JPS63145644A - Handpiece - 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 Field of Application) The present invention relates to an ultrasonic wave scalpel handpiece for surgical operations for crushing or cutting and separating biological tissue by ultrasonic vibration.

[Prior art]

Cutting, cutting or breaking living tissue using ultrasound.

Vibration sources that apply crushing power include those that cut bones and joints and ablate cancer cells in the orthopedics and general surgery fields, cataract vibration sources in the ophthalmology field, and ultraviolet vibration sources for removing tartar in the dental field. Sonic vibration sources and the like have been put into practical use.

These ultrasonic application vibration sources basically consist of an ultrasonic vibration source that converts high-frequency current into ultrasonic vibrations, a horn connected to the vibration source that amplifies and transmits the ultrasonic vibrations, and a horn that comes into contact with living tissue. The working part at the tip of the horn that crushes or cuts (
(female part), and depending on the purpose of use,
It is equipped with an irrigation mechanism that supplies irrigation fluid (cleaning fluid) such as physiological saline to the area around the surgical site to clean it, and a suction mechanism that suctions and removes crushed and emulsified cell debris.

An example of the structure of a hand piece of an ultrasonic scalpel for surgical operation equipped with such an irrigation liquid structure and a suction mechanism will be described in some detail with reference to FIG. 4.

This handpiece includes a cable 31 connected to an ultrasonic oscillator, a connector 32, a grip part 33, a protection tube 34, a horn 35, an irrigation pipe 36 for supplying physiological saline etc. to the surgical site, and a horn 35 that connects the irrigation pipe to the horn 35. It is composed of a holder 37 that is fixed in close proximity to the surgical site, and a suction pipe 38 that is used to aspirate and remove liquid substances from the surgical site. The connecting tube 39 connects the grip portion 33 and the protective tube 3
This is a pipe that mechanically connects 4 with screws or the like. The grip portion 33, the connecting tube 39, and the protective tube 34 are made of a light and corrosion-resistant metal such as aluminum or duralumin, or a synthetic resin, so that they can be easily and easily handled by the operator. The horn 35, which serves as the ultrasonic scalpel part, is made of a material such as ultra-super duralumin or titanium alloy, which has good transmission of high-frequency mechanical vibrations and is strong against breakage. blood,
A suction hole 40 is provided for suctioning and removing physiological saline for washing, cell fragments crushed by the horn 35, etc.
This suction hole 40 is connected to the suction pipe 38 via a pipe joint 41 connected to the outside of the protection tube 34 by an appropriate method. A suction nipple 42 is connected to the other end of the suction pipe 3 by an appropriate method such as welding. This suction nipple 42 is for supplying irrigation liquid such as saline to the surgical site by suction from a vacuum pump or the like via a trap such as a glass bottle, and is provided with a front end near the tip of the horn 35. It is fixed or connected to the pipe joint 41 by an appropriate method. An irrigation pipe 43 is connected to the other end of the irrigation pipe 36 by an appropriate method such as welding, and is further connected to an irrigation liquid station consisting of a roller type pump such as a periscope pump.

The pipe stopper 44 is a stopper for fixing the suction pipe 38 and the irrigation pipe 36 to the grip portion 33.

In addition, the 4th opening) is a diagram showing the internal structure of the handpiece.
A back plate 46 and a front plate 47 made of a high-tensile metal material such as duralumin or high-tensile aluminum alloy are provided at the front and rear (left and right in the figure) of the vibrator 45, which is an electrostrictive vibrator or a magnetostrictive vibrator. 46, vibrator 45 and front plate 47
are tightly connected and fixed to each other by bolts made of high tensile strength metal material.

The front plate 47 and the horn 35 are connected and fixed by screws such as set screws 48 made of a high-tensile metal material.

However, in this handpiece, the irrigation pipe 36 runs along the outside of the horn 35, and the holder 37
Since it is provided near the tip of the horn 35, the irrigation pipe 36 and the holder 37 have the disadvantage that the field of view of the surgical target area is blocked, which necessitates a considerably difficult surgery and increases the operating time. There were obstacles to performing an appropriate and accurate surgery.

In order to eliminate these drawbacks of conventional handpieces,
The present inventors proposed a hand piece (Japanese Patent Laid-Open No. 60-23663) in which a joint having a length corresponding to an integral multiple of 172 wavelengths is provided between the front plate 47 connected to the vibrator 45 and the hole 735.
No. 8 f1)''), a handpiece in which the horn 35 is made thinner by providing a step or aperture at a position corresponding to the length of 1/4 wavelength from the end of the joint (patent application No. 6)
1-18055), and a handpiece in which the front part of the horn 35 is bent according to the situation of the surgical site (patent application No. 6).
No. 1-109671), etc., have been made and previously disclosed a series of inventions for making it easier to see the surgical target area by making the entire handpiece or the tip of the horn thinner or bent.

On the other hand, there are also well-known examples in which the method of forming the suction holes and the irrigation fluid passages is devised. For example, as shown in FIG. 5, in Japanese Patent Publication No. 47-39197 and U.S. Pat.
1, and a plastic plate on the outside of the tool tip 50.
An outer cover 52 made of aluminum is provided, and an annular space between the tool chimp 50 and the outer cover 52 is used as a cleaning liquid passage 53. Further, in US Pat. No. 35,262)9 shown in FIG. 6, the space inside the hollow horn 54 is used as a cleaning liquid passage 53, and the space between the horn 54 and the outer cover 52 is used as a suction passage 55. moreover,
In Japanese Patent Publication No. 60-6654 shown in FIG. 7, the inside of the horn 54 is made into a suction hole 51, and the space between the horn 54 and the outer cover 52 is made into a cleaning liquid passage 53.

However, in all of these examples, the outer sheath 52 is provided concentrically on the outside of the horn 54 or the tool tip 50, which has the disadvantage that the tip of the handpiece becomes unnecessarily large and difficult to handle. This method could not be applied to the handpiece invented by the inventors, in which the tip of the horn was bent.

In addition, if the working part of the tip of the horn comes into contact with blood vessels, nerve tissue, etc. at the surgical site, and the tip opening of the suction hole is blocked and excessive suction pressure is applied, the blood vessels, nerve tissue, etc. There was a risk of getting hurt.

[Purpose of the invention]

The present invention aims to solve the current problems of surgical tools that utilize ultrasonic vibrations, that is, handpieces for ultrasonic scalpels. The present invention aims to provide an ultrasonic scalpel handpiece that makes it easier to see the surgical target area by eliminating the tube, and is also equipped with an irrigation mechanism that can be applied to a new type of handpiece with a bent tip of the horn. .

[Structure of the invention]

That is, the present invention provides an ultrasonic vibration source for crushing or cutting and separating biological tissue by ultrasonic vibration, a horn connected to the ultrasonic vibration source to perform mechanical vibration at an ultrasonic frequency, and supplying irrigation fluid to the surgical site. Irrigation tube for suctioning cell fragments crushed by a horn from the surgical site,
In a surgical handpiece basically consisting of a suction hole for removal and a cover that covers at least an ultrasonic vibration source, a horn having a suction hole extending through it in the axial direction has a One to four side holes are provided, an irrigation tube is disposed in at least a part of the suction hole including the working part at the tip of the horn, and the tip is brought out and opened at the side of the horn through the side hole. This is a unique handpiece.

Hereinafter, the present invention will be explained in detail based on the drawings.

FIG. 1 is a sectional view of a handpiece for an ultrasonic scalpel according to an embodiment of the present invention. By mechanically connecting the vibrator 1) and the horn 1 with screws, etc., the suction hole 12 provided in the vibrator 1) and the suction hole 2 provided in the horn l are connected, and the handpiece A suction hole is provided so as to penetrate the entire body. The vibrator 1) is fixed to the grip portion 14 by a flange portion 13 at a point serving as a node of the amplitude mode of the vibrator 1) by an appropriate method such as a screw.

A suction vibrator 15 connected to the suction hole 12 and suction holes 2 and 12 are connected to the rear end of the vibrator 1.1 and the grip portion 14.
An irrigation tube 16 disposed inside and a cable 17 connected to an ultrasonic oscillator are exposed outside.

The irrigation tube 16 is drawn out through a hole in the side of the suction vibrator 15, and the gap between the holes is sealed with resin to prevent leakage of negative suction pressure and to fix the irrigation tube 16. There is. At the rear end of the suction vibrator 15, there is a nipple 18 for connecting a flexible tube to a suction device such as a vacuum pump, and at the rear end of the irrigation tube 16, there is a nipple 18 for connecting to a suction device such as a peristaltic pump. , Irrigation of physiological saline, etc.: vinyl chloride resin that supplies 1 fL (cleaning solution),
For connecting flexible tubes made of silicone, resin, etc.
-A second nipple 19 is attached.

Irrigation tubes 16 disposed within the suction holes 2 and 12 are opened to the outside of the horn 1 through a side hole provided near the tip of the horn 1.

The position where the side hole for passing the irrigation tube 16 is provided is preferably 3 to 50 mm from the tip of the horn I.

The diameter of the side hole is preferably the same as or slightly smaller than that of the irrigation tube 16, and the opening of the irrigation tube 16 protruding from the outside of the horn l. The length of the end is preferably about 0.1 to 3o1-1, preferably about 0.3 to 20M@.

The number of side holes provided near the tip of the horn 1 is preferably one or two or more, preferably 2 to 4. One of these side holes should be as described above. It is used to bring the irrigation tube 16 out from inside the suction hole 2 to the outside of the horn, l.
The diameter of the side hole that will become the suction release hole 24 (see Figure 1) is to prevent excessive suction pressure from being applied to the biological tissue at the surgical site due to the distal end opening being blocked. ,
It depends on the suction pressure, but in the case of one piece, 0.7 to 1.2 intoxication,
Moreover, in the case of three pieces, it is desirable to set it as about 0.3-0.7 fi.

It is necessary to use a flexible, small-diameter tube as the irrigation tube 46, and the material is particularly limited as long as it is flexible and has excellent wear resistance and heat resistance. Examples include fluororesins and polyimide resins, although they are not limited to specific materials. Also,
The irrigation tube 16 is passed through the suction holes 2 and 12, and needs to be thick enough not to interfere with the suction of crushed cell fragments, etc.
Since the inner diameter of the irrigation tube 16 is about 2 to 31 mm, the outer diameter of the irrigation tube 16 is preferably about 0.7 to 1.51 mm.The irrigation tube 16 is free in the suction hole. There is no particular problem even if the transducer 1 is not irrigated, but if necessary,
) and the horn 1, which is the node of the amplitude mode of the vibrator 1), or at the side hole where the irrigation tube 16 is brought out from inside the suction hole 2 to the outside of the horn 1. Good too.

Figure 2 shows a horn cover that has a suction hole 2) extending out from the middle of the handpiece and running along the side of the handpiece, and a horn cover that has a length that covers the tip opening of the irrigation tube protruding from the side of the horn 1). 20, and the present invention can be applied to this case in the same manner as the example shown in FIG.

2 on the horn 1 side of the vibrator 1) with respect to the axis of the handpiece.
A suction hole 2) is drilled to the center at an angle of 0 to 50 degrees fi and is penetrated by the axial suction hole 2.12. The suction hole 2) is connected to the suction pipe 22 via a pipe 23 connected to the outside of the cover 3 in an appropriate manner.

The horn cover 20 is attached to the cover 3 by an appropriate method so as not to come into contact with the vibrator 1).
It may be formed integrally with.

The tip of the horn l is 5 to 20 meters from the tip of the horn cover 20.
On the other hand, there is no problem with the open end of the irrigation tube 16 being located on the tip side that is not covered by the horn cover 20; 1 and horn cover 20
If there is a gap between the two, it is possible to avoid the phenomenon of the irrigation liquid spouting out in the form of mist, which is preferable.

Figure 3 shows the tool tip 2 at the tip of the horn l of the handpiece.
This is an example in which the irrigation tube 16 is passed through the suction hole 2, and the horn l is bent.
Irrigation fluid can be supplied without obstructing the field of view of the surgical target area, regardless of the degree of bending of the tip.

〔Effect of the invention〕

According to the handpiece for an ultrasonic scalpel of the present invention, the surgical target area is not obstructed by the irrigation tube, the suction pipe, the holder that holds these at the tip, etc., and the horn tip is compatible with the handpiece with a bent tip. With this combination, even if the surgical site is deep within the body and the surgical site is extremely narrow, the surgical site can be proceeded without obstructing the surgical site, making it possible to perform an appropriately qualified surgical procedure in a short time without any problems.

[Brief explanation of the drawing]

1 and 2 are cross-sectional views of a hand piece for an ultrasonic scalpel according to an embodiment of the present invention, and FIG. 3 is a cross-sectional view of a horn tip of a hand piece according to another embodiment of the present invention. . FIG. 4 is a diagram showing an example of a conventional handpiece for an ultrasonic scalpel, where +81 is an external view and ridges) are views showing the internal structure. Moreover, FIGS. 5 to 7 are diagrams showing the structure of the front part of a conventional handpiece for ultrasonic scalpel, and the arrows in each figure indicate the illumination 1. Indicates the direction of flow of liquid or discharged liquid. Patent applicant: Sumitomo Bakelite Co., Ltd. Figure 4 (b)

Claims (3)

[Claims] (1) Ultrasonic vibration source for crushing or cutting and separating biological tissues by ultrasonic vibration, a horn that is connected to the ultrasonic vibration source and performs mechanical vibration at an ultrasonic frequency, and for supplying irrigation fluid to the surgical site. irrigation tube,
In a surgical handpiece that basically consists of a suction hole for suctioning and removing cell fragments crushed by a horn from the surgical site, and a cover that covers at least an ultrasonic vibration source, it is provided to penetrate in the axial direction. One to four side holes are provided near the tip of the horn having a suction hole, and an irrigation tube is disposed in at least some of the suction holes including the tip working part of the horn. A handpiece characterized by an opening extending through a hole to the side of a horn. (2) The handpiece according to claim (1), wherein the cover has a length that covers the tip opening of the irrigation tube protruding from the side of the horn. (3) Claims (1) or (2), characterized in that the irrigation tube is made of a small diameter tube that is flexible and has excellent heat resistance and abrasion resistance. hand piece.