CA2639862A1 - Use of a transluminal endoscope and instruments - Google Patents

Abstract

A use of a transluminal endoscope and instruments is provided, which utilizes an endoscopic apparatus having pivotable arms attached by hinges on its distal end. The arms are interchangeable with arms of various configurations.
The use includes inserting an endoscopic apparatus into a body cavity of a patient, making an incision in the body cavity wall to allow access to the patient's abdominal cavity, and further inserting the apparatus through the incision.
Surgery is performed at the desired surgical site and the apparatus is withdrawn into the body cavity where the incision is closed. Finally, the apparatus is withdrawn from the patient's body.

Description

USE OF A TRANSLUMINAL ENDOSCOPE AND INSTRUMENTS
Field Of The Invention [0001] The present invention relates to the use of a transluminal endoscope and instruments.

Background Of The Invention [0002] The traditional method of abdominal surgery involves creating an incision in a patient large enough so that the surgeon can work with and handle directly the patient's organs and tissues. Unfortunately, this traditional method carries with it a relatively high risk of infection due to the exceptional amount of exposure to which the patient's internal organs are subjected during the surgery.
Other significant drawbacks associated with traditional methods of abdominal surgery are the length of recovery time required for a patient and the significant pain suffered because of the size of the incision.

[0003] These negative effects of surgical treatment were significantly mitigated by the introduction of endoscopic surgery. Endoscopic surgery generally involves making one or more relatively small incisions in a patient's abdomen and then inserting one or more small surgical tools. The surgical tools are generally mounted on one end of a long, thin element having on the other end a handle and a means for actuating or manipulating the surgical tool. The endoscopic surgical tools are also often outfitted with optical and light-delivery channels so that the surgeon can view the area of the surgery.

[0004] While the advent of endoscopic surgical techniques significantly reduced the drawbacks of traditional surgical techniques, endoscopic surgery still involves a relatively high risk of infection, a relatively long recovery period, and significant pain for the patient. Recently, these negative effects have been even further reduced by the introduction of transiuminal endoscopic surgery.

[0005] In transgastric surgery, which is a type of transiuminal surgery which utilizes a patient's gastric tract, an endoscopic tool is inserted into the patient's mouth and fed to the patient's stomach. The wall of the patient's stomach can then be punctured so that the tool can access other parts of the patient's abdomen. An incision in the wall of the stomach is preferable to external incisions because there are no nerve endings in the stomach.
Transluminal endoscopic surgery reduces patient pain and recovery time as well as the risk of infection. In other types of transluminal surgery, the endoscopic tool is inserted into a patient's rectum, colon, or vagina. All or nearly all locations in a patient's abdominal cavity can be accessed via at least one of these body cavities.

(00061 Methods of transluminal surgery traditionally require the use of a complicated endoscopic tool. The endoscopic tool that is inserted into the patient for transluminal surgery generally includes one or more surgical tools, an optical channel, one or more light channels, and/or one or more channels for evacuation or insufflation. The tools often have other unique features. First, they preferably are designed such that insertion into the patient's body is easy and causes the patient a minimum of trauma. Second, the tool preferably provides a means for multiple surgical tools to be used to exert force or perform functions in multiple directions at the surgical site. This is more difficult in transluminal surgery because there is only one possible angle of approach since the tools are preferably inserted in the same place, for example, the patient's mouth. In conventional endoscopic surgery on the other hand, tools can be inserted at multiple locations so that the surgeon has an advantageous `working triangle.' The working triangle allows the surgeon to exert force in multiple directions and therefore better perform surgical tasks. In transluminal surgery it is more difficult to create this working triangle since the tools are inserted parallel to one another.

[0007] There are various examples in the prior art of endoscopic tools which are intended for or could be used in transluminal surgery and which attempt to address the concerns described above. For example, U.S. Patent No.

6,066,090 to Yoon, U.S. Patent No. 6,352,503 to Matsui et al., and U.S. Patent No. 7,029,435 to Nakao all disclose endoscopic surgical apparatuses which can be used in transluminal surgical techniques.

[ooos] A significant drawback which all of these endoscopic surgical systems have in common is that they are complicated to deploy. This disadvantage is particularly important in methods of transluminal surgery because the system must be capable of quickly and easily switching between a state in which the system is easily moved through a patient's body cavities and a state in which the surgical tools are `triangulated.' During a typical transiuminal procedure, the system may be switched between these two states at least three times. The capabilities of the endoscopic tool or tools employed by the surgeon are vital to the ease, efficiency, and ultimately the success of any transiuminal surgical procedure.

[ooo9] Therefore, what is needed is a means to use an endoscope that minimizes the strain on a surgical patient, minimizes the patient's recovery time, reduces the risk to the patient of infection, and is effective for a wide variety of surgical procedures.

Summary Of The Invention [00010] It is an object of the present invention to provide a use of a transiuminal endoscope and instruments which minimizes the strain on a surgical patient.

[00011] It is a further object of the present invention to provide a use of a transiuminal endoscope and instruments which minimizes the patient's recovery time.

[00012] It is yet a further object of the present invention to provide a use of a transiuminal endoscope and instruments which reduces the risk to the patient of infection.

[00013] It is still a further object of the present invention to provide a use of a transluminal endoscope and instruments which is effective for a wide variety of surgical procedures.

[00014] These and other objects are accomplished by one embodiment of the present invention which provides a use of a transiuminal endoscopic apparatus, comprising: providing an endoscopic apparatus including a tubular member having a plurality of channels along its longitudinal axis, a handle located on a proximal end of the tubular member, two or more arms pivotably connected to a distal end of the tubular member by hinges, wherein said arms have guiding channels passing therethrough adapted to receive endoscopic tools; passing a first endoscopic tool through one of said guiding channels, wherein said first endoscopic tool is able to create an incision sized to accommodate the tubular member; pivoting the arms about the hinges into an open position using a mechanism on the handle such that the guiding channels passing through the arms create a desired degree of triangulation for endoscopic tools disposed in the guiding channels; operating at least one triangulated endoscopic tool; and pivoting the arms about the hinges into a closed position using a mechanism on the handle.

[00015] In some embodiments, the step of creating an incision in a body cavity wall further comprises the steps of pivoting the arms about the hinges into an open position using a mechanism on the handle such that the guiding channels passing through the arms create a desired degree of triangulation for endoscopic tools disposed in the guiding channels; using at least one endoscopic tool to create the incision; and pivoting the arms about the hinges into a closed position using a mechanism on the handle.

[00016] In some embodiments, the step of creating an incision in a body cavity wall further comprises the steps of advancing an endoscopic tool from the tubular member through an opening between the arms, wherein the arms include a ramp for deflecting the endoscopic tool; using the endoscopic tool to create the incision; and withdrawing the endoscopic tool into the tubular member.

[00017] In some embodiments, the step of providing an endoscopic apparatus further comprises that the arms are interchangeable with arms of different configurations and also includes the step of selecting two arms having a desired configuration from a group of interchangeable arms of different configurations. In some embodiments, the step of providing an endoscopic apparatus further comprises that one of the channels is an optical channel for the transmission of images and at least one other of the channels is an illumination channel for the transmission of light and when the arms are in the closed position an opening is defined for viewing of an area proximal to the distal end via the optical channel and illumination of an area proximal to the distal end via the at least one illumination channel; and the step of advancing the distal end of the tubular member to a desired surgical site further comprises the step of using the optical channel to view an area proximal to the distal end of the tubular member.

[oools] In some embodiments, the step of passing a first endoscopic tool through one of said guiding channels further comprises the steps of pivoting the arms about the hinges into an open position using a mechanism on the handle such that the guiding channels passing through the arms create a desired degree of triangulation for the first endoscopic tool disposed in the guiding channel;
operating the first endoscopic tool; and pivoting the arms about the hinges into a closed position using a mechanism on the handle.

[00019] In some embodiments, the step of passing a first endoscopic tool through one of said guiding channels further comprises: advancing the first endoscopic tool from the tubular member through an opening between the arms, wherein the arms include a ramp for deflecting the endoscopic tool; operating the first endoscopic tool; and withdrawing the endoscopic surgical tool into the tubular member.

[00020] In some embodiments, the use further comprises pivoting the arms about the hinges into an open position using a mechanism on the handle so as to provide a wider view of an area proximal to the distal end via an optical channel disposed in the tubular member.

[00021] In some embodiments, the use further comprises insufflating a cavity in the region adjacent to the distal end of the tubular member using an insufflation channel disposed in the tubular member; and monitoring the pressure in the cavity in the region adjacent to the distal end of the tubular member via an insufflation channel disposed in the tubular member.

[000221 In some embodiments, the use further comprises introducing a device for delivery of fluid or gaseous matter through a channel in the tubular member for the delivery of fluid or gaseous matter to a region adjacent to the distal end of the tubular member.

[000231 In some embodiments, the use further comprises providing an endoscopic retrieving bag for the removal of material from a region adjacent to the distal end of the tubular member.

[000241 In some embodiments, the operating at least one triangulated endoscopic tool comprises attaching a clip in a region adjacent to the distal end of the tubular member.

[00025] In some embodiments, the operating at least one triangulated endoscopic tool comprises forming a stitch in a region adjacent to the distal end of the tubular member.

[000261 In some embodiments, the operating at least one triangulated endoscopic tool comprises cauterizing a region adjacent to the distal end of the tubular member.

[00027] In some embodiments, the operating at least one triangulated endoscopic tool comprises employing a laser in a region adjacent to the distal end of the tubular member.

[000281 In some embodiments, the providing an endoscopic apparatus further comprises that the distal end of the tubular member articulates.

[00029] In some embodiments, the use further comprises articulating the distal end of the tubular member into a desired position relative to a region adjacent to the distal end of the tubular member.

[00030] In some embodiments, pivoting the arms about the hinges into an open position a first and a second time further comprises displacing material using the arms.

[00031] In some embodiments, providing an endoscopic apparatus further comprises that the arms are interchangeable with arms of different configurations; and further comprises selecting two arms having a desired configuration from a group of interchangeable arms of different configurations.

[00032] In some embodiments, selecting two arms having a desired configuration includes selecting arms adapted to grasp material.

[00033] In some embodiments, selecting two arms having a desired configuration includes selecting arms adapted to cut material.

[00034] In some embodiments, selecting two arms having a desired configuration includes selecting arms which form an obturator shape when the arms are in a closed position.

[00035] In some embodiments, providing an endoscopic apparatus further comprises that one of said channels is an optical channel for the transmission of images and at least one other of said channels is an illumination channel for the transmission of light and wherein when the arms are in a closed position an opening is defined for viewing of an area proximal to the distal end via said optical channel and illumination of an area proximal to the distal end via said at least one illumination channel; and the use further comprises using the optical channel to view an area proximal to the distal end of the tubular member.

[00036] In some embodiments, the use further comprises using the arms to hold material removed from a region adjacent to the distal end of the tubular member.

Brief Description Of The Drawings [00037] FIG. 1 is a perspective view of an endoscopic apparatus for use according to one embodiment of the present invention.

[00038] FIG. 2 is a perspective view of the distal end of the endoscopic apparatus of FIG. 1 showing the arms in an open position and surgical tools protruding from the working channels therein.

[00039] FIG. 3 is a perspective view of the distal end of the endoscopic apparatus of FIG. 1, with arms in a closed position.

[0004o] FIG. 4 is an end view of the distal end of the endoscopic apparatus of FIG. 1, with arms in a closed position.

[00041] FIG. 5 is a perspective view of the handle on the proximal end of the endoscopic apparatus of FIG. 1.

[00042] FIG. 6 is a second perspective view of the handle on the proximal end of the endoscopic apparatus of FIG. 1.

[00043] FIG. 7 is a schematic view of the endoscopic apparatus of FIG. 1 being inserted into the esophagus of a patient.

[oo044] FIG. 8 is a schematic view of the distal end of the endoscopic apparatus of FIG. 1 in the stomach of a patient.

[00045] FIG. 9 is a schematic view of the endoscopic apparatus of FIG. 1 being used in a gallbladder dissection according to one embodiment of the present invention.

Detailed Description Of The Drawings [00046] The use of a transiuminal endoscope and instruments according to an embodiment of the present invention utilizes an endoscopic apparatus such as apparatus 10 shown in Figure 1. The endoscopic apparatus 10 includes tubular member 11 and handle 12 which is located on a proximal end 31 of tubular member 11. At the distal end 30 of tubular member 11 is a head portion 13 of the apparatus 10, having two pivotable arms 14a and 14b fixed thereon.
The arms 14a and 14b are attached by hinges to the head portion 13 of the apparatus 10. Two surgical tools 25a and 25b are also shown in Figure 1. The surgical tools 25a and 25b are shown inserted into the endoscopic apparatus 10 at proximal terminals 22 of working channels running along the longitudinal axis of the tubular member 11. The surgical tools utilized with apparatus 10, such as tools 25a and 25b, generally have tools and articulating portions on their distal ends which are controlled using a handle portion on a proximal end.

[00047] The term "tubular member" as used throughout this application refers to many possible configurations. In one embodiment, the tubular member 11 has a shaft at its proximal end that is attached to the handle 12 and is substantially inflexible. Attached to the shaft portion is a series of articulating vertebrae, the articulation of which is controlled by the surgeon using control mechanisms on the handle. In that embodiment, the head portion 13 is either the last vertebra of the series of vertebrae or a special member attached to the last vertebra. In another embodiment, the tubular member 11 could be a single element, constructed out of a flexible material designed to have a selected degree of plasticity and elasticity. In that embodiment, the head portion 13 may or may not be a separate element distinct from the tubular member 11, but merely the most distal portion of the tubular member 11.

[00048] Figure 2 shows a close-up view of the head portion 13 of the endoscopic apparatus 10. Arms 14a and 14b are shown in an open position.
The arms 14a and 14b include the guiding channels 16a and 16b, which align with working channels passing through tubular member 11 (not visible in Figure 2). Guiding channels 16a and 16b receive and guide surgical tools 25a and 25b which are shown protruding from the guiding channels 16a and 16b. The angle of arms 14a and 14b determines the angle that surgical tools 25a and 25b approach a surgical site. The surgeon may select an angle for the arms 14a and 14b such that the surgical tools 25a and 25b emerge parallel to each other, at an angle less than parallel, or at an angle more than parallel. The configuration of arms 14a and 14b will affect the degree to which the arms can be opened. In the embodiment shown in Figure 2, arms 14a and 14b have tissue displacing members 26a and 26b formed on their outer surface for manipulating and displacing tissue. In many embodiments, arms 14a and 14b do not include displacing members 26a and 26b but such arms are still advantageously used to temporarily displace and manipulate tissue. Further, in some embodiments the head portion 13 of an endoscopic apparatus 10, including the arms 14a and 14b, is electrically isolated so as to enable electrosurgical procedures.

[00049] Figure 2 also shows the distal terminals of channels 15a-d, wherein channel 15a is an optical channel, channel 15b is a third working channel, channels labeled 15c are illumination channels, and channel 15d is a fluid or air channel. In general, illumination channels 15c provide light to the surgical site so that the surgeon may view the site via the optical channel 15a.
Fluid or air channel 15d may be used to deliver air, water, pharmaceutical fluids, or the like to the surgical site. Fluid or air channel 15d is used in some embodiments to provide insufflation in the vicinity of the distal end 30 of the apparatus 10. In some embodiments, working channel 15b is used for insufflation. Fluid or air channel 15d may also be used as a means for sensing the ambient pressure at the surgical site. Alternatively, pressure-sensing may be accomplished at other points on the head portion 13. The third working channel 15b may be advantageously employed as a means for evacuating fluids from the surgical site. In some embodiments, small particles of solid matter may also be evacuated by channel 15b.

[0005o] The third working channel 15b does not pass through the guiding channels 16a and 16b in arms 14a and 14b. This gives the surgeon the ability to easily exert force in directions parallel to the axis of the tubular member 11.
Thus, the surgeon is provided with the ability to exert force in many directions at the surgical site: forward or backward along the axis of the tubular member 11 or at various angles according to the angles of arms 14a and 14b.

[00051] Figure 3 shows head portion 13 of the endoscopic apparatus 10 with arms 14a and 14b in a closed position. A hinge 24 is shown, which pivotably connects the arm 14b to the head portion 13. Arm 14a is connected to tubular member 11 in the same fashion, however this connection is not shown in Figure 3. In the closed position, arms 14a and 14b provide a ramp for a surgical tool or instrument passing through working channel 15b in some embodiments.

This ramp is formed by the shape of the arms 14a and 14b or by protruding members formed on the inner surface of the arms 14a and 14b. This ramp brings the tool or instrument directly into the field of view of optical channel 15a.

[00052] Figure 4 shows an alternative view of the head portion 13 of the endoscopic apparatus 10 with arms 14a and 14b in a closed position. This view shows one advantageous configuration of the apparatus 10, in which when the arms 14a and 14b are in a closed position, they define an opening 17. The opening 17 allows for utilization of the optical channel 15a, the fluid delivery channel 15d, and at least one of the illumination channels 15c in this embodiment even when the arms 14a and 14b are in a closed position. This allows a surgeon to more safely and effectively employ the endoscopic apparatus 10, for example, during insertion of the apparatus into the body of a patient.
Also, as stated above, the arms 14a and 14b provide a ramp for a surgical tool emerging from working channel 15b.

[00053] Methods according to the present invention require the performance of a variety of surgical tasks. In order to maximize the efficiency of these methods, the apparatus 10 is advantageously employed in methods according to the present invention using arms of various configurations. The various configurations of arms are interchangeable in the endoscopic apparatus and one set of arms can be easily substituted for another set. Because of the wide variety of surgical procedures which employ the method according to the present invention, arms having different configurations are desirable for optimal performance of the system. The optimal arm configuration depends, for example, on such things as the organ on which surgery is to be performed, the type of surgery to be performed, or the condition of the patient.

[00054] For example, in some embodiments the arms 14a and 14b are constructed out of transparent material so that the optical channel 15a and the illumination channels 15c may be utilized even when the arms are in a closed position. In such a design, the opening 17 shown in Figure 4 may not be necessary and the arms 14a and 14b could completely cover the head portion 13 of the endoscopic apparatus 10. This configuration further eases insertion of the system into a patient. As a second example, in some embodiments the outer surface of the arms provides a means for tissue manipulation at the surgical site.
The outer surface could have members formed thereon for displacing tissue. In such a case, the arms are used to move tissue aside or obtain the desired degree of stretching of tissue. In a further example, the arms may also grasp tissue or organs to stabilize or remove them from the surgical site. Finally, some arm configurations may include a blade for snipping or cutting tissue. Certain arm configurations will perform these tasks better than other configurations.
Thus, it is highly desirable to have the ability to interchange the arms located on the head portion 13 or even the entire head portion itself.

[oo055] Most arm configurations that are advantageously employed in the present invention have a shape such that when the arms are in a closed position, they act as an obturator or blunt-tip trocar. This obturator or blunt-tip trocar shape allows for easier insertion into the body because arms of this shape will harmlessly and temporarily displace tissue during insertion.

[00056] Figures 5 and 6 show a close-up view of the handle 12 according to one embodiment of the invention. The handle 12 is attached at a proximal end of tubular member 11. The proximal terminals 22 of working channels 16a, 15b, and 16b as well as the proximal terminals 21 of the fluid or air channel 15d are shown. Camera controls 19 for controlling optical components utilizing the optical channel 15a are shown in Figure 5. In some embodiments, the camera controls 19 control the degree of focus and zoom of the camera so that the surgeon is ensured a clear view of the surgical site. In some embodiments of the present invention, the system is advantageously adapted to permit video recording of the surgery for later analysis or educational purposes. Figures 5 and 6 also show dial controls 40 and 41 which control the articulation and positioning of the distal end of the apparatus 10.

[00057] Figure 6 also shows control switch 20 for controlling the position of the arms on the distal end. The control switch 20 may be of the sliding type as shown, a rotatable knob type, or any other appropriate design. In some embodiments, this switch advantageously has a locking mechanism so that the arms can be locked in a position selected by the surgeon.

[00058] The following is an exemplary use of the endoscopic apparatus in the performance of a gallbladder dissection according to the present invention.
Figures 7-9 show illustrations at key points in the method. First, an endoscopic apparatus is provided and appropriate pivotable arms are selected. The configuration of the arms will depend on the particular surgery, and could include arms adapted to grasp, cut, and/or displace tissue. Then, as shown in Figure 7, the endoscopic apparatus 10 is inserted into a patient's mouth 50 and advanced down the patient's esophagus 51. During this step, the arms are in a closed position to minimize strain and trauma on the patient. The endoscopic apparatus is advanced into the stomach 52. The apparatus is guided during insertion with a high degree of accuracy even when the arms are in the closed position using the optical and illumination channels. This is possible either because of the advantageous opening 17 present between the pivotable arms 14 or because the arms 14 are constructed out of a transparent material.

[000591 Once the distal end of the apparatus 10 reaches the stomach, the anterior gastric wall 53 is identified. It is intended that the apparatus 10 will be moved through an incision made at the appropriate location in this part of the stomach. To make the necessary incision 54, the arms 14a and 14b of the apparatus 10 are pivoted about their hinges into an open position and a deflectable hook or cutting needle 55 is advanced through one of the working channels of the apparatus 10. The hook or cutting needle 55 is then used to create a gastrotomy 54 sized to accommodate the endoscopic apparatus 10.
Once this is done, the arms 14a and 14b are pivoted about their hinges to a closed position, creating the obturator or blunt-tip trocar shape, and the distal end of the apparatus is advanced through the gastrotomy and into the peritoneal cavity.

[000601 In some embodiments, the incision 54 is created by advancing a tool 55 in the working channel 15b and making the incision 54 with the arms 14a and 14b in a closed position. The tool 55 will, in some embodiments, be deflected by a ramp formed by the arms 14a and 14b when they are in a closed position. The tool 55 will be brought into the surgeon's field of view and the proper incision 54 may be made.

[00061] Once inside the peritoneal cavity, the arms are pivoted about their hinges into an open position if a wide view via the optical channel is desired.
The distal end is then articulated in a`retroflex' maneuver in order to access the right upper abdominal quadrant and to identify the gallbladder 56. During this process, insufflation is often desired and is accomplished using a channel of the endoscopic apparatus (such as the fluid delivery channel 15d). The intra-peritoneal pressure is also monitored using a channel of the endoscopic apparatus. In some embodiments, the pivoting of the arms also serves to displace tissue to a selected degree to achieve a desired amount of stretching or to create more room for the performance of surgical tasks.

[00062] The gallbladder 56 is then manipulated using surgical tools 25a and 25b introduced through the working channels and the guiding channels 16a and 16b of the arms. A third surgical tool 58, such as an irrigation-aspiration device, may be introduced through the third working channel 15b. Triangulation of the surgical tools is achieved as a result of the angle of the arms in their open position.

[00063] The gallbladder 56 and its pedicle are dissected using a blunt coagulation tip on one of the surgical tools. The cystic duct is isolated, clipped, and divided with articulated scissors. After completing the dissection of the gallbladder from the liver, the gallbladder is placed in an endoscopic retrieving bag 57 which was advanced to the surgical site parallel to the endoscopic apparatus 10. In some embodiments, the endoscopic retrieving bag 57 is advanced down the working channel 15b and then expanded as it exits the apparatus 10. Once the gallbladder is in the bag 57, in such embodiment, it may be held between and within the arms 14a and 14b in a closed position while the apparatus 10 is withdrawn from the patient. Many other surgical tasks are possible using surgical tools introduced through the working channels. Such surgical tools include cauterizing tools, lasers, clippers, cutters, and the like.

[00064] The surgical tools are withdrawn from the surgical site and back through the guiding channels 16a and 16b so that the arms may be pivoted into a closed position. The apparatus 10 and the retrieving bag 57 are withdrawn from the peritoneal cavity into the stomach. Once the apparatus 10 is again in the stomach 52, the arms are pivoted to an open position which again creates triangulation of the surgical tools which are necessary to close the gastrotomy 54. The gastrotomy 54 is closed by such means as surgical clips, suture, endoloop, or the like. In some embodiments, the configuration of the arms includes a suturing system incorporated into the arms themselves.

[00065] In order to remove the retrieving bag containing the gallbladder through the patient's mouth, the apparatus 10 must first be completely removed.
After closing the gastrotomy 54, the arms of the apparatus 10 are pivoted into a closed position and the apparatus 10 is completely withdrawn from the body of the patient. Finally, the retrieving bag 57 is withdrawn via the patient's mouth.

[00066] In addition to gallbladder dissection procedures such as that just described, the uses of the present invention are applied to a wide variety of other surgical procedures. These procedures include, but are not limited to, appendectomy, splenectomy, mucosectomy, cholecystectomy, liver resection, small bowel enteroscopy, small bowel resection, tubal ligation, gastrointestinal fistulas, peritoneoscopy, fundoplication, gastroplasty, gastro-entero-anastomosis, adrenalectomy, common bile duct exploration, ileo-cecal resection, ileoplasty, and endoluminoplasty.

[00067] Some embodiments of the use according to the present invention are performed under robotic or electronic control. This allows for highly precise and effective remote surgery.

[00068] The simplicity of the use of the present invention is well illustrated by an analogy to traditional laparoscopic methods. In a traditional laparoscopic method, a trocar having a tip and sheathed in a cannula is inserted into the patient's abdomen. In order to proceed with the surgery, the tip must be removed so that surgical tools will have access to the surgical site. The use of the present invention is much simpler, as the blunt-tip trocar shaped arms are quickly and easily pivoted into and out of position. Thus, it is not necessary to completely withdraw a trocar tip or the surgical instruments every time the instrument reaches a surgical site or must be advanced further within the patient's body.

[00069] Thus, the use of the transluminal endoscope and instruments of the present invention are substantial improvements over the prior art. The present invention simplifies transluminal surgery and thus improves the safety and effectiveness of transluminal surgical procedures. The risk of infection, the recovery time, and the pain associated with surgery are all reduced.

[00070] Although the invention has been described with reference to a particular arrangement of parts, features, steps, and the like, these are not intended to exhaust all possible arrangements of features or steps, and indeed many other modifications and variations will be ascertainable to those of skill in the art.

Claims (20)

What is claimed is:

1. Use of a transluminal endoscopic apparatus, comprising:
providing an endoscopic apparatus including a tubular member having a plurality of channels along its longitudinal axis, a handle located on a proximal end of the tubular member, two or more arms pivotably connected to a distal end of the tubular member by hinges, wherein said arms have guiding channels passing therethrough adapted to receive endoscopic tools;
passing a first endoscopic tool through one of said guiding channels, wherein said first endoscopic tool is able to create an incision sized to accommodate the tubular member;
pivoting the arms about the hinges into an open position using a mechanism on the handle such that the guiding channels passing through the arms create a desired degree of triangulation for endoscopic tools disposed in the guiding channels;
operating at least one triangulated endoscopic tool; and pivoting the arms about the hinges into a closed position using a mechanism on the handle.

2. The use of claim 1, wherein the step of passing a first endoscopic tool through one of said guiding channels further comprises the steps of pivoting the arms about the hinges into an open position using a mechanism on the handle such that the guiding channels passing through the arms create a desired degree of triangulation for the first endoscopic tool disposed in the guiding channel;
operating the first endoscopic tool; and pivoting the arms about the hinges into a closed position using a mechanism on the handle.

3. The use of claim 1, wherein the step of passing a first endoscopic tool through one of said guiding channels further comprises:
advancing the first endoscopic tool from the tubular member through an opening between the arms, wherein the arms include a ramp for deflecting the endoscopic tool;
operating the first endoscopic tool; and withdrawing the endoscopic surgical tool into the tubular member.

4. The use of claim 1, further comprising pivoting the arms about the hinges into an open position using a mechanism on the handle so as to provide a wider view of an area proximal to the distal end via an optical channel disposed in the tubular member.

5. The use of claim 1, further comprising:
insufflating a cavity in the region adjacent to the distal end of the tubular member using an insufflation channel disposed in the tubular member; and monitoring the pressure in the cavity in the region adjacent to the distal end of the tubular member via an insufflation channel disposed in the tubular member.

6. The use of claim 1, further comprising introducing a device for delivery of fluid or gaseous matter through a channel in the tubular member for the delivery of fluid or gaseous matter to a region adjacent to the distal end of the tubular member.

7. The use of claim 1, further comprising providing an endoscopic retrieving bag for the removal of material from a region adjacent to the distal end of the tubular member.

8. The use of claim 1, wherein operating at least one triangulated endoscopic tool comprises attaching a clip in a region adjacent to the distal end of the tubular member.

9. The use of claim 1, wherein operating at least one triangulated endoscopic tool comprises forming a stitch in a region adjacent to the distal end of the tubular member.

10. The use of claim 1, wherein operating at least one triangulated endoscopic tool comprises cauterizing a region adjacent to the distal end of the tubular member.

11. The use of claim 1, wherein operating at least one triangulated endoscopic tool comprises employing a laser in a region adjacent to the distal end of the tubular member.

12. The use of claim 1, wherein the providing an endoscopic apparatus further comprises that the distal end of the tubular member articulates.

13. The use of claim 12, further comprising articulating the distal end of the tubular member into a desired position relative to a region adjacent to the distal end of the tubular member.

14. The use of claim 1, wherein the pivoting the arms about the hinges into an open position a first and a second time further comprises displacing material using the arms.

15. The use of claim 1, wherein the providing an endoscopic apparatus further comprises that the arms are interchangeable with arms of different configurations; and further comprises selecting two arms having a desired configuration from a group of interchangeable arms of different configurations.

16. The use of claim 15, wherein the selecting two arms having a desired configuration includes selecting arms adapted to grasp material.

17. The use of claim 15, wherein the selecting two arms having a desired configuration includes selecting arms adapted to cut material.

18. The use of claim 15, wherein the selecting two arms having a desired configuration includes selecting arms which form an obturator shape when the arms are in a closed position.

19. The use of claim 1, wherein the providing an endoscopic apparatus further comprises that one of said channels is an optical channel for the transmission of images and at least one other of said channels is an illumination channel for the transmission of light and wherein when the arms are in a closed position an opening is defined for viewing of an area proximal to the distal end via said optical channel and illumination of an area proximal to the distal end via said at least one illumination channel; and the use further comprises using the optical channel to view an area proximal to the distal end of the tubular member.

20. The use of claim 1, further comprising using the arms to hold material removed from a region adjacent to the distal end of the tubular member.