KR101249954B1 - High intensity focused ultrasound generating device with a function of adjusting focus length - Google Patents

Abstract

Disclosed is a high-intensity focused ultrasound generating device in which a focal length can be easily changed according to the operator's choice according to the purpose of the procedure.
The high-intensity focused ultrasound generation apparatus capable of adjusting the focal length according to the present invention includes a body detachable to a handpiece, a body portion forming an exterior housing, and a high-intensity focused ultrasound at the same focal point of the procedure site. A focused ultrasound converter configured to irradiate intensity focused ultrasound, and a lift driver connected to the focused ultrasound converter, which can be stretched in the vertical direction to adjust the focal length of the high intensity focused ultrasound emitted from the focused ultrasound converter. Include.

Description

HIGH INTENSITY FOCUSED ULTRASOUND GENERATING DEVICE WITH A FUNCTION OF ADJUSTING FOCUS LENGTH}

The present invention relates to a high-intensity focused ultrasound generating apparatus, and more particularly, to a high-intensity focused ultrasound generating apparatus capable of adjusting the focal length to arbitrarily variably adjust the distance of the focal point formed at the treatment site.

Ultrasound refers to a wave having a frequency of 20 KHz or more, and is widely used for diagnosing and treating lesions in the medical field, as well as for skin beauty.

 In particular, a form in which ultrasonic waves are focused at high intensity is called high intensity focused ultrasound, and a device for generating the high intensity focused ultrasound is called a high intensity focused ultrasound generator.

A general high intensity focused ultrasound generator includes a transducer that emits ultrasound, but focuses the emitted ultrasound at a specific point (called "focus") to generate heat, causing a rapid temperature rise at the site. Let's do it. Through such a heat function, a desired medical procedure is performed without leaving side effects on various affected areas.

In addition, the high-intensity focused ultrasound generating device has been proved to be effective in improving skin wrinkles and the like, and has been spotlighted as an alternative to facial elevation, which is an invasive procedure.

The skin structure of the human body consists of the epidermis, the dermis, the subcutaneous fat layer, the muscle layer, and the skeleton in order from the outside, and most of the constituents of the dermis are collagen, which is responsible for maintaining skin elasticity.

High-intensity focused ultrasound does not work on the epidermal layer and acts on the muscle layer (Superficial Musculo-Aponeurotic System, SMAS), which induces coagulation, as well as transferring heat to the deeper parts of the dermis. As a result, collagen is regenerated to secure wrinkles and improve skin elasticity.

It is an object of the present invention to provide a high-intensity focused ultrasound generating apparatus capable of adjusting the focal length, which can variably adjust the distance of the focal point focused at the treatment site.

Another object of the present invention is to provide a high-intensity focused ultrasound generation apparatus capable of adjusting the focal length to adjust the focal length by raising and lowering the focused ultrasound converter for irradiating high-intensity focused ultrasound in the height direction.

The problem to be solved by the present invention is not limited to the above-mentioned problem, another task that is not mentioned will be clearly understood by those skilled in the art from the following description.

According to one aspect of the present invention for solving the above technical problem, the body portion which is detached to the handpiece by the cartridge, forming an outer housing; A focused ultrasound converting unit embedded in the body and configured to irradiate high intensity focused ultrasound at the same focal point of the treatment site; And a lift driver connected to the focused ultrasound converter and configured to expand and contract in a vertical direction to adjust a focal length of the high intensity focused ultrasound emitted from the focused ultrasound converter. Provide a device.

And according to the present invention, the height adjusting unit for controlling the stretching drive of the elevating drive unit to adjust the focal length of the high-intensity focused ultrasound beam irradiated from the focused ultrasound conversion unit as desired by the user.

The lift driver may have a telescopic structure that can be elastically adjusted in the vertical direction, and the tip of the lift driver may be connected and fixed to the rear end of the focused ultrasound converter.

And according to the present invention, the image acquisition unit for acquiring the image information about the ultrasound irradiated to the treatment site by the focused ultrasound conversion unit; may further include.

The image acquisition unit may protrude on a facing portion of the handpiece coupled to the body portion, and may be connected in a detachable manner as it is inserted through the inner hollow of the body portion.

The image acquisition unit may have a detachable structure disposed on the focused ultrasound transducer after coupling with the body unit.

On the other hand, the focused ultrasonic transducer, it may be guided in the front and rear direction along the linear guide provided on the inner top of the body portion may be transferred.

At this time, between the focused ultrasound transducer and the linear guide, a support for structurally connecting each other may be further provided.

In addition, according to the present invention, an operation unit for manipulating the output and on / off of the focused ultrasound emitted from the focused ultrasound converter; And a monitoring unit which visually implements and delivers the image information acquired through the image acquisition unit to the user.

According to the present invention, the focal length (or height) in which the ultrasound is focused can be arbitrarily adjusted according to the needs of the operator according to the needs of the operator, and there is an advantageous technical effect that can be utilized for various procedures.

In addition, according to the present invention, the focused ultrasound converter for irradiating high-intensity focused ultrasound can be easily adjusted in the height direction to adjust the focal length easily according to the purpose of the procedure, thereby improving the convenience of use.

1 is a view showing a schematic configuration of a high-intensity focused ultrasound generation apparatus capable of adjusting the focal length according to an embodiment of the present invention.
2 is a use diagram showing a state of performing a procedure using a high-intensity focused ultrasound generation apparatus capable of adjusting the focal length according to an embodiment of the present invention.
3 is a view showing a state in which the focal length is changed according to the height adjustment of the lift driver in the high-intensity focused ultrasound generation apparatus capable of adjusting the focal length according to the embodiment of the present invention.
4 and 5 are views for explaining a structure in which the body portion of the high-intensity focused ultrasound generating device having a surgical site slip prevention function according to an embodiment of the present invention is connected to the handpiece in a detachable manner.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

The embodiments to be described herein are merely provided to make the disclosure of the present invention complete, and to fully inform the scope of the invention to those skilled in the art.

In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

First, before looking at the high-intensity focused ultrasound generation apparatus capable of adjusting the focal length according to the present invention in detail, a brief description will be made of the features of the ultrasound procedure that can be used in the medical field or the cosmetic field.

First, ultrasonic waves have transmission and reflection properties. According to this property, the ultrasound irradiated to a specific part of the human body is used as a means of visualizing the time and intensity reflected while passing through the corresponding organ to obtain the cross-sectional image.

Second, the ultrasonic wave has a mechanical function of exerting an ultrasonic vibration on a surgical knife and the like, thereby exerting an effect such as cutting.

Third, the sound pressure of the ultrasonic wave generates fine bubbles in the fluid as it passes through the fluid. In this case, the generated bubbles are implemented in the form of shockwaves having a high pressure as they expand and rupture. This action involves a strong shear force.

Fourth, ultrasonic waves are converted into thermal energy while being absorbed by the tissue. Ultrasound with sufficient energy can cause a sharp rise in temperature in the tissue, which is called the thermal effect of ultrasound.

The high intensity focused ultrasound generation device in the present invention corresponds to a medical device using the thermal effect of such an ultrasound. Among them, high intensity focused ultrasound is a form in which an ultrasonic wave generated by an ultrasonic transducer is focused at a constant focusing point (ie, focus) to enhance intensity. The high-intensity focused ultrasound irradiated into the tissue treats various cancers by the thermal method using the thermal effect generated at the focus, and does not leave a wound or side effects on the human body. In particular, there is an advantage that does not involve pain.

In addition, high-intensity focused ultrasound is a technique that is recently attracting attention as it specializes in dermatology, especially skin wrinkle improvement, among medical procedures. Ultrasonic energy having a relatively low intensity can be formed at a fine junction to exert an effect of improving skin wrinkles.

The skin structure of the human body consists of the epidermis, the dermis, the subcutaneous fat, the muscle layer, and the skeleton in order from the outside. Among these, most of the constituents of the dermis are collagen. This ingredient is responsible for maintaining skin elasticity.

High-intensity focused ultrasound as in the present invention does not work in the epidermal layer, but acts on the superficial musculo-aponeurotic system (SMAS) layer, which is part of the muscle layer, inducing thermal coagulation, as well as propagating heat to the deep part of the dermal layer. Generate. This action is promoted by the regeneration of collagen has the effect of improving skin wrinkles, as well as improve the skin elasticity.

However, since there is no function for changing the focal length depending on the purpose of the procedure or the intention of the operator, it is rather difficult to use the high-intensity focused ultrasound generating device for various purposes. Invented to solve this inconvenience is a high-intensity focused ultrasound generation apparatus capable of adjusting the focal length according to the present invention.

Hereinafter, a high intensity focused ultrasound generating apparatus capable of adjusting a focal length according to the present invention will be described with reference to the accompanying drawings.

1 is a view showing a schematic configuration of a high-intensity focused ultrasound generation apparatus capable of adjusting the focal length according to an embodiment of the present invention.

As shown, the high-intensity focused ultrasound generation apparatus that can adjust the focal length according to the preferred embodiment of the present invention, the body portion 110 and the body portion 110 coupled to the handpiece and generates a high-intensity focused ultrasound The focused ultrasound converter 130 and the lifting drive unit 120 is connected to the focused ultrasound converter to adjust the height.

Body portion 110 is a structure that is detachably connected to the handpiece of the medical procedure by the cartridge, refers to the outer housing member containing the focused ultrasound transducer 130. Therefore, it does not need to be limited to the specific shape shown, and may be changed into other shapes other than this.

The focused ultrasound converter 130 is responsible for irradiating a plurality of high intensity focused ultrasounds to the treatment site. At this time, the ultrasonic waves irradiated from the focused ultrasonic transducer 130 are focused at the same focal point (F).

The focused ultrasound transducer 130 is a configuration collectively referred to as an ultrasonic transducer, and its cross-sectional structure has a concave shape as shown. According to this shape, the generated ultrasonic waves form a focal point F on the center of the radius of curvature of the concave portion.

As a preferred embodiment, the focused ultrasound conversion unit 130 according to the present invention may be formed in the inner lower portion of the body portion 110 which is a sealed outer housing to be irradiated with high intensity focused ultrasound downward. In this case, water may be filled in the internal space of the body 110. Here, the water acts as a medium for transmitting the ultrasonic waves generated by the focused ultrasonic transducer 130 into the treatment site (ie, skin tissue). And it also plays the role of the cooling water to cool the heat generated by the focused ultrasonic transducer 130 to an appropriate level.

As can be seen through FIG. 1, in this embodiment, a pair of focused ultrasound transducers 130 are disposed downward, and focused ultrasounds irradiated from each of them form a focal point F at the same position. In addition, a transmissive member 111 is provided on the lower end of the body portion 110 at which the irradiated ultrasonic wave is emitted, thereby allowing the body portion 110 to be sealed from the outside.

The procedure by the focused ultrasound transducer 130, the body portion 110 in close contact with the skin in a state coupled to the handpiece, and then performs the operation by moving the body portion 110 as intended by the operator.

However, it is necessary to adjust the focus to meet the purpose of the procedure as needed, the lifting drive unit 120 to adjust the position of the focus (F) by adjusting the height position of the focused ultrasound transducer 130.

The elevating driving unit 120 is connected to the focused ultrasound transducer 130 described above, and is an operating member that can be elastically adjusted in a vertical direction (ie, a height direction) by itself. In particular, as shown, the front end portion of the elevating drive unit 120 may be connected and fixed to the rear end of the focused ultrasound transducer 130.

The lifting driving unit 120 preferably has a structure that extends or contracts in a vertical direction by introducing an external power source. As a specific example, there is a telescopic structure.

In particular, as the lift driver 120, a VCM (Voice Coil Motor) can be used in combination with a transducer, which is a focused ultrasound transducer 130, and the height of the VCM is within a predetermined range when a voltage is applied. Can be adjusted. As a result, the focused ultrasound conversion unit 130 may be driven up and down.

In addition, the height adjusting unit 172 may be further provided as a configuration for controlling the stretching operation of the lifting driver 120 by receiving the required focal length from the user. Here, the height adjustment unit 172 may be formed in a form included in the operation unit 170 to be described later.

On the other hand, the procedure by the focused ultrasound transducer 130 may be performed at the same time as the operation of acquiring the image information on the treatment site using the irradiated ultrasound, as shown in FIG. The image obtaining unit 150 is provided.

The image acquiring unit 150 is a sensing unit that is in charge of a function of acquiring image information about a surgical site by using the ultrasonic waves irradiated from the focused ultrasound transducer 130.

The image acquisition unit 150 may be disposed in the longitudinal direction from the inner center of the body portion 110 as shown in the longitudinal direction. However, as shown, it is not necessary to be limited to a specific cross-sectional shape (that is, a rectangular parallelepiped cross-sectional shape), and may be made of various other shapes and arrangements. That is, after the high-intensity focused ultrasound is irradiated to the treatment site, if the shape and arrangement structure that can obtain the corresponding image information can be variously implemented.

The image acquiring unit 150 is disposed vertically spaced apart from the focal point F of the focused ultrasound transducer 130 and has a structure capable of effectively converging image information on the irradiated high-intensity focused ultrasound without surrounding interference. .

Here, the focused ultrasound transducer 130 disposed below the image acquisition unit 150 may be disposed in the front-rear direction of the body part 110 through a linear guide (not shown) provided at an upper portion of the body part 110. Has an actuating structure that is guided and conveyed. Although not shown separately for this purpose, it may include various power generation and transmission configurations. Specific examples thereof may include a linear motion power unit (eg, a linear stepping motor), a connecting joint, and a plurality of gear combinations, which will be omitted since they are well known power generation and transmission configurations. .

Meanwhile, a support 132 may be further provided between the focused ultrasound transducer 130 and the linear guide to structurally connect and support each other. Support 132 is made of a structure that slides back and forth along the outer surface of the image acquisition unit 150 that is removable through the inner center of the body portion 110. In addition, a lower side of the support 132 may be provided with a fixing groove (not shown) in which a pair of focused ultrasound transducers 130 can be inserted and detached. Through such fixing grooves, a pair of focused ultrasound transducers 130 are firmly inserted and perform an effective procedure. At the same time, the image acquisition unit 150 accurately measures various image information of the procedure without surrounding interference by using high-intensity focused ultrasound which is irradiated to the site where the procedure is performed.

Meanwhile, according to the present invention, in addition to the above-described configuration, it may further include an operation unit 170 and a monitoring unit 160 as shown in FIG.

The operation unit 170 is electrically connected to the plurality of focused ultrasound converters 130 provided in the present embodiment, so that the output of the ultrasound irradiated from the focused ultrasound converters may be controlled as well as on / off signals. It can be composed of an operation button and a switch.

In addition, the monitoring unit 160 plays a role of visually delivering the image information acquired through the image obtaining unit 150 to the user. As a specific example that can be used as the monitoring unit 160, not only a display device capable of real-time output through the screen, but also a printer and a variety of sound output device that can be printed on the paper output.

2 is a use diagram showing a state of performing a procedure using a high-intensity focused ultrasound generation apparatus capable of adjusting the focal length according to an embodiment of the present invention. Referring to FIG. 2, the body part 110 moves in a state in close contact with the skin surface corresponding to the treatment site L, and irradiates high-intensity focused ultrasound to the lower surface of the skin to confirm the treatment. Can be.

3 is a view showing a state in which the focal length is changed according to the height adjustment of the lift driver in the high-intensity focused ultrasound generation apparatus capable of adjusting the focal length according to the embodiment of the present invention.

Body portion 110 shown in (a) and (b) of Figure 3 shows a state in which a separate handpiece is omitted, the lower surface of the body portion 110 on the skin surface corresponding to the treatment site (L) While moving in close contact, high-intensity focused ultrasound is irradiated under the skin. At this time, the focus (F, F ') of the irradiated high-intensity focused ultrasound can be adjusted according to the intention of the operator.

Looking at (a) of Figure 3, it can be seen that the focus (F) is formed below the skin surface at a suitable depth (d). 3 (b), the position of the focal point F as described above with reference to FIG. 3 (a) is further formed downward, whereby the focal point F ′ at which the distance is changed at a deeper depth d ′ is formed. You can check the appearance.

This focal length variable action is made possible by expanding and adjusting the lifting drive unit 120 connected to the focused ultrasound transducer 130 in the vertical direction by manipulating the height adjusting unit 172 according to the intention of the operator. As described above, according to the present invention, a focal length (or focal depth) may be selectively adjusted within a set range according to the action of the height adjusting unit 172 and the elevating driving unit 120 electrically stretched and controlled. At this time, the depths d and d 'of the focal points F and F' are preferably about 3.0 to 4.5 mm, which may vary slightly.

When high-intensity focused ultrasound penetrates into the lower part of the skin, which is the treatment site (L), it induces thermal coagulation inside the skin tissue and exerts a function of improving wrinkles.

4 and 5 are views for explaining a structure in which the body portion of the high-intensity focused ultrasound generation apparatus capable of adjusting the focal length according to the embodiment of the present invention is connected to the handpiece in a detachable manner.

First, referring to FIG. 4, a detachment hole is provided in the center of the body part 110 including the focused ultrasound transducer, and an image acquisition unit 150 is provided on the opposite surface of the handpiece H side.

The shape of the body 110 connected to the handpiece H can be confirmed through FIG. 5, wherein the image acquisition unit 150 is inserted into a detachment hole of the body 110 to form a detachable connection with each other. In this case, the image acquisition unit 150 inserted into the body unit 110 is disposed in the longitudinal direction at the center of the upper side of the focused ultrasound transducer.

As described above, according to the present invention, the focal length (or focal height) at which the ultrasound is focused can be arbitrarily adjusted according to the needs of the operator, and there is an advantageous technical effect that can be utilized for various procedures.

In addition, the focusing ultrasonic converter for irradiating high-intensity focused ultrasound can be easily adjusted in the height direction so that the focal length can be easily adjusted according to the purpose of the procedure, thereby improving convenience of use.

In the above described a preferred embodiment of the high-intensity focused ultrasound generation apparatus capable of adjusting the focal length according to the present invention.

The foregoing embodiments are to be understood in all respects as illustrative and not restrictive, the scope of the invention being indicated by the following claims rather than the foregoing description, and the meaning and scope of the claims and All changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

H: Handpiece
110: body part
120: lift driving part
130: focused ultrasound converter
150: Image acquiring unit
160; Monitoring section
170: control panel
172: height adjustment

Claims (10)

A body part detachably attached to the handpiece by a cartridge and forming an outer housing;
A focused ultrasound converting unit embedded in the body and configured to irradiate high intensity focused ultrasound at the same focal point of the treatment site; And
A high-strength focused ultrasound generation apparatus capable of adjusting the focal length, comprising: a lift driver connected to the focused ultrasound converter and configured to adjust the focal length of the high-intensity focused ultrasound emitted from the focused ultrasound converter by stretching and contracting in a vertical direction. .
The method of claim 1,
High-intensity adjustable focal length, characterized in that it further comprises; height adjustment unit for controlling the stretching drive of the elevating drive unit to adjust the focal length of the high-intensity focused ultrasound irradiated from the focused ultrasound conversion unit as desired Focused ultrasonic generator.
The method of claim 1,
The lifting /
High intensity focused ultrasound generation apparatus that can adjust the focal length, characterized in that it has a telescopic structure capable of stretching in the vertical direction.
The method of claim 1,
A high intensity focused ultrasound generation apparatus capable of adjusting a focal length, characterized in that the front end of the elevating driver is fixedly connected to the rear end of the focused ultrasound converter.
The method of claim 1,
And an image acquiring unit for acquiring image information of the ultrasonic waves irradiated to the treatment site by the focused ultrasound transducer.
The method of claim 5, wherein
The image acquisition unit is protrudingly formed on the facing portion of the handpiece coupled to the body portion, the high-strength having a separate image sensing means, characterized in that connected in such a way as to be detached from each other as it penetrates into the inner hollow of the body portion Focused ultrasonic generator.
The method of claim 5, wherein
The image acquisition unit has a high-intensity focused ultrasound generation apparatus having a separate image sensing means, characterized in that having a detachable structure disposed on the upper side of the focused ultrasound transducer after coupling with the body portion.
The method of claim 1,
The focused ultrasound transducer is a high-intensity focused ultrasound generating device having a separate image sensing means, characterized in that the guide is transported in the front and rear direction along the linear guide provided in the upper portion of the body portion.
The method of claim 8,
Between the focused ultrasound transducer and the linear guide, a high intensity focused ultrasound generating device having a separate image sensing means, characterized in that the support is further provided to structurally connect each other.
The method of claim 5, wherein
An operation unit for manipulating the output and on / off of the focused ultrasound emitted from the focused ultrasound converter; And
And a monitoring unit which visually implements and transmits the image information acquired through the image acquisition unit to a user. 2. The high intensity focused ultrasound generation apparatus having separate image sensing means.

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