JPH07351A - Surgical instrument with body cavity mirror - Google Patents

Abstract

PURPOSE:To provide a surgical instrument with a body cavity mirror allowing an operator to easily grasp the depth of a celom, the position of the instrument in the celom, the position of the surgical field, the distance from the instrument to the surgical field, or the advance direction of the instrument during surgery with the body cavity mirror. CONSTITUTION:This surgical instrument with a body cavity mirror is provided with a tip section 2b inserted into a celom and having a surgical tool section 5 at the tip, an operation section 6 operating the surgical tool section 5 of the tip section 2b outside the celom, and the light illumination section 3 provided on the tip section 2b for illuminating the surgical tool section 5 or its front.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a thoracoscopic surgical instrument used for a thoracoscopic surgery. For more details,
A body cavity endoscope which is used for body cavity endoscopic surgery and has a surgical instrument function such as forceps, scissors, or an electric scalpel that is inserted into a body cavity at the distal end, and has an operation unit for operating the surgical instrument function outside the body cavity. Regarding lower surgical instruments.

[0002]

2. Description of the Related Art FIG. 11 shows the concept of conventional surgery under a body cavity. In the laparoscopic surgery, a small portion of the abdominal wall 57 is incised, a flexible endoscope or a rigid endoscope 51 is inserted into the body cavity through the incision, and the small camera 5 provided inside the rigid endoscope 51 is inserted.
It is performed while observing the endoscope monitor screen 52 photographed in 9. Then, several trocar cannulas 53 are punctured at a plurality of locations on the abdominal wall 57, and a long surgical instrument having a surgical instrument function such as forceps 54, scissors 55, and an electric knife 56 at its tip is inserted into the body cavity. , Cholecystectomy and intestinal anastomosis. This body arthroscopic surgery has recently been performed, and has advantages such as less surgical invasion, less post-operative pain, and faster recovery than open surgery.
Currently, only at limited medical institutions and limited doctors,
Although it is conducted in Japan, it has become quite popular in the United States. Also, the application is limited such as cholecystectomy, but its range has been studied,
There is a tendency to expand. For this reason, it is considered to be generalized in Japan in the future. In addition, at least three people in this body arthroscopic surgery are an operator, a first assistant who grasps an organ and develops a visual field, and a second assistant who manipulates the direction of the endoscope to make the operative field easy to see. It is usually done in.

[0003] By the way, since such a body arthroscopic surgery is performed by viewing the two-dimensional monitor screen 52 as described above, it is difficult for the operator or the like to obtain depth information. Further, since it is a remote operation using a long instrument, it is difficult to grasp the position of the instrument in the body cavity, the position of the operative field, the distance from the instrument to the operative field, the traveling direction of the instrument, and the like. In addition, since information about depth, position, distance, etc. cannot be accurately grasped, it takes time to operate, and long-time remote fine operation under observation on a two-dimensional monitor puts a great deal of stress on the operator. It was Furthermore, there is a problem that it takes time to communicate between the operator and the surgical assistant.

[0004]

The problem with the prior art is that there is no means for clearly indicating the positional relationship between the instrument and the operative field to the operator or means for accurately transmitting the operator's instructions. It is due to that. Therefore, the present invention has been made in view of such problems in the laparoscopic surgery, and an object thereof is the depth of the body cavity, the position of the instrument in the body cavity, and the operative field during the surgery by the operator. Position of,
The distance from the instrument to the operative field, the direction of movement of the instrument, etc. can be easily grasped, and the surgeon's instructions can be accurately transmitted to the surgical assistant, and the operation time can be shortened. An object of the present invention is to provide a surgical instrument under a body cavity endoscope.

[0005]

[Means for Solving the Problems] What achieves the above-mentioned object is to operate a surgical instrument portion of the distal end portion, which is inserted into a body cavity and has a surgical instrument portion at the distal end, and outside the body cavity. A surgical instrument under a body cavity endoscope having an operation section and a light irradiation section provided on the distal end section for illuminating the surgical instrument section or the front thereof.

Further, it is preferable that the surgical instrument section is a forceps-like surgical instrument section. Moreover, it is preferable that the surgical instrument part is a scissors-like surgical instrument part. Further, it is preferable that the surgical instrument part is a female surgical instrument part. Further, it is preferable that the surgical instrument part is an electric surgical instrument part. Further, the surgical instrument section is preferably a laser scalpel surgical instrument section. Also,
It is preferable that the surgical instrument includes a light source and a power source for emitting light from the light emitting section. And
It is preferable that the light irradiation unit has a light source and a light condensing function for condensing light emitted from the light source. The light source is preferably a high brightness LED or a visible light semiconductor laser. Furthermore, it is preferable that the light source and the light condensing unit are high-luminance visible light LED light sources having a light condensing function. Further, it is preferable that the condensing means is a condensing lens. Furthermore, it is preferable that the surgical instrument has a blinking function of blinking the light emitted from the light emitting unit. Further, it is preferable that the operation unit has a switch for irradiating the light from the light irradiating unit or stopping the irradiation. Further, it is preferable that the irradiation of light by the switch or the stop thereof is linked to the operation of the surgical instrument section by the operation section. In addition, in the surgical instrument, the surgical instrument portion is an electric surgical instrument portion, and a power source device having an electric surgical instrument power source, a light source for the light irradiation section, and a power source is provided. It is preferable to have a connection part. Further, in the surgical instrument, the surgical instrument portion may be an electric surgical instrument portion, and may have the electric surgical instrument power source and a light source and a power source for the light irradiation section. .

Further, what achieves the above-mentioned object is a distal end portion which is inserted into a body cavity and has a surgical instrument portion at the distal end, and an operating portion which operates the surgical instrument portion of the distal end portion outside the body cavity. A body cavity endoscopic surgical instrument set comprising a plurality of body cavity endoscopic surgical instruments provided at the distal end and having a light irradiation section for illuminating the surgical instrument section or the front thereof. The surgical instrument is a body cavity endoscopic surgical instrument set characterized in that it has an identification function for confirming the distal end portion or its vicinity in a body cavity.

The surgical instrument parts of the plurality of body cavity endoscopic surgical instruments are different surgical instrument parts, and the light irradiation portions of the plural surgical instruments have different wavelengths. It emits different light,
It is preferable that the different lights form an identification function that can be confirmed in the body cavity. In addition, the surgical instrument parts of the plurality of body cavity endoscopic surgical instruments are respectively different surgical instrument parts, and further, the light irradiation portions of the plural surgical instruments are respectively different in time intervals. It blinks, and it is preferable that the blinking at different time intervals constitutes an identification function that can be confirmed in the body cavity.

Further, what achieves the above-mentioned object is a distal end portion which is inserted into a body cavity and has a surgical instrument portion at its distal end, and an operation portion which operates the surgical instrument portion of the distal end portion outside the body cavity. A plurality of body cavity endoscopic surgical instruments provided at the distal end portion and having a light irradiation portion for illuminating the surgical instrument portion or the front thereof,
A plurality of light sources having different wavelengths, a power supply circuit for causing the plurality of light sources to emit light, and a power supply device having a plurality of external connection portions for transmitting the light emitted from the plurality of light sources, The plurality of surgical instruments is a body cavity endoscopic surgical instrument apparatus having a connecting portion for connecting to a connecting portion of the power supply device.

Further, what achieves the above-mentioned object is a distal end portion which is inserted into a body cavity and has a surgical instrument portion at its distal end, and an operation portion which operates the surgical instrument portion of the distal end portion outside the body cavity. A plurality of body cavity endoscopic surgical instruments provided at the distal end portion and having a light irradiation portion for illuminating the surgical instrument portion or the front thereof,
A plurality of light sources, a power supply circuit having a blinking circuit for causing the plurality of light sources to emit light at different blinking time intervals, and a plurality of external connection portions for transmitting the light emitted from the plurality of light sources And a plurality of surgical instruments, the plurality of surgical instruments having a connecting portion for connecting to a connecting portion of the power source device.

[0011] Therefore, the body cavity arthroscopic surgical instrument of the present invention will be described with reference to the embodiments shown in the drawings. FIG. 1 is a plan view of an embodiment of the body cavity endoscopic surgical instrument of the present invention, and FIG. 2 is an explanatory view for explaining the structure inside the body of the body cavity endoscopic surgical instrument shown in FIG. FIG. 3 is an explanatory view for explaining the structure inside the main body portion of another embodiment of the body cavity endoscopic surgical instrument of the present invention, and FIG. 4 is the scissors for body cavity endoscopic surgical operation of the present invention. FIG. 5 is a plan view of an example of FIG.
FIG. 1 is a schematic view showing an embodiment of the electric scalpel for body arthroscopic surgery of the present invention.

[0012] And, the surgical instrument 1 under the thoracoscope according to the present invention.
As shown in FIG. 1, a distal end portion 2b that is inserted into a body cavity and has a surgical instrument portion 5 at the distal end, an operation portion 6 that operates the surgical instrument portion 5 of the distal end portion 2b outside the body cavity, and a distal end. Provided in the part 2b,
It has the light irradiation part 3 for illuminating the surgical instrument part or its front. As the surgical instrument part, a forceps-like surgical instrument part as shown in FIGS. 1 to 3, a scissors-like surgical instrument part as shown in FIG. 4, an electric scalpel-like surgical instrument part as shown in FIG. In addition to the surgical instrument part, a suture instrument surgical instrument part, a ligature instrument surgical instrument part, a retractor instrument surgical instrument part, a suction instrument surgical instrument part, a biopsy needle (biobush needle) surgical instrument part, and the like are conceivable.

The following is a description of the endoscopic surgical instrument of the present invention,
A detailed description will be given with reference to the body cavity endoscope surgical instrument 1 shown in FIGS. The body cavity endoscopic surgical instrument 1 of this embodiment is a so-called forceps type surgical instrument. And
As shown in FIG. 1, the body cavity endoscope surgical instrument 1 includes a body portion 2, a holding portion 5 which is a forceps-like surgical instrument portion provided at the tip of a shaft 2a of the body portion 2, and a holding portion 5. Connected,
An operation unit 6 for operating the sandwiching unit 5, a light irradiation unit 3 attached to the tip 2b of the main body unit 2, and a power supply circuit 4 for supplying electric power for causing the light irradiation unit 3 to emit light. Have

The main body 2 of the body cavity endoscopic surgical instrument 1 according to this embodiment includes a power circuit housing 10 for housing a power source (dry battery) 4, a shaft 2a, and a part of the power circuit. And a lighting switch 13 for emitting light from the light emitting section 3. Specifically, the main body 2
As shown in FIG. 2, has a power source storage unit 10 near the upper part thereof capable of storing two AA type dry batteries, and is electrically connected to a light source and a lighting switch 13 described later to connect a power supply circuit. I am configuring. The lighting switch 13 is for turning on or off the light source, and in this embodiment,
A micro switch is used, which is turned on (lighted) when the right end of the switch 13 in the figure is pressed by the rotating portion 6b of the operating portion 6. In addition, the switch 13
Is provided below the fulcrum 12 and is in an OFF state (light off state) when being pushed by the operating portion 6, and is in an ON state (lighting state) when the operating portion 6 is opened and released. It may be The switch mechanism of the light source is not limited to this, and for example, a touch switch (touch sensor) may be provided near the handle 6c of the operation unit 6. In this case, the touch switch is the operation unit 6
It is preferable that the grip portion 6c is in contact with the operator when gripping the operation portion. Also, the main body 2
In addition, a switch of a manual type may be provided instead of the automatic type as described above.

The holding portion 5 which is a forceps-like surgical instrument portion is a portion for holding an organ, a diseased tissue, a foreign matter, etc. In this embodiment, as shown in FIG. 2, the shaft portion 2a of the main body portion 2 is shown.
Near the tip of the inside, connected to the connecting portion 6d of the operating portion 6,
It is provided so as to project outward from the tip of the shaft portion 2a.

The operating portion 6 is for operating the sandwiching portion 5. In this embodiment, as shown in FIG. 2, the operating portion 6 is inserted into the shaft portion 2a of the main body portion 2 to mechanically operate the operating portion 6. A rod 6a for transmitting an operation to the holding portion 5, and a fulcrum 1
It has a rotating part 6b which can be rotated about 10 degrees about 2, a grip part 6c for gripping, and a connecting part 6d for connecting with the holding part 5. The rotating portion 6b is shown in FIG.
As shown in FIG. 5, the end is connected to the base end of the rod, the tip of the rod 6a is rotatably connected to one end of the connecting portion 6d, and the other end of the connecting portion 6d is the holding portion. The rear end portion of 6 is connected in an openable and closable manner. Therefore, the operation unit 6
When one of the grip portions (the grip portion 6c on the right side in the drawing in this embodiment) is opened (moved in the right direction in the drawing in this embodiment) by gripping the grip portion 6c of the rotating portion 6b, the rotating portion 6b serves as a fulcrum 12. And the rod 6a is pressed leftward in the figure.
As a result, the connecting portion 6d is also pressed, and as shown in FIG. 10, the connecting portion 6d is opened in the vertical direction in the figure, and the holding portion 5 is opened accordingly. Also, the sandwiching portion 5
When closing one of the grip portions 6c of the operation portion 6 (in this embodiment, the grip portion 6c on the right side in the drawing) is closed (moved in the left direction in the drawing), the rotating portion 6b moves around the fulcrum 12 as a center. It rotates and the rod 6a is pulled rightward in the drawing. As a result, the connecting portion 6d is also pulled to be in the state shown in FIG. 2, and the holding portion 5 is also closed accordingly.

The light irradiation section 3 is for irradiating the surgical instrument section 5 or the front thereof with light, and makes the surgical field (operative section) or the distal end of the surgical instrument obtained from the monitor screen bright, and the surgical instrument. Is provided to facilitate the operation of the surgical instrument and to facilitate the recognition of the surgical instrument used by the assistant who is not operating the surgical instrument. In the surgical instrument 1 of this embodiment, the light irradiation section 3 is attached to the tip of the main body section 2. By having the light irradiation unit 3, the depth in the body cavity, the position of the surgical instrument in the body cavity of the surgical instrument unit 5, the position of the surgical field, the distance from the surgical instrument unit 5 to the surgical field, or the surgical instrument during operation. It is possible to easily grasp the traveling direction of the portion 5 and the like, and it is possible to accurately convey the instructions and policies of the operator to the surgical assistant, which is safe and the operation time can be shortened.

In this embodiment, as shown in FIGS. 1 and 2, the light irradiation section 3 is fixed near the tip of the shaft 2a of the main body 2. The light irradiation unit 3 of this embodiment is formed of a high-luminance visible light LED light source having a light collecting function. Specifically, the visible light LED light source is LE
It has D and an aspherical lens mounted on the LED, and the light emitted from the LED is condensed by the aspherical lens and irradiated in the form of a beam with a directional angle of ± 2 degrees or less. That is, as the light irradiation unit 3, a unit integrally having a light source and a function of condensing light emitted from the light source is used. The light irradiator 3 may not have the condensing means and the light source integrally but may have them separately. A convex lens can be preferably used as the light collecting means.

As the LED light source, a gallium-arsenic light emitting diode, a gallium-phosphorus light emitting diode, a gallium-arsenic-phosphorus light emitting diode, and a gallium-aluminum-arsenic light-emitting diode are suitable, but a gallium-arsenic is particularly preferable.
Arsenic-phosphorus light emitting diodes are preferred. In addition, visible light L
The ED light source directly emits visible light,
It may be any of those obtained by applying a paint to the surface of an LED that emits infrared rays or the like and converting it into visible light. The wavelength of the light emitted from the light irradiation unit 3 is preferably 450 to 670 nm in consideration of the color of the surgical field. In addition, as a high-brightness LED, the one that emits visible light is 500 m
Those having a luminous intensity of cd or more, and those emitting an infrared ray are preferably those having a luminous intensity of 500 mcd or more. Further, the light source for the light irradiation unit 3 may be formed by a visible light semiconductor laser. As the visible light semiconductor laser, a He-Ne laser having a wavelength of 633 nm, a ruby laser having a wavelength of 694 nm, a GaAlAs PLD (semiconductor laser) having a wavelength of 670 nm, and the like can be used. When using these lasers as a light source, a laser driver is required.

The light irradiator 3 opens the gripping part 6c of the operating part 6 to open and light the gripping part 5, and further closes the gripping part 6c to close the gripping part 5c.
It is preferable that the light be turned off as soon as is closed.
As a result, it is not necessary to separately provide a switch mechanism for irradiating the light from the light irradiating section 3, and the structure is simple. In addition, since the light irradiation unit 3 irradiates the light when the holding unit 5 is opened and used, the region to be held can be confirmed, and further, the instrument used by the operator emits light,
Communication with the assistant becomes easy.

The light irradiator 3 is turned on when the holding portion 5 is opened. For example, as shown in FIGS. 9 and 10, one of the handle portions (in this embodiment, the handle portion on the right side in the figure) is used. 6
c) is opened (in this embodiment, it is moved to the right in the figure)
Then, the rotating portion 6b rotates about the fulcrum 12 and presses the right end portion of the switch 13 in the drawing to light up. On the other hand, in the configuration in which the light irradiation unit 3 is turned off when the holding unit 5 is closed, one of the handle portions (in this embodiment, the handle portion 6c on the right side in the drawing) is closed (moved in the left direction in the drawing in this embodiment). Then, the rotating portion 6b rotates about the fulcrum 12 and is separated from the right end portion of the switch 13 in the drawing to be turned off.

Further, it is preferable that the light irradiating section 3 blinks. As the power supply circuit 60 having a blinking function, for example, the one shown in FIG. 6 can be considered. This power supply circuit 60 has an LED blinking circuit 61, and this blinking circuit 61 has a transmitting section 62 having an oscillation circuit and a switching section 63, and when the switch 13 is pushed in the direction of the arrow. It is energized. And the light irradiation part 3
The light source is configured to emit light when the switching unit 63 is turned on by an ON / OFF blinking signal emitted from the transmitting unit 62. The transmission unit switch 64 is for appropriately adjusting the transmission interval (for example, determined within 0.1 to 3 seconds) of the signal from the transmission unit 62.

By providing the function of blinking the light emitted from the light irradiation section 3 as described above, the assistant can more easily grasp the instrument used by the operator. Further, in the body cavity endoscopic surgery, in addition to the forceps type of this embodiment, a plurality of scissors type, which will be described later, or a female type, and the same forceps type may be used. In order to distinguish these surgical instruments from each other, the blinking intervals are made different to facilitate their recognition.

Next, another embodiment of the surgical instrument for observing a body cavity according to the present invention shown in FIG. 3 will be described. In addition, in the figure, regarding the same configuration as the instrument for laparoscopic surgery,
The same reference numerals as those in FIGS. 1 and 2 are used. The difference between the body cavity endoscopic surgical instrument 20 shown in this embodiment and the body cavity endoscopic surgical instrument 1 is that the light irradiation section 3 does not have a light source and is composed of a first condensing means. The main body 2 has a light source 21 inside.
Is the point that has. Further, the main body 2 of this embodiment
The shaft portion 2a guides the light of the light source 21 to the light irradiation section 3 which is a light condensing means attached to the tip portion, and the light from the light source 21 to enter the light guiding means 22. Second condensing means 23 of. As described above, in the body cavity endoscopic surgical instrument of the present invention, the light irradiation unit 3 does not need to have a light source, and the main body unit 2 may have it. An optical fiber can be suitably used as the light guiding means, and a convex lens can be suitably used as the light converging means. Moreover, as the light source and the light source light emitting circuit, the above-mentioned ones can be preferably used.

Next, the instrument for observing a body cavity under the endoscope shown in FIG. 4 will be described. Surgical instrument 30 of this embodiment
Is a so-called scissor type surgical instrument. The surgical instrument 30 for body arthroscopic surgery of this embodiment is connected to the main body portion 2, the surgical instrument portion 31 protruding from the tip of the main body portion 2, and the surgical instrument portion 31, and operates the surgical instrument portion 31. Operation unit 6, the light irradiation unit 3 attached to the tip of the main body 2, and the light irradiation unit 3
It has a power source 4 for supplying electric power for irradiating more light. The surgical instrument part is a scissors-like surgical instrument part, specifically, a shearing part 31.

Surgical instrument 30 for laparoscopic surgery of the present invention
And the above-mentioned forceps-type surgical instrument 1 is different only in that the shearing portion 31 is projected instead of the holding portion 5 which is a forceps-like surgical instrument portion protruding from the tip of the main body 2. Is the same. The surgical instrument 30 having the shearing portion 31 is
For example, it is used to separate the artery from the gallbladder duct. And the surgical instrument 3 for body arthroscopic surgery of this invention
Since 0 has the light irradiation part 3 at the tip of the main body part 2, the operator has the depth inside the body cavity, the position of the instrument in the body cavity, the position of the operative field, and the distance from the device to the operative field during the operation. , Or the traveling direction of the instrument can be easily grasped, and the operator's instruction can be accurately transmitted to the surgical assistant, and the operation time can be shortened.

In the light irradiation section 3 of the surgical instrument 30, the shearing section 31 is opened and turned on by opening the handle section 6c of the operating section 6, and the shearing section 31 is opened by closing the handle section 6c. It is preferable that the light is closed and the artery or the like is cut off and turned off. As a result, it is not necessary to separately provide a switch mechanism for irradiating the light from the light irradiating section 3, and the structure is simple. Also, when the shearing part 31 is opened and used, the light irradiating part 3 irradiates light, so that the part to be cut can be confirmed, and the instrument used by the operator emits light, so that the assistant Communication becomes easy. Further, the switch is not limited to the one described above, and the switch 13 is provided below the fulcrum 12, and when the switch 13 is pressed by the operation unit 6,
It may be in the FF state (extinguished state), and when the operation unit 6 is opened and the pressure is released, the ON state (lighted state) is obtained. The light source switch mechanism is not limited to this.
For example, a touch switch (touch sensor) may be provided near the handle 6c of the operation unit 6. In this case, the touch switch is the operation unit 6, and it is preferable to provide the touch switch on the holding unit 6c with which the operator comes into contact when holding the operation unit. Further, the main body 2 may be provided with a switch of a manual type instead of the automatic type as described above. As the light source and the light emitting circuit of the light source, those described above can be preferably used.

Further, the instrument for laparoscopic surgery according to the embodiment shown in FIG. 5 will be described. The body cavity endoscopic surgical instrument of this embodiment is a so-called electric scalpel type surgical instrument in which the surgical instrument portion has an electric knife shape. The body cavity endoscope surgical instrument 40 of this embodiment has a main body 2, an electric scalpel portion 41 attached to the tip of the tip 2b, and a tip 2b of the body 2.
And a power supply device 42 that supplies electric power to the electric knife unit 41 and also supplies electric power for irradiating light from the light irradiation unit 3. An electrode is provided on the electric knife portion 41.

The surgical instrument 40 is used, for example, when peeling the gallbladder from the liver bed. Then, arc discharge is generated between the electrode portion provided on the electric knife portion 41 and the counter electrode plate, and the affected portion or the like is cut.
As shown in FIG. 5, the electric knife portion 41 may be a J-shaped hook type, an L-shaped hook type, or a subtilt type with a flat blade slightly bent, as shown in FIG. It may be. Furthermore, the surgical instrument 4 of this embodiment
Since 0 has the light source 45 inside the power supply device 42, the light irradiating section 3 is formed by a convex lens which is a condensing means, and the main body section 2 and the shaft section 2a are as shown in FIG. It has a light guide means 43. This light guiding means 43
For this, an optical fiber can be preferably used.

More specifically, the surgical instrument 40 of this embodiment comprises a female probe portion 40a and a power supply device 40b, which are electrically and optically connected. The female probe 40a includes the main body 2
And a distal end side of the shaft portion to be inserted into the body cavity, the above-mentioned electric knife portion 41 projecting from the distal end portion 2b of the shaft portion, and the light irradiation portion 3 provided near the distal end of the shaft portion 2b, The operation unit 6 is provided at the rear end of the main body 2 and holds the surgical instrument 40 during operation, and the light irradiation unit lighting switch 55 and the electric knife energizing switch 53 are provided on the operation unit 6. There is. The light irradiation section lighting switch 55 is preferably provided at a position where the operation section 6 is naturally pressed while being held. As the switch 55, a micro switch, a touch switch, or the like is used. And the electric knife energizing switch 53 is
On the contrary, it is preferable to provide the operation portion 6 at a position where it is not normally pushed when the operation portion 6 is just gripped. Then, the energizing switch 53 is turned on by pressing it only when necessary. Furthermore, the connector which comprises the connection part 49 is connected with the female probe 40a by the cord 49a. Then, the connector 49 has a connection terminal 49b for electrically connecting an electrode provided on the electric knife portion 41 and a high-frequency current generating circuit described later, and a connection terminal 49c for transmitting light to the light irradiation section 3. , And the connection terminals 49d for electrically connecting the switches 53 and 55 to the control circuit 47 described later.

The power supply device 40b includes a power supply circuit 51 for supplying a predetermined current or voltage and a high frequency current generating circuit 4 for supplying a high frequency current to the electrodes of the electric knife portion 41.
8, a light source 45, and a light collecting means 4 for collecting the light from the light source 45.
4, a light emitting circuit 46 for causing the light source 45 to emit light, a control circuit 47 electrically connected to the switches 53 and 55 and controlling the light emitting circuit 46 and the high-frequency current generating circuit 48, and an external connection section 52. is doing. As the light source 45, a visible light semiconductor laser is preferable. As the visible light semiconductor laser, a He-Ne laser having a wavelength of 633 nm, a ruby laser having a wavelength of 694 nm, a GaAlAs PLD (semiconductor laser) having a wavelength of 670 nm, and the like can be used. And when using these lasers as the light source,
The light emitting circuit 46 serves as a laser driver. Also, the light source 4
5 may be a visible light LED. As a visible light LED,
The above can be used. As the light collecting means 44, a convex lens can be preferably used. Although the surgical instrument 40 of this embodiment has the light source 45 inside the power supply device 42, the light source 45 has the light irradiating section 3 like the above-mentioned body cavity surgical instrument 1 or surgical instrument 30. It may have, or the main body 2 may have. Then, the connector 49 of the female probe section 40a described above is detachably connected to the external connection section 52.

In the surgical instrument 40 of this embodiment, the lighting switch 55 provided on the female probe section 40a is turned on.
The light source 45 is configured to be turned on or off by performing an N / OFF operation. And connector 4
When 9 is connected to the power supply device 42 and the above-mentioned lighting switch is turned on, the light from the light source 45 collects light.
The light is radiated by the light irradiating section 3 after passing through the light guiding means 43. Further, when the switch 53 of the female probe section 40a is turned on, a high frequency current is supplied to the electrode section of the electric knife section 41,
It is configured so that the affected area can be cut.

Further, it is preferable that the light irradiating section 3 blinks. As a method of providing a blinking function, for example, when the light emitting circuit 46 uses a semiconductor laser, a current source type driver having a laser blinking instruction signal input section (a single power source is used, Drive current is supplied to the laser), a current sink type driver having a laser blink instruction signal input unit (a differential method is used to absorb the drive current from the semiconductor laser), and in order to stabilize the laser emission, Bias method that keeps the current (bias current) that the laser does not emit to the current source driver, and bias method that keeps the current (bias current) that the laser does not emit to the above current sink driver Provide any one of the above current sink type drivers to send a laser blinking instruction signal to the light emitting circuit 48 or the control circuit 47. It can be carried out by providing the output section.

When a visible light LED is used as a light source, the LED blinking circuit 61 shown in FIG. 6 is provided in the light emitting circuit 48 or the control circuit 47, and the transmitter 62 of the blinking circuit 61 is a control circuit. The light source can be turned on and off by providing the light emitting circuit 48 with the light emitting circuit 48. By providing such a function of blinking the light emitted from the light irradiation unit 3, the assistant can more easily grasp the instrument used by the operator.

Next, the body cavity scopic surgical instrument set of the present invention will be described. This body cavity endoscope surgical instrument set includes a distal end portion that is inserted into a body cavity and has a surgical instrument portion at the distal end, an operating portion that operates the surgical instrument portion of the distal end portion outside the body cavity, and the distal end portion. And a body cavity endoscopic surgical instrument set comprising a plurality of body cavity endoscopic surgical instruments having a light irradiation section for illuminating the surgical instrument section or the front thereof.
The plurality of body cavity endoscopic surgical instruments have an identification function capable of confirming the tip portion or its vicinity in a body cavity.
Examples of the surgical instrument under the body cavity endoscope include a forceps type surgical instrument, a scissor type surgical instrument, an electric knife type surgical instrument, a female type surgical instrument, a laser knife type surgical instrument, and the like. The above-mentioned ones can be preferably used as the surgical instrument under the body cavity endoscope.

In this surgical instrument set, the surgical instrument parts of the plurality of body cavity endoscopic surgical instruments are different surgical instrument parts, and further, the light irradiation parts of the plural surgical instruments are respectively provided. Reference numeral 3 is for irradiating light having different wavelengths, and the different light constitutes an identification function that can be confirmed in the body cavity. Further, the respective light irradiation parts of the plurality of surgical instruments blink at different time intervals, and the blinking at different time intervals constitutes an identification function that can be confirmed in the body cavity.

In laparoscopic surgery, a plurality of surgical instruments having different surgical instrument parts such as forceps type surgical instruments, scissors type surgical instruments, female type surgical instruments, and electric scalpel type surgical instruments,
Further, a plurality of the same forceps type may be used. In order to distinguish these surgical instruments from each other, the blinking interval of the light emitted from the light emitting section is made different, and the wavelength is also made different, which facilitates their recognition, and the instruments used by the operator. Can be more easily grasped by the assistant.

The wavelength of light emitted by the light irradiation section 3 of the surgical instrument is, for example, 580 nm to 650 nm for the forceps type surgical instrument 1, and 500 nm for the scissor type surgical instrument 30. 520 nm, and the wavelength irradiated by the electric surgical knife type surgical instrument 40 is 450 nm to 480 nm. The blinking time interval is a predetermined time, for example, 1 to 3.
It is conceivable that the number of times the light is turned off is different for each second.

Next, an explanation will be given of the body cavity endoscopic surgical operation apparatus of the present invention shown in FIG. This body cavity endoscopic surgery device is a distal end portion that is inserted into a body cavity and has a surgical instrument portion at the distal end, and an operation unit 6 that operates the surgical instrument portion outside the body cavity.
And a plurality of body cavity endoscopic surgical instruments 1, 20 and 40 provided at the distal end portion and having a light irradiation portion 3 for illuminating the surgical instrument portions 5, 31, 41 or the front thereof, and a plurality of different wavelengths. The light sources 85a, 85b, 85c, 85d, a power supply circuit for causing the plurality of light sources to emit light, and a plurality of external connection portions 88 for transmitting the light emitted from the plurality of light sources.
a, 88b, 88c, 88d, and a plurality of surgical instruments 1, 20, 40 for connecting the surgical instruments 1, 20, 40 to external connection parts 88a, 88b, 88c, 88d of the power supply device 71. , 79, 41.

As the instrument for surgical operation under the body cavity endoscope 1, 20,
1 to 4 except that as shown in FIG. 7, the light source and its power supply circuit are not provided, and the connection parts 78 and 79 electrically and optically connected to a power supply device 71 described later are provided. The forceps type surgical instrument 1 and the scissors type surgical instrument 20 having the structures shown can be preferably used. Furthermore, FIG.
The female probe section 40a of the electric knife type surgical instrument 40 shown in FIG. Moreover, as a surgical instrument,
The above is an example, and a scalpel type surgical instrument, a laser scalpel type surgical instrument, etc. can be used, for example.

As the power supply device 71, a plurality of light sources 85a, 85b, 85c, 85d having different wavelengths, a power supply circuit for causing these plurality of light sources to emit light, and a plurality of light sources 85 are provided.
A plurality of external connection parts 88a, 88b, 88c, 8 for transmitting the light emitted from a, 85b, 85c, 85d.
8d, and a control circuit 83 electrically connected to the light irradiation switches 13 and 55 and the electric knife energizing switch 55 provided on the surgical instruments 1, 20, and 40 through a connecting portion. The power supply circuit is composed of the control circuit 83, the power supply unit 82, the blinking circuits 89a, 89b, 89c, 89d, and the high frequency current generation circuit 84 for the electric knife as described above. The power supply unit 82 includes the light sources 85a and 85, respectively.
Electric power is supplied to b, 85c, 85d, the control circuit 83, and the high frequency current generation circuit 84. The power supply unit 82 may be provided individually for each light source instead of the shared power supply circuit shown in the drawing.

The wavelength of light emitted by the light irradiation section 3 of the surgical instrument is, for example, 580 nm to 650 nm for the forceps type surgical instrument 1 and 500 nm for the scissor type surgical instrument 30. 520 nm, and the wavelength irradiated by the electric surgical knife type surgical instrument 40 is 450 nm to 450 nm. As the light source, the visible light LED and the visible light laser described above can be preferably used. As described above, with this surgical apparatus, different types of laparoscopic surgical instruments can be irradiated with light of different wavelengths, which makes it easy to distinguish the surgical instruments by type within the body cavity and allows the surgeon to use them. The assistant can more easily grasp the equipment being used.

Next, an explanation will be given of the body cavity endoscopic surgery device of the present invention shown in FIG. This endoscopic surgery device 8
Reference numeral 0 denotes a distal end portion that is inserted into a body cavity and has a surgical instrument portion at the distal end, and an operation portion 6 that operates the surgical instrument portion of the distal end portion outside the body cavity.
And a plurality of body cavity endoscopic surgical instruments 1, 20, 40, which are provided at the distal end portion and have a light irradiation section 3 for illuminating the surgical instrument sections 5, 31, 41 or the front thereof, and a plurality of light sources 85.
a, 85b, 85c, 85d, a power supply circuit having blinking circuits 89a, 89b, 89c, 89d for making the plurality of light sources emit light at different blinking time intervals, and light emitted from the plurality of light sources. Connection for connecting the plurality of external connection parts 88a, 88b, 88c, 88d for transmitting power and the plurality of surgical instruments 1, 20, 40 to the external connection parts 88a, 88b, 88c, 88d of the power supply device 71. It has parts 78, 79 and 41.

The difference between this surgical device and the above-described surgical device of FIG. 7 is that it has a plurality of light sources and a power supply circuit having a blinking circuit for making the plurality of light sources emit light at different blinking time intervals. That is, the wavelengths of the plurality of light sources may all be the same. As shown in FIG. 8, the body cavity endoscope surgical instruments 1 and 20 do not include a light source and its power supply circuit, and a power supply device 71 described later.
The forceps-type surgical instrument 1 and the scissors-type surgical instrument 20 having the structures shown in FIGS. 1 to 4 can be preferably used, except that they are provided with the connection portions 78 and 79 that are electrically and optically connected to each other. Further, the female probe portion 40a of the electric knife type surgical instrument 40 shown in FIG. 5 can be preferably used. Moreover, the above-mentioned thing is illustrated as a surgical instrument, For example, a scalpel type surgical instrument, a laser scalpel type surgical instrument, etc. can also be used.

As the power supply device 81, a plurality of light sources 85
a, 85b, 85c, 85d, a power supply circuit for causing the plurality of light sources to emit light, and a plurality of light sources 85a, 85
a plurality of external connection portions 88a, 88b, 88c, 88d for transmitting light emitted from b, 85c, 85d,
Light irradiation switch 1 provided on surgical instruments 1, 20, 40
It has a control circuit 83 which is electrically connected to 3, 55 and the electric knife energizing switch 55 via a connecting portion. The power supply circuit includes the control circuit 83, the power supply unit 82,
The light source blinking circuits 89a, 89b, 89c and 89d and the high frequency current generating circuit 84 for the electric knife are included. The power supply unit 82 includes the light sources 85a, 85b, 8
Electric power is supplied to 5c, 85d, the control circuit 83, and the high frequency current generation circuit 84. The power supply unit 82 may be provided individually for each light source instead of the shared power supply circuit shown in the drawing.

The blinking circuits 89a, 89b, 89
c and 89d cause the light source to emit light at different time intervals. As a time interval in which the light irradiation part 3 of the surgical instrument 1, 20, 40 blinks, for example, in the forceps type surgical surgical instrument 1, for a predetermined time during lighting, for example, blinking once or twice per second, scissor type surgery. The surgical instrument 30 flashes 4 to 6 times per second while being lit, and further, the electrosurgical knife type surgical instrument 40
Then, it is supposed to blink 10 to 15 times per second during lighting. As the light source, the visible light LED and the visible light laser described above can be preferably used. The blinking may be a simple repetition or an intermittent one. Further, the blinking circuit may be formed integrally with the control circuit. As described above, in this surgical apparatus, since light irradiation is performed for different types of body cavity endoscopic surgical instruments at different blinking intervals, it becomes easy to distinguish the surgical instrument types within the body cavity, and the operator can use it. The assistant can more easily grasp the equipment being used.

[0047]

Next, the operation of the endoscopic surgical instrument according to the present invention will be described with reference to FIGS. 9 to 11 by taking an example of laparoscopic cholecystectomy. In the laparoscopic cholecystectomy operation, first, a pneumoperitoneum (not shown) of a pneumoperitoneum device (not shown) is inserted through the abdominal wall 57 to fill the inside of the abdominal cavity with carbon dioxide gas and inflate the inside of the abdominal cavity. Next, a small incision is made in the abdominal wall 57, and four or five cylindrical tracker cannulas 53 having an inner diameter of 5 mm or 10 mm are inserted into the abdominal cavity. further,
The laparoscope 51 and the laparoscopic surgical instrument of the present invention are inserted into the tracker cannula 53, and the miniature camera 59 portion of the laparoscope 51 and the laparoscopic surgical instrument of the present invention are inserted as shown in FIG. Make sure that the tip of the is located in the abdominal cavity.

Then, under the observation of the monitor 52, the cholecystectomy is performed using the surgical instrument for observing the body cavity of the present invention. Specifically, in this operation, the forceps 1 of the present invention is used when sandwiching the gallbladder and the like, the surgical instrument 30 is used when separating an artery from the gallbladder duct, and the surgical instrument of the present invention is used as the gallbladder. It is used when peeling from the liver bed. And
As shown in FIGS. 9 and 10, the instrument for observing a body cavity according to the present invention is capable of irradiating light from the tip, so that the operator or the assistant can position the instrument or the position of the treatment portion. It is possible to easily understand such things.

[0049]

EFFECTS OF THE INVENTION The body cavity endoscopic surgical instrument according to the present invention has a distal end portion which is inserted into a body cavity and has a surgical instrument portion at the distal end, and an operation for operating the surgical instrument portion of the distal end portion outside the body cavity. Section, and since it is a body cavity endoscopic surgical instrument having a light irradiation section for illuminating the surgical instrument section or the front thereof, which is provided at the distal end section, during the body cavity endoscopic surgery by the operator, depth,
The position of the instrument in the body cavity, the surgical field, the position of the surgical site, the distance from the surgical instrument to the surgical field, the surgical site, the traveling direction of the device, and the like can be easily grasped. Also, for the surgical assistant,
The operator's instructions and policies can be accurately transmitted, which is safe and can shorten the operation time.

[Brief description of drawings]

FIG. 1 is a plan view of an embodiment of the body cavity observing surgical instrument of the present invention.

FIG. 2 is an explanatory diagram for explaining a structure inside a main body portion of the body cavity endoscopic surgical instrument shown in FIG. 1.

[Fig. 3] Fig. 3 is an explanatory view for explaining a structure inside a main body portion of another embodiment of the body cavity endoscope surgical instrument of the present invention.

FIG. 4 is a plan view of an embodiment of a surgical instrument for body arthroscopic surgery according to the present invention.

FIG. 5 is a schematic view showing an embodiment of a surgical instrument for body arthroscopic surgery according to the present invention.

FIG. 6 is an explanatory diagram showing an example of a blinking circuit for blinking the light emitted from the light emitting section of the body arthroscopic surgical instrument of the present invention.

FIG. 7 is a schematic view showing an embodiment of a surgical apparatus for body arthroscopic surgery according to the present invention.

[Fig. 8] Fig. 8 is a schematic view showing another embodiment of the surgical instrument for body arthroscopic surgery of the present invention.

FIG. 9 is an explanatory view for explaining the action of the body cavity observing surgical instrument of the present invention.

FIG. 10 is an explanatory view for explaining the action of the body cavity observing surgical instrument of the present invention.

FIG. 11 is a view showing the concept of conventional body cavity endoscopic surgery.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Body cavity surgical instrument 2 Main body 3 Light irradiation part 4 Power supply 5 Clamping part 6 Operating part 6a Lot 6b Rotating part 6c Handle part 6d Connecting part 10 Power supply part 11 Shaft part 12 Support point 13 Lighting switch 20 Under body cavity mirror Surgical instrument 21 Light source 22 Light guide means 30 Surgical instrument for laparoscopic surgery 31 Shearing section 40 Surgical instrument for laparoscopic surgery 41 Electric scalpel part 42 Power supply device 43 Light guide means 44 Condensing means 45 Light source 46 Light emitting circuit 47 Control Circuit 48 High Frequency Current Generation Circuit 49 Connector

Claims (1)

[Claims] 1. A distal end portion that is inserted into a body cavity and has a surgical instrument portion at the distal end, an operation portion that operates the surgical instrument portion of the distal end portion outside the body cavity, and the distal end portion, A body cavity endoscopic surgical instrument, comprising: a surgical instrument section or a light irradiation section for illuminating the front thereof.