Surgery – Endoscope – With guide means for body insertion
Reexamination Certificate
2000-01-27
2003-02-11
Leubecker, John P. (Department: 3739)
Surgery
Endoscope
With guide means for body insertion
C600S146000, C600S139000, C604S095010
Reexamination Certificate
active
06517477
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a method and a device for performing endoscopy through a catheter introducer system. In particular, the present invention relates to a catheter introducer system for endoscopy designed to reach the cecum portion of the gastrointestinal tract.
DESCRIPTION OF RELATED ART
Endoscopy has become an increasingly important tool in diagnosing and in treating ailments of the gastrointestinal tract, also referred to as the GI tract. Typical endoscopes are essentially formed by a somewhat flexible tube that is pushed through the GI tract, after being introduced in the body cavity starting from the rectum or starting from the esophagus. The endoscope has a steerable tip to facilitate navigation through the GI tract, and typically has to be sufficiently stiff so that it can be pushed further along the body cavity. The tip of the endoscope that is introduced in the GI tract can be outfitted with several devices, most notably an illumination device and a vision device, such as a vision integrated circuit, so that the operator of the endoscope can observe the interior of the GI tract and maneuver the endoscope in the proper position.
Once the endoscope is in position, other tools attached to the endoscope or inserted through the endoscope can be brought to the proper position in the GI tract. Various procedures can then be carried out, such as removing polyps, performing sutures, irrigation, suction, and removing other tissues. The various tools that are used together with the endoscope can be either inserted separately in the GI tract and placed in the proper position independently, or may travel in a working channel of the endoscope, so that once the endoscope is positioned at the desired location in the GI tract, the tools inserted in the endoscope will also easily reach that position.
Endoscopes or other smaller similar devices can also be used to explore other body cavities, for example airways or blood vessels. These probes must be small to fit in the smaller cavities, and care must be taken to avoid damage to the more fragile membranes lining these cavities.
Current state of the art endoscopes are very capable devices, and endoscopy has been very successful in diagnostic and therapeutic applications with the use of current endoscopes and the current arsenal of tools that can be inserted through the working channel of the endoscope, or can be attached to the outside of the endoscope. However, current endoscope technology has limitations and drawbacks. One of the greatest drawbacks of current endoscopes is that the working channel is small. The working channel is small relative to overall diameter of the endoscope, and is further limited by the space taken up by vision, irrigation, suction, light, and control cabling mechanisms that are part of the endoscope and are required to control the endoscope. Thus there is a very small area left for other tools to be introduced through the endoscope.
Current endoscopes are also difficult to maneuver, particularly when the endoscope has to be pushed all the way to a far portion of the intestine, such as the cecum, located at the beginning portion of the large intestine. Currently, reaching the cecum requires training, skill, luck and trial and error on the part of the operator. Current endoscopes have to be maneuvered by pushing them inside the gastrointestinal tract, while steering the far end inside the body cavity. This situation creates an inherently unstable condition, where a long tube is being pushed through a narrow cavity. This requires the endoscope tube to be rather rigid, resulting in discomfort to the patient as the endoscope is maneuvered. Because of this, the patient often must be sedated.
Once the cecum has been reached, additional tools still have to be navigated through the body to reach the location, and if the endoscope is withdrawn from that location to make room for other tools, access has to be reestablished using the same complicated procedure. Current endoscopes tend to be reusable because of the high cost of their components, and thus require thorough cleaning to sterilize them. Sterilization can be difficult to guarantee, and in many instances a disposable device would be preferable.
Accordingly, there is a need for an improved type of endoscope with a introducer system that obviates some of the drawbacks of currently known endoscopes.
SUMMARY OF THE INVENTION
The present invention is directed to a catheter introducer system for endoscopy that substantially obviates one or more of the problems due to limitations and disadvantages of the related art, and that can be used more easily and with less discomfort to the patient. Additional features and advantages of the invention will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the invention. Other advantages of the invention will be realized and obtained by the apparatus and method particularly pointed out in the written description and claims hereof, as well as the appended drawings.
To achieve these and other advantages and in accordance with the purpose of the invention, as embodied and broadly described, the invention is a catheter introducer system for endoscopy tools, which includes a flexible tubular catheter defining a working channel and having a distal end for introduction in a body cavity and a proximal end opposite to the distal end. The introducer system also includes a propulsion section disposed adjacent to the distal end of the catheter and adapted for pulling the catheter through the cavity, as well as a steering section disposed adjacent to the distal end of the catheter and adapted for pointing the distal end in a desired direction. Control means for commanding the operation of the propulsion section and of the steering section are also provided. The proximal end of the catheter has an opening to introduce endoscopy tools in the catheter. The distal end can be tapered, and has another opening to allow the endoscopy tools to exit the catheter and be used within the body cavity. A tool positioning system can also be included in the distal end of the catheter to position the endoscopy tools. A rigid sheath can be used at the entrance of the body cavity to surround the flexible catheter and prevent interference or binding of the flexible catheter at the entrance point of the cavity.
In another aspect, the invention is a method for navigating a catheter introducer for endoscopy in a body cavity by introducing a distal end of the catheter containing a propulsion section into the body cavity, attaching a distal gripper portion of the propulsion section to an inner surface of the body cavity, and reducing a distance between the distal gripper portion and a proximate gripper portion of the propulsion section, the proximate gripper portion being disposed further from the distal end than the distal gripper portion. The next steps include attaching the proximate gripper portion and releasing the distal gripper portion from the inner surface, and increasing the distance between the distal and the proximate gripper portions to extend the distal end further in the body cavity.
In a further aspect, the invention is a method for navigating a catheter introducer for endoscopy in a body cavity that includes introducing a distal end of the catheter containing a propulsion section into the body cavity, disposing a first set of gripping pads of the propulsion section along a rear circumferential position of the catheter, and attaching the first set of gripping pads to an inner surface of the body cavity. This is followed by disposing a second set of gripping pads of the propulsion section along a front circumferential position, closer to the distal end than the rear circumferential position, attaching the second set of gripping pads to the inner surface, and releasing the first set of gripping pads from the inner surface. The process is completed by moving the second set of gripping pads substantially to the rear circumferential posit
Kenyon & Kenyon
Leubecker John P.
Scimed Life Systems Inc.
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