Surgery – Instruments – Means for removing tonsils – adenoids or polyps
Reexamination Certificate
1999-12-07
2002-05-07
Mancene, Gene (Department: 3732)
Surgery
Instruments
Means for removing tonsils, adenoids or polyps
C606S110000
Reexamination Certificate
active
06383198
ABSTRACT:
The present invention is directed to a vacuum grabbing device used to grip and maneuver a suspect area within a body cavity. More specifically, the invention is directed to a vacuum device for gripping a suspect lesion found in a body cavity and positioning it so that it can be excised and withdrawn from the body cavity.
DESCRIPTION OF RELATED ART
Endoluminal procedures have become very common, and millions of these procedures are performed each year in hospitals around the world. An endoluminal procedure is a medical procedure that takes place within one of the many tube-like cavities, also called lumens, that are present within the human body. Endoluminal procedures may take place in vascular, gastrointestinal, or air exchange lumens, and may involve disease diagnosis as well as treatment of certain diseases.
Endoluminal procedures are often performed by using a device known as the endoscope. An endoscope is a tube, either rigid or flexible, which is introduced through an opening into a lumen in the human body. In the case of the gastrointestinal passage, the endoscope can be inserted either through the mouth or through the rectum. The endoscope may be used simply to hold the lumen open for examination, but often also carries light and vision systems, so that the operator can see within the lumen. The endoscope also often includes a working channel, usually formed within the body of the endoscope, so that the surgeon can insert and withdraw other instruments and diagnostic or treatment devices through the endoscope, to easily reach the position within the lumen being observed by the endoscope.
One important use of the endoscope is to allow the surgeon to view the patient internally, even when the portion of the patient's body cavity to be viewed is not in a direct line of sight from outside of the body. For this purpose, endoscopes typically contain a lens coupled to a visual display device by fiber optic cables, so that the body cavity in front of the endoscope can be remotely viewed on a TV screen. This common procedure is known as laparoscopy, and involves inserting the endoscope into the patient through a small incision made by the doctor, or alternatively through natural body openings like the colon or the esophagus.
Another common application of endoluminal procedures is the removal of tumors or of suspected tumor lesions inside the body cavity. In a conventional retrieval operation, an endoscope is inserted into an internal cavity of the patient, such as the colon. The endoscope is used to identify and locate the suspect region within the internal cavity, so that the suspect area can be removed. Conventionally, graspers have been used to grip tissue and draw it into a device for excision. Staples are then used to close the opening so that it may heal more effectively. The graspers are manipulated from outside the body and the cutting and stapling operations also are controlled and manipulated from outside the patient's body. Tiny grippers are generally used to grasp the lesion, but their positioning and the amount of tissue they grip is inaccurate, and often too much or too little tissue is removed.
The use of endoscopes typically reduces the size of the incision needed to perform a surgical procedure, thus allowing the patient to recover faster. In some cases no incision is necessary, since the endoscope is introduced through an existing body opening. Various types of tools such as cutters, vacuum suction devices, and other tools can be inserted through a working channel of an endoscope, and can be operated by the surgeon as they are guided to the appropriate section of the body cavity through the working channel of the endoscope. The tools are manually steered by the surgeon from the proximal end of the endoscope, i.e., the end remaining outside of the body. Other devices such as fiber optic cables used to carry illumination and images are generally part of the endoscope itself, and do not intrude in the working channel of the endoscope.
One specific tool that can be used in conjunction with the endoscope is the full thickness resectioning device, or FTRD. The FTRD is inserted in the body cavity, and has a working channel through which an endoscope and other tools can be inserted. The endoscope is advanced under visual observation until a desired location is visible. The FTRD is then pushed along the endoscope to the proper location within the body cavity, at which point other devices may be inserted through the working channel of the FTRD to the endoscope's location. The tissue to be removed is drawn into a chamber of the FTRD and then cut away from the surrounding healthy tissue while ensuring that no part of the tissue to be removed remains within the body cavity. The FTRD simultaneously staples together the severed sides of the healthy tissue to close up the wound and promote healing. Alternatively, the tissue may be stapled around the tissue to be removed before cutting. This procedure may eliminate the need for surgery and expedites recovery. However, one difficulty of using the FTRD to remove a tumor is that it may be difficult to bring the entire tumor into the chamber, and to ensure that no part of the tumor has been left in the body cavity.
When a biopsy or a resectioning is performed either using an FTRD or another biopsy device, the device is required to grip the suspect tissue before it is cut away. When the FTRD is used, the wound left by the removal of a large suspect section of tissue is closed by stapling together the surrounding healthy tissue so it may heal more easily. However, when a biopsy is conducted, the sample taken is generally much smaller, and therefore it is not necessary to use staples to close the wound. In both cases, it is important to grip the proper amount of tissue, so that the suspect portion of body cavity tissue is accurately pulled away from the wall of the body cavity lumen.
SUMMARY OF THE INVENTION
The present invention is directed to a vacuum grabber device that substantially obviates one or more of the problems due to the limitations and disadvantages of the related art, and can be used to more easily and accurately remove suspect areas in body cavities. 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 vacuum grabber device adapted for use with an insertion device inserted in the body cavity, comprising a vacuum line slidable within a working channel of the insertion device and having a distal end insertable in the insertion device, a substantially transparent flexible cup attached to the distal end of the vacuum line foldable to fit within the working channel and deployable to a configuration substantially funnel shaped, means for applying a vacuum to the flexible cup, and means for positioning the deployed flexible cup within the body cavity such that the flexible cup can hold a selected inner portion of the body cavity by vacuum, and can be at least partially withdrawn into the insertion device while holding the selected inner portion. A vision device is used to view the selected inner portion of the body cavity through the flexible cup.
In another embodiment, the invention is a method for removing a selected portion of tissue from a surface of a body cavity, having the steps of inserting into the body cavity an insertion device, advancing through the insertion device a substantially transparent flexible cup in a folded configuration within the insertion device, deploying from the insertion device the flexible cup in a substantially funnel shaped configuration, and visually positioning the deployed flexible cup adjac
Fay Kaplun & Marcin LLP
Mancene Gene
Priddy Michael B.
SciMed Life System, Inc.
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