The present invention relates to devices and methods for minimally invasive stabilization, manipulation and/or removal of body cavities or organs in the body through natural body orifices. More specifically, the invention relates to delivering a magnet or magnetic fluid into the body cavity or organ, fixating the position of the body cavity or organ with an opposing magnetic retrieval device, ligating and then subsequently removing the body cavity or organ through a natural body orifice.
Laparoscopic and endoscopic surgical procedures are minimally invasive procedures in which operations are carried out within the body by means of elongated instruments inserted through small entrance openings in the body. The initial opening in the body tissue, to allow passage of endoscopic instruments to the interior of the body may be a natural passageway of the body such as the esophagus or rectum. The initial opening in the body tissue to allow passage of laparoscopic instruments may be created by a tissue piercing instrument such as a trocar, a scalpel or a needle.
Laparoscopy was initially used by gynecologists to diagnose and treat conditions relating to the female reproductive organs: uterus, fallopian tubes, and ovaries. It is now used for a wider range of procedures, including operations that in the past required open surgery, and is now the preferred method in procedures such as removal of the appendix (appendectomy) and gallbladder removal (cholecystectomy). Laparoscopy allows multiple surgical instruments and tools to be inserted through separate incisions to perform procedures. Often one instrument can be used to isolate or grasp a tissue while another is used for resection or removal. However, these additional benefits are achieved at the cost of increased invasiveness. Access paths must be created for the instruments with the use of trocars requiring general anesthesia, risk of complications and infection, and increased overall recovery time for the access paths to heal. In addition, access may be difficult or contraindicated in some patients, particularly in the morbidly obese. Additionally, the abdomen must be insufflated with a gas to separate organs and the abdominal walls in order to create an operating space for the laparoscopic instruments to maneuver in. This gas insufflation can be difficult because the gas is constantly leaking and can cause additional discomfort for the patient.
Endoscopy is a form of minimally invasive procedure wherein the interior of the body is accessed and visualized through a body's natural body orifice (NO), such as the esophagus or rectum. Such access allows a surgeon or physician to view and/or treat internal portions of the orifice or internal tissues or organs which are accessible through the orifice. These procedures may be for diagnostic purposes, such as visual inspection or the removal of a tissue sample for biopsy, or the procedure may be used for treatment purposes, such as the removal of a polyp or tumor or the restructuring of tissue. While these procedures can be done using regular open surgery and/or laparoscopy, endoscopy usually may involve less pain, less risk, less scarring, and faster recovery for the patient.
However the use of endoscopy through the mouth, rectum, bladder or vagina to remove, for example, the appendix (appendectomy) or gallbladder (cholecystectomy) is not common because these types of pedunculated structures such as the appendix and gall bladder are not easily accessible from inside natural body orifices. Because surgeries through NO require compact, flexible instruments with limited mobility and degrees of operating freedom and because there may be only a single instrument operating in one or two axes, the isolation, fixation, manipulation and subsequent removal of these body organs can be difficult. It may be helpful to have other instruments that can attach to these organs and assist in organ removal. These difficulties can be compounded if little or no insufflation is used, which may further decrease maneuverability and visibility.
Therefore a device and method to locate, isolate and retract a targeted tissue in a relatively stable fixed position prior to further intervention may be helpful. Additionally the ability to manipulate an organ using separate tools other than the NO instrument to expose an optimal surgical site may facilitate resection of that organ. Even though access to these organs through natural body orifices is less traumatic and potentially safer, the devices and methods to perform these surgeries have not been available.
Thus, it would be desired to provide an improved method, with devices and systems to perform minimally invasive surgery, particularly appendectomies and cholecystectomies, through natural body orifices. Particularly, methods, devices and systems which would provide the benefits of endoscopy, such as lower invasiveness and access to deeply internal locations, with the benefits of laparoscopy.
The preferred methods, devices and systems described herein provide for minimally invasive stabilization, manipulation and removal of body cavities, organs, tissue, growths or structures in the body through natural body orifices. Accordingly, an objective of this invention is to facilitate access, retraction, stabilization, and manipulation of body cavities using magnetic retrieval devices and methods Preferably, one aspect of the invention relates particularly to accessing the appendix or gall bladder and introducing a magnet into these structures. This magnet may be magnetically coupled to a retrieval device introduced to the abdominal space through a NO, across the skin or through the skin. This magnetic linkage between an internal body cavity with a retrieval device may be used to hold the position of the body cavity steady during resection and aid in the removal of that structure from the body.
One aspect of the invention is directed to a device for stabilizing and resecting a body cavity or organ that, as embodied and broadly described herein, include a magnet configured for delivery to the inside of the body cavity, a delivery device to deliver the magnet to the body cavity, and a magnetic retriever configured to magnetically couple with the magnet through a wall of the body cavity. This coupled magnetic retriever and magnet may be used to stabilize the position of the body cavity and to control the position of the body cavity relative to the outside of the body. The body cavity may be further resected whereupon the magnetic retriever may be withdrawn from the body along with the resected body cavity.
In another aspect of the invention the magnet may be an inflatable balloon. The balloon may be initially deflated and located near the end of an inner lumen of a delivery device. The balloon may be inflated with a magnetic gel that expands the balloon outside the inner lumen of the delivery device. The delivery device may utilize a closure element to seal the balloon and detach the balloon from the delivery catheter.
In another aspect of the invention the magnetic retriever may be an elongated tubular body that has an expandable sheath attached to a distal end. The retriever may also have a retractable shaft positioned longitudinally inside the body and sheath with a magnet coupler connected to the distal end of the shaft. This magnet coupler may be designed to magnetically couple with a magnet separately positioned in the organ. The shaft is also designed to retract inside the sheath and tubular body once the magnetic coupler is coupled to the magnet. This may be helpful in drawing the magnet and the body cavity or organ into the expandable sheath.
One aspect of the invention is directed to a method of stabilizing or manipulating a body cavity including the steps of positioning a delivery device inside the body cavity, delivering a magnet to the cavity, magnetically coupling to the magnet with a magnetic retriever positioned outside the body cavity and then moving, repositioning or stabilizing the body cavity by manipulating the magnetic retriever that is coupled to the body cavity because of the magnetic attraction to the magnet. Another embodiment of this method may include filling an inflatable balloon with a magnetic gel or fluid, sealing the neck of the balloon and then releasing the balloon into the body cavity.
Additionally another aspect of the invention may be a method of resecting a body cavity or organ including the steps of positioning a delivery device, which has a magnet, inside the body cavity or organ and delivering the magnet to the cavity. Further steps may include positioning a magnetic retriever outside the body cavity or organ where the retriever has an elongated tubular body with an expandable sheath attached to the distal end. The retriever may also have a retractable shaft positioned longitudinally inside the body and sheath with a magnet coupler connected to the distal end of the shaft. This magnet coupler may be designed to magnetically couple with the magnet. The shaft may also be designed to retract inside the sheath and tubular body after the body cavity or organ has been resected. This may be helpful in drawing the magnet and the body cavity or organ into the expandable sheath so that the organ can be removed from the body.
Finally another aspect of the invention may be a system for removing body tissue from the body. This system may include a magnet designed for delivery inside the body tissue and a delivery device to deliver the magnet into the body tissue. Also included in the system is a magnetic retriever designed to magnetically couple with the magnet across a wall of the tissue. The system may include a resection device to separate the tissue from the body and a ligation device to seal the opening where the organ was removed.
For illustration, natural body orifice removal of an appendix may be described in this specification. However the devices and methods described in this specification could be similarly utilized for the removal of the gall bladder, removal of cysts, tumors, growths, fistulas, vessels, ducts, other organs using similar devices and methods through the rectum, bladder, vagina or uterus, stomach or the gastrointestinal tract. Likewise the devices and methods described in this specification could conceivably be utilized in percutaneous procedures through the skin to access the abdominal cavity to treat the structures indicated.
Certain objects and advantages of the invention are described herein. Of course, it is to be understood that not necessarily all such objects or advantages may be achieved in accordance with any particular embodiment of the invention. Thus, for example, those skilled in the art will recognize that the invention may be embodied or carried out in a manner that achieves or optimizes one advantage or group of advantages as taught herein without necessarily achieving other objects or advantages as may be taught or suggested herein.
All of these embodiments are intended to be within the scope of the present invention herein disclosed. However, despite the foregoing discussion of certain embodiments, only the appended claims (and not the present summary) are intended to define the invention. The summarized embodiment, and other embodiments of the present invention, will become readily apparent to those skilled in the art from the following detailed description of the preferred embodiments having reference to the attached figures, the invention not being limited to any particular preferred embodiment(s) disclosed.
Apparatus and methods for minimally invasive stabilization and removal of body cavities, organs, tissue, growths or structures in the body through natural body orifices are described. The use of magnetic retrieval devices and methods to facilitate access, retraction, stabilization, and manipulation of body cavities is described. Preferably, one aspect of the invention relates particularly to accessing the appendix or gall bladder and introducing a magnet into these structures. This magnet may be magnetically coupled to a retrieval device introduced into the abdominal space through a NO or through the skin. This magnetic linkage between an internal body cavity with a retrieval device may be used to hold the position of the body cavity steady during resection and aid in the removal of that structure from the body.
An embodiment of the current invention is shown in
Another embodiment of the invention is shown in
In one aspect of a method to remove a body cavity, tissue or organ, a magnetic coupler is shown in
Another embodiment of the invention that may be used to deliver a soft gel or fluid magnet, see
Once the delivery catheter 80 is introduced inside the targeted organ, the deployment of the magnet can commence.
The balloon as described is intended to be used as part of a magnetic retrieval system and therefore needs to demonstrate magnetic properties to effectively couple with the opposing magnetic device. The balloon 85 may be inflated with a magnetic gel or fluid, either viscous or non viscous, 126 shown in
In one embodiment, once the balloon is fully inflated, the delivery catheter is retracted in the direction of the arrow in
In another embodiment of the magnet, a magnetic gel may be used but the gel is adapted for direct injection into the inner cavity or into the tissue walls using a needle and syringe or a trocar-like introducer. This embodiment does not require a delivery catheter or inflatable balloon so the devices required may be less expensive and the procedure might be simpler. In another embodiment the gel may be introduced as a liquid and then solidify over a period of time. This type of gel would be injectable yet would be less likely to migrate from the original injection site over time.
In another embodiment of the invention, a magnetic balloon 85 is placed into an organ or body cavity and may be coupled to an external magnet 130 positioned on the skin 100 as shown in
Certain objects and advantages of the invention are described herein. Of course, it is to be understood that not necessarily all such objects or advantages may be achieved in accordance with any particular embodiment of the invention. Thus, for example, those skilled in the art will recognize that the invention may be embodied or carried out in a manner that achieves or optimizes one advantage or group of advantages as taught herein without necessarily achieving other objects or advantages as may be taught or suggested herein.
All of these embodiments are intended to be within the scope of the present invention herein disclosed. However, despite the foregoing discussion of certain embodiments, only the appended claims (and not the present summary) are intended to define the invention. The summarized embodiment, and other embodiments of the present invention, will become readily apparent to those skilled in the art from the following detailed description of he preferred embodiments having reference to the attached figures, the invention not being limited to any particular preferred embodiment(s) disclosed.
This application claims priority under 35 U.S.C. § 119(e) to U.S. Provisional Application No. 60/864,140, filed Nov. 2, 2006, the entire contents of which are hereby expressly incorporated by reference.
Number | Date | Country | |
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60864140 | Nov 2006 | US |