining the procedure condition of the second cartridge according to the embodiment of the present invention. Fig.

Referring to FIG. 9 (a), the first cartridge 310 according to the embodiment of the present invention may be for reduction or removal of subcutaneous fat layer. In one embodiment, the first cartridge 310 can be used when the thickness T1 of the subcutaneous fat layer 20 to be treated is 25.0 mm or more. That is, the first cartridge 310 may be set in a condition that the thickness Tl of the subcutaneous fat layer 20 is 25.0 mm. In this case, the procedure patient may be highly obese. The first cartridge 310 is adjusted such that the irradiation depth from the skin surface of the HIFU is adjusted to approximately 11.0 mm to 15.0 mm while the vertical length H1 of the lesion 30 is adjusted to approximately 8.0 mm to 12.0 mm . If the vertical length H1 of the thermal focal point 30 is less than about 8.0 mm, the reduction efficiency of the subcutaneous fat layer 20 may be lowered. On the other hand, if the vertical length H1 of the thermal focal point 30 exceeds approximately 12.0 mm, a thermal focal point may be formed in a region deviating from the subcutaneous fat layer 20. In addition, if the irradiation depth is less than about 11.0 mm or more than about 15.0 mm, the thermal focal point 30 may escape from the subcutaneous fat layer 20 during the procedure. Therefore, the ultrasound treatment unit 314 of the first cartridge 310 is adjusted so that the vertical length H1 of the thermal focus 30 is adjusted to be approximately 10.0 mm +/- 2.0 mm and the irradiation depth of the HIFU is 13.0 mm +/- 2.0 mm, it is possible to alleviate the risk of being performed on the tissue other than the subcutaneous fat layer 20 even if the thickness T1 of the subcutaneous fat layer 20 is 25.0 mm or more.

In another embodiment, the first cartridge 310 can be used when the thickness T1 of the subcutaneous fat layer 20 to be treated is 7.0 mm or more and less than 25.0 mm. That is, the first cartridge 310 may be set to a condition that can be practiced when the thickness T1 of the subcutaneous fat layer 20 is at least 7.0 mm, but thinner than 25.0 mm. In this case, the procedure patient may be highly likely to be a primary obese patient. In this case, the first cartridge 310 may be configured such that the irradiation depth from the skin surface of the HIFU is approximately 6.0 mm to 10.0 mm while the vertical length H1 of the thermal lesion 30 is adjusted to approximately 5.0 mm to 9.0 mm. Lt; / RTI > If the vertical length H1 of the thermal focal point 30 is less than approximately 5.0 mm, the reduction efficiency of the subcutaneous fat layer 20 may be reduced. Conversely, if the vertical length H1 of each of the thermal foci 30 exceeds approximately 9.0 mm, a thermal focal point 30 may be formed in an area outside the subcutaneous fat layer 20. In addition, when the irradiation depth is less than about 6.0 mm or more than about 10.0 mm, the thermal focal point 30 may escape from the subcutaneous fat layer 20 during the procedure. Therefore, the ultrasound therapy unit 314 of the first cartridge 310 is adjusted such that the vertical length H1 of the thermal focus 30 is adjusted to approximately 7.0 mm ± 2.0 mm and the irradiation depth of the HIFU is 8.0 mm ± 2.0 mm, the risk of being performed on the skin tissue other than the subcutaneous fat layer 20 can be alleviated even when the thickness T1 of the subcutaneous fat layer 20 is 7.0 mm or more and less than 25.0 mm.

Here, the ultrasound therapy unit 314 of the first cartridge 310 may generate a plurality of thermal foci 30 by performing forward or backward movement, i.e., linear reciprocating motion. The ultrasound therapy unit 314 may further perform at least one of up-and-down movement, tilting movement, swing movement, and pendulum movement, So that the thermal focal point 30 can be formed within the fat layer 20. At this time, the distance between the thermal foci 30 may be absent or less than 1.0 mm so that the thermal foci 30 may be formed into a straight or pillar-like shape without interruption in the middle, Can be pyrolyzed. However, if the thermal foci 30 are overlapped with each other, it is ideal that the HIFU is irradiated as closely as possible under the condition that the thermal foci 30 do not overlap because the pain experienced by the patient can be great.

Referring to FIG. 9 (b), the second cartridge 320 according to the embodiment of the present invention may be for face lifting or skin tightening, unlike the first cartridge 310 described above. In one embodiment, the dermal tissue 40 to be treated in the second cartridge 320 may comprise a dermal layer or fascia layer (SMAS layer) at a depth of approximately 1.5 mm to 4.5 mm from the skin surface. At this time, the second cartridge 320 may be adjusted so that a thermal lesion 50 is generated in a substantially spherical shape, an elliptical shape, or a water droplet shape having a diameter of about 0.5 mm to 1.5 mm. If the diameter of the thermal focal spot 50 is less than about 0.5 mm, the damage to the HIFU target tissue is very small and it may be difficult to achieve the effect of face lifting or skin tightening through regeneration after intentional skin damage. Conversely, when the diameter of the thermal focal point 50 exceeds 1.5 mm, the thermal focal point 50 can be formed in an area outside the skin tissue 40 to be treated. In addition, when the irradiation depth is less than about 1.5 mm or more than about 4.5 mm, the thermal focal point 50 may deviate from the skin tissue 40 to be treated during the procedure. Therefore, the ultrasound treatment unit 314 of the second cartridge 320 can adjust the diameter of the thermal focus 50 to about 1.0 mm +/- 0.5 mm and adjust the irradiation depth of the HIFU from 1.5 mm to 4.5 Lt; / RTI > Most preferably, the irradiation depth of the thermal focal point 50 is any one selected from 1.5 mm, 3.0 mm, and 4.5 mm, and the diameter of the thermal focal point 50 may be approximately 1.0 mm +/- 0.2 mm.

Here, the ultrasonic treatment unit 314 of the second cartridge 320 may generate a plurality of the thermal focal points 50 by performing a forward movement or a backward movement, that is, a linear reciprocating motion. At this time, the interval between the thermal focal points 50 is set to be about 0.5 mm to less than 2.0 mm so that the thermal focal points 50 are consequently spaced apart from each other, May be formed. If the distance between the thermal focal points 50 is less than 0.5 mm, the thermal focal points 50 are consequently connected to each other, which may cause skin necrosis or the like as an excessive thermal injury to the skin tissue. Conversely, if the distance between the thermal focal points 50 exceeds 2.0 mm, the interval between the thermal focal points 50 is very large and consequently the effect of the face lifting or skin tightening can be significantly deteriorated.

Hereinafter, a cosmetic treatment method using a high-intensity focused ultrasound according to an embodiment of the present invention will be described in detail. Here, the contents overlapping with the description of the high-intensity focused ultrasound device 10 according to the embodiment of the present invention can be omitted or simplified.

FIG. 10 is a flowchart illustrating a cosmetic treatment method using high-intensity focused ultrasound according to an embodiment of the present invention. Referring to FIGS. 1 to 10, first, the type of treatment to be performed can be selected for a patient to be treated (S110). For example, a practitioner (not shown) may select a type of treatment to be performed on a patient to be treated (not shown). At this time, the types of procedures that can be selected may include at least one of face lifting, skin tightening, and subcutaneous fat layer reduction or removal. If the practitioner wishes to perform the subcutaneous fat layer reduction or removal procedure, the practitioner may consider the thickness of the subcutaneous fat layer, the depth of the subcutaneous fat layer, the condition of the subject to be treated, The first cartridge 310 can be selected. Here, in order to confirm the thickness of the subcutaneous fat layer, the practitioner must recognize the thickness of the subcutaneous fat layer directly by hand, identify the subcutaneous fat layer imaged through the image probe 218 provided in the procedure handpiece 210, The thickness of the fat layer can be calculated.

Next, a cartridge capable of performing the selected procedure can be selected and mounted on the procedure handpiece 210 of the high-intensity focused ultrasound device 10 (S120). For example, if the practitioner wishes to perform the subcutaneous fat layer reduction or removal procedure, the first cartridge 310 may be selected from the cartridge set 300 and mounted on the procedure handpiece 210. Alternatively, if the practitioner wishes to perform the face lifting or skin tightening procedure, the operator may select the second cartridge 320 from the cartridge set 300 and mount the second cartridge 320 on the procedure handpiece 210.

Next, the high-intensity focused ultrasound procedure can be performed using the selected cartridge (S130). For example, a practitioner can perform a procedure such as a face lifting or skin tightening procedure and a subcutaneous fat layer reduction or removal procedure using a procedure handpiece 210 equipped with any one of the first and second cartridges 310 and 320 Can be performed.

Meanwhile, in the course of performing the high-intensity focused ultrasound procedure, the temperature of the medium 319 may be measured (S142). The temperature of the medium 319 may be measured by the controller 120 using the medium temperature meter 136. That is, the medium temperature measurer 136 may be provided on a circulation path of the medium 319 to measure the temperature of the circulating medium 319 in real time and transmit the temperature data to the controller 120.

It may be determined whether the temperature of the medium is out of a preset temperature range (S150). More specifically, the controller 120 analyzes the temperature data received from the medium temperature meter 136 to determine whether the real time temperature of the medium 319 is within a predetermined temperature range of approximately 0 ° C to 30 ° C, It can be determined whether or not the temperature is outside the range of 5 占 폚 to 20 占 폚. At this time, if the temperature of the medium 319 is out of the predetermined temperature range, the controller 120 adjusts the temperature of the medium 319 by the medium temperature controller 138 to satisfy the predetermined temperature range again The medium temperature controller 138 may be controlled. On the other hand, if the temperature of the medium 319 satisfies the predetermined temperature range, the high intensity focused ultrasound procedure can proceed normally.

As described above, the beauty treatment method using the high-intensity focused ultrasound according to the embodiment of the present invention includes the ultrasonic cartridge 310 having the ultrasound therapy unit 314 for generating the thermal focuses 12 and 14 of the HIFU, The ultrasound therapy unit 314 is circulated to cool the medium 319 having the ultrasonic wave transfer function and the cooling water function, and then the ultrasound therapy unit 314 is preliminarily set up to perform the cellulite or hypodermic fat reduction procedure using the HIFU, Temperature range, the heat generated by the ultrasonic wave treatment unit 314 can be effectively cooled. Accordingly, in the cosmetic treatment method using high-intensity focused ultrasound according to the present invention, after the cartridges having various treatment conditions are prepared to be compatible with the procedure handpiece, the cartridges having the conditions suitable for the obese condition or the treatment area of the subject, By performing the procedure for reducing the subcutaneous fat layer by attaching to the piece, a tailor-made treatment can be performed for each patient or each part.

Also, in the beauty treatment method using the high-intensity focused ultrasound according to the embodiment of the present invention, the first cartridge 310 or the second cartridge 310, which can perform a desired operation in the cartridge set 300, 320 may be selected and mounted on the procedure handpiece 210 to be performed. Accordingly, the beauty treatment method using the high-intensity focused ultrasound according to the present invention is a method of preparing a cartridge having various treatment conditions compatible with a surgical handpiece and having a condition suitable for a treatment type, By performing the procedure on the procedure handpiece, various kinds of procedures can be optimized for each patient or each part.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It is obvious. Therefore, the scope of the present invention should not be construed as being limited to the embodiments described, but should be determined by the scope of the appended claims, and equivalents thereof. It is to be understood that the above-described embodiments are illustrative in all aspects and should not be construed as limiting, and the scope of the present invention is indicated by the appended claims rather than the foregoing description, and the meaning and scope of the claims and their equivalents All changes or modifications that come within the scope of the present invention should be construed as being included within the scope of the present invention.

10: High intensity focused ultrasound system
12, 14: Thermal focus
20: subcutaneous fat layer
100:
110: indicator
120:
130: medium circulation machine
132: medium storage container
134: medium circulation line
136: Medium temperature meter
138: medium temperature controller
200: Handpiece assembly
210: Procedure handpiece
220: Connecting cable
300: Cartridge set
310: first cartridge
320: second cartridge

Claims (7)

And is used in combination with a treatment handpiece of ultrasonic equipment for skin cosmetic surgery,
A cartridge body coupled to the manipulation handpiece, the cartridge body being filled with a medium for transmitting ultrasonic waves and having a transmission member for transmitting ultrasound waves on one side thereof; And
And an ultrasound treatment unit for generating a thermal focal point of the high intensity focused ultrasound (HIFU) in a non-invasive manner at a predetermined depth from the surface of the skin through the permeable member, However,
The cartridge body comprising:
A medium supply port provided at one end of the cartridge body for receiving the medium into the cartridge body; And
And a medium discharge port provided at the other end of the cartridge body for discharging the medium to the outside of the cartridge body. The method according to claim 1,
Wherein the medium is circulated in the cartridge body using the medium supply port and the medium discharge port so that the medium is maintained in a temperature range of 0 占 폚 to 30 占 폚. The method according to claim 1,
The ultrasound therapy unit includes a plurality of ultrasound transducers for converting electrical energy into ultrasound energy,
Wherein the thermal focus irradiated from one transducer of the ultrasonic transducers and the thermal focus irradiated from the other transducer are formed at positions different from each other in the skin tissue to be treated. The method according to claim 1,
The ultrasound therapy unit includes a plurality of ultrasound transducers for converting electrical energy into ultrasound energy,
Wherein the thermal focus irradiated from one of the transducers and the thermal focus irradiated from the other transducer are formed at the same positions in the tissue to be treated. The method according to claim 1,
Wherein the ultrasonic treatment unit has a depth of irradiation of 11.0 mm to 15.0 mm from the skin surface of the thermal focus. The method according to claim 1,
Wherein the ultrasonic treatment unit has an irradiation depth of 6.0 to 10.0 mm from the skin surface of the thermal focus. The method according to claim 1,
Wherein the ultrasound therapy unit includes at least one ultrasound transducer for converting electrical energy into ultrasound energy,
Wherein the ultrasonic transducer is configured such that at least one of a forward and backward movement, a vertical movement, a left and right movement, a swing movement, a pendulum movement, and a tilting movement in the cartridge body under the condition that the thermal focal point is formed in the skin tissue to be treated Ultrasonic cartridges for high intensity focused ultrasound devices provided for exercise.

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