JPS62152456A - Ultrasonic stimulating probe - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to an ultrasonic stimulation probe, and particularly to an ultrasonic stimulation probe used for promoting wound healing.

[Prior Art] Physical therapy has conventionally been used for fracture treatment or Ω1 treatment, and for example, DC current stimulators, electromagnetic pulse stimulators, and the like are well known as fracture treatment devices.

This direct current stimulation device is a treatment method that promotes bone growth by implanting an IH electrode into the bone near the fracture site and passing a minute current through the periosteum. In addition, an electric pulse stimulator sends a pulsed current through an electromagnetic coil,
This is a treatment method that promotes fracture treatment by generating a pulsed magnetic field and directing this magnetic field from the surface of the skin to the treatment site within the body.

However, in the former treatment method, electrodes are implanted in the body and electricity is passed through lead wires, which poses the problem of exposing the treatment area to risks such as bacterial infection.In addition, with TU 8, the stimulation to the treatment area is small. , there are problems such as extremely short treatment times.

Therefore, in recent years, treatment methods using ultrasonic stimulation have attracted attention, and ultrasonic stimulation devices have been proposed as a therapy for promoting fracture or wound healing. This ultrasound stimulation is
It promotes bone formation and has been shown to be effective in repairing fractures and restoring joints after surgery.

[Problems to be solved by the invention] Problems with the prior art However, this Jr! When performing 4G wave stimulation therapy, the treatment area is often immobilized using a fixing device such as a cast. Furthermore, this treatment is not a one-time treatment, but is generally performed for several days a week and continued for several weeks.

Therefore, it is extremely troublesome to prepare such a transducer insertion hole by first preparing a hole in a cast or the like that is large enough to insert a stimulation device or lance durie, and performing ultrasonic stimulation treatment through that hole. Met.

Furthermore, since the insertion hole is large, there is a problem in that the fixation of the fractured part or the like is incomplete, and the fixation tool cannot function as a fixation tool, which impedes treatment.

Purpose of the Invention The present invention has been made in view of the above-mentioned conventional problems.
The purpose is to provide a probe for ultrasonic stimulation that can easily and quickly perform ultrasonic stimulation treatment without drilling an insertion hole in a fixture.

Means for Solving Problem E] To achieve the above object, the present invention provides an ultrasonic stimulation probe comprising a thin plate transducer, a lead wire, and an adhesive film plate. be. The thin plate transducer is made of a thin plate made of a leading polymeric material that is flexible so that it can be tightly attached to the surface of the treatment site even if it has uneven parts, and the adhesive film plate is A viscous agent is placed at least on the outer periphery, the thin plate transducer is placed in the center, and the ultrasonic wave emitting surface of the thin plate transducer is placed in close contact with the surface of the treatment area. has been done.

Another invention provides an ultrasonic stimulation probe comprising a thin plate transducer for ultrasonic stimulation and a film plate for attaching lead wires, which is fixed so as to be applied from above the probe attached to the surface of the treatment area. A special feature is that the lead wire is pulled out from a part of the fixture. 11 For daily use probe] With the above configuration, the transducer can be easily attached to the treatment area, and the thin plate transducer can be placed snugly even on the uneven surface of the treatment area. Can be placed in close contact. In addition, a fixing device such as a cast is attached with the ultrasonic stimulation probe of the present invention pasted on the surface of the treatment area, and ultrasonic stimulation is applied to the lead wire pulled out while the fixing device is attached. Since the main body of the device is connected, it is possible to easily perform ultrasound irradiation multiple times while treatment for a fracture or the like is completed.

[Embodiments] Hereinafter, preferred embodiments of the present invention will be described based on the drawings.

FIG. 1 shows an embodiment of the ultrasonic stimulation bulb "J-bu" of the present invention, in which (a) is a front view, (b) is a central sectional view, (
1 is a back view.

The unique feature of the present invention is that the ultrasonic probe can be brought into close contact with the uneven surface of the treatment area, and when used with a fixture, it will not cause any discomfort or pain. The thin plate transducer 10 is made flexible. Therefore, instead of using hard materials such as 4Z Q lamic crystals as in the past, it is possible to use composite materials such as piezoelectric materials made of organic polymer material II (such as PVDF) and polymer films mixed with piezoelectric ceramic powder. It is made of a piezoelectric material with excellent flexibility.

The thin plate transducer 10 has an arbitrary shape (round shape in the embodiment) with a thickness of about several millimeters, and electrodes 12a, 1 are formed on both sides by gold vapor deposition technology or the like.
A predetermined voltage is applied from a lead wire 14 connected to the electrodes 12a and 12b.

This thin plate transducer 10 is provided with an adhesive film plate 16 formed so that the thin plate transducer 10 is placed in the center and wrapped in a thin, soft flexible film. In the embodiment, adhesive is applied to the inside of the adhesive film plate 16 using a viscous agent. Note that this adhesive film plate 16 serves as an electrical insulating film. A sticky agent is applied to the adhesive film plate 16 on the surface of the area to be treated for harmful bacteria as well as on the outer periphery thereof. Due to the adhesiveness of the adhesive, the adhesive film plate 16 holding the transdecoder 10 is tightly adhered to the surface of the treatment area.

In this embodiment, a large number of fine pores are provided on the outer periphery of the adhesive film plate 16, and these pores are used to pass sweat from the surface of the treatment area and to allow the skin to breathe. I'm letting it happen.

Furthermore, in the embodiment, a drawer opening 20 for drawing out the lead wire 14 is provided near the periphery of the thin plate transducer 10 of the adhesive film plate 16.
At J3, connect the lead wire 14 to the bituminous area on the surface of the treatment area.
The device is pulled out from the drawer opening 20 without being placed. Therefore, it is possible to prevent a decrease in the adhesion strength of the adhesive film plate 1G caused by providing the lead wire 14 running inside the adhesive film plate 16.

In such an ultrasonic stimulation probe, a hydrophilic cream 17 is applied in advance to the ultrasonic irradiation side of the thin plate transducer 10, and in this state, a backing paper is pasted on the inner surface of the probe. .

The cream 17 is designed to absorb secretions such as sweat from the skin surface and maintain a constant moisture content, so that the acoustic coupling between the skin and the transducer is always sufficient. It will be kept as follows.

The ultrasonic stimulation probe of the present invention has the above-mentioned configuration, and allows the transducer for ultrasonic stimulation to be placed on the P5 instep and placed on the surface of a treatment area such as a fracture site, thereby eliminating unevenness. Even on a certain treatment site surface, the flexibility of the thin plate transducer 10 allows the ultrasonic irradiation surface to be brought into close contact with the skin v1 surface.

Next, an ultrasonic stimulation probe according to another invention will be explained based on FIG. 2.

FIG. 2 shows a state in which ultrasonic stimulation is applied to a fracture site of a lower limb.
00 is pasted on the surface of the fracture site of the lower leg. In the example, two probe bodies 100 are taken (=J-shaped), and the lead wires 14-1.1 of the two probe bodies 100 for ultrasonic stimulation are taken.
The cast 22 is attached and fixed to the lower limb while the cast 4-2 is pulled out. In this way, ultrasonic stimulation treatment is performed by connecting the lead wire 14 and the main body of the ultrasonic stimulation device, and multiple ultrasound stimulations are possible by simply connecting the lead wire 14. do.

In the figure, a matching circuit 24-1.24-2 of the stimulator main body is connected to the lead wire 14-1.14-2, and the electroacoustic conversion efficiency is improved by this matching circuit 24-1.24-2. be done. Kinawa I5, oscillator 26-1.2
The oscillation signal supplied from the R9 plate transducer 6-2 is converted into stimulation ultrasonic waves by the thin plate transducer 10, but at this time, the impedance of the oscillator 26 and the R9 plate transducer +
It is necessary to achieve electrical matching with the impedance of J10, and for this purpose, conversion from an electrical signal to a Bg wave with a good lAJ ratio is required.

In addition to this J, other inventions include thin plate 1 to lance du uri 10.
This invention uses an ultrasonic stimulation probe consisting of a lead wire 14 and an adhesive film plate 16 together with a fixing device such as a cast 22. When the probe body 100 is fixed, the attachment of the probe body 100 will not cause discomfort or pain. Therefore, even if used for a long period of time, it will not cause any pain to the patient.

E Effects of the Invention As explained above, according to the present invention, the thin plate transducer is made flexible and equipped with an adhesive film plate, so that the transducer that generates stimulating ultrasonic waves can be The ultrasonic wave irradiation surface can be easily attached in close contact with the surface of the treatment site, thereby making it possible to maintain the state in which the ultrasonic wave irradiation surface is in close contact with the surface of the treatment site that has uneven parts.

In addition, according to Haku's invention, a fixing device is provided on an ultrasonic stimulation probe equipped with a wrap plate transduri, a lead wire, and an adhesive film plate, and the lead wire is pulled out from a part of the fixing device. Therefore, during fracture treatment, the treatment site can be easily stimulated with ultrasound without having to install a probe insertion hole in a fixture while the fracture site is fixed, making it possible to quickly perform multiple treatments over a long period of time. It becomes possible to do so.

[Brief explanation of drawings]

FIG. 1 is an explanatory diagram showing a preferred embodiment of the ultrasonic stimulation probe according to the present invention, in which (a) is a front view, (b) is a central sectional view, (C) is a back view, and FIG. FIG. 1 is an explanatory diagram showing a preferred embodiment of how to use the ultrasonic stimulation probe 1 according to the method of the present invention. 10... Thin plate transducer 12... Electrode 14... Lead wire 16... Adhesive film plate 18... Pore 20... Outlet port 22... Cast 100 as a fixture...・Probe body.

Claims (4)

[Claims] (1) A thin plate transducer for ultrasonic stimulation made of a flexible thin plate, a lead wire for supplying power to this thin film transducer, an adhesive coated at least on the outer periphery, and the thin plate transducer arranged in the center. and an adhesive film plate to which the ultrasound irradiation surface is adhered in close contact with the surface of the treatment area. (2) The probe for ultrasonic stimulation according to claim (1), wherein the adhesive film plate has a large number of pores formed therein. (3) The ultrasonic stimulation probe according to claim (1), wherein the lead wire is taken out from an outlet provided in the adhesive film plate near the periphery of the thin plate transducer. (4) A thin plate transducer for ultrasonic stimulation made of a flexible thin plate, a lead wire for supplying power to the thin plate transducer, and an adhesive coated at least on the outer periphery, with the thin plate transducer arranged in the center. In an ultrasonic stimulation probe equipped with an adhesive film plate that is attached with the ultrasonic irradiation surface in close contact with the surface of the treatment area, the probe is applied from above the probe attached to the surface of the treatment area. An ultrasonic stimulation probe characterized in that a fixture is provided, and a lead wire is drawn out from a part of the fixture.