1. Technical Field
The present disclosure relates to an access apparatus and, more particularly, to an access apparatus that includes a desufflation control mechanism.
2. Description of Related Art
In laparoscopic procedures, clinicians perform surgery in the interior of the abdomen through a small incision, and in endoscopic procedures, clinicians conduct surgery in any hollow viscus of the body through a narrow tube or cannula inserted through a small entrance incision in the skin. In certain instances, one or more insufflation ports are operably associated with the narrow tube or cannula and are configured to provide a pressurized gas, e.g., CO2, into the abdominal cavity after the narrow tube or cannula is inserted into the incision and secured to a patient, thus creating a pneumoperitoneum. The pressurized gas provides a positive pressure that raises the inner body wall away from internal organs, thereby providing the surgeon with an operating space. By creating an operating space, the clinician avoids unnecessarily contacting the organs with the instruments inserted through the cannula assembly.
During the surgical procedure it may prove necessary for a clinician to alter the amount of pressurized gas in the abdominal cavity. That is, during a surgical procedure it may prove necessary, under certain surgical environments, to further insufflate and/or desufflate the abdominal cavity. For example, during one of the previously described surgical procedure, e.g., a laparoscopic procedure, where tissue may be ligated and/or cauterized, plumes of smoke may fill the abdominal cavity. As can be appreciated, a smoke filled abdominal cavity is not typically desired by a clinician. More particularly, the smoke contained within the abdominal cavity may, inter alia, prevent a clinician from clearly viewing the tissue being treated. Typically, clearing and/or evacuating the smoke contained in the abdominal cavity is achieved by desufflating the abdominal cavity. Under certain surgical environments, it may prove necessary to increase desufflation flow to accelerate the clearing and/or evacuating of the smoke from the abdominal cavity.
Accordingly, it may prove advantageous for a clinician to have the capability to more effectively control desufflation flow of the pressurized gas within the abdominal cavity such that the clinician may effectively treat tissue within the abdominal cavity.
The present disclosure provides an access apparatus for use in surgical procedures. The access apparatus includes an access member that defines a longitudinal axis and has a longitudinal passage. The longitudinal passage adapted to permit passage a surgical instrument utilized in performing a surgical procedure. A housing includes a proximal end that defines an opening in communication with the longitudinal passage of the access member to permit passage of the surgical instrument. A zero-closure valve is disposed within the longitudinal passage and is configured to provide a substantially fluid-tight seal in the absence of the surgical instrument inserted therethrough. A control mechanism operably coupled to the access apparatus is configured to control desufflation flow of the access apparatus. The control mechanism includes an elongated valve that is in fluid communication with the longitudinal passage. The valve includes one or more openings that are operably disposed along a length thereof. The control mechanism includes a selectively movable mechanical interface that is operably coupled to the valve and in operative communication with the opening. The selectively movable mechanical interface is configured to alter desufflation flow when it is moved along a length of the valve.
The present disclosure provides a control mechanism configured to control desufflation flow of an access apparatus. The control mechanism includes an elongated valve that is in fluid communication with the longitudinal passage. The valve includes one or more openings that are operably disposed along a length thereof. The control mechanism includes a selectively movable mechanical interface that is operably coupled to the valve and in operative communication with the opening. The selectively movable mechanical interface is configured to alter desufflation flow when it is moved along a length of the valve.
The present disclosure also provides an access apparatus for use in surgical procedures. The access apparatus includes an access member that defines a longitudinal axis and has a longitudinal passage. The longitudinal passage adapted to permit passage a surgical instrument utilized in performing a surgical procedure. A housing includes a proximal end that defines an opening in communication with the longitudinal passage of the access member to permit passage of the surgical instrument. A zero-closure valve is disposed within the longitudinal passage and is configured to provide a substantially fluid-tight seal in the absence of the surgical instrument inserted therethrough. A control mechanism is configured to control desufflation flow of the access apparatus. The control mechanism includes a valve in fluid communication with the longitudinal passage. The valve includes one or more openings and a selectively movable mechanical interface operably coupled thereto. The selectively movable mechanical interface is configured to alter desufflation flow when it is moved with respect to the valve and across the one or more openings.
Various embodiments of the present disclosure are described herein with reference to the drawings wherein:
The access apparatus of the present disclosure provides a substantially fluid-tight seal between a body cavity of a patient and the outside atmosphere. The access apparatus of the present disclosure is configured to receive surgical instruments of varying diameters. Included among the various procedures contemplated by the present disclosure are endoscopic, laparoscopic, etc.
The access apparatus of the present disclosure contemplates the introduction of various types of instrumentation during the particular procedure. Examples of instrumentation include, but are not limited to, clip appliers, graspers, dissectors, retractors, staplers, laser probes, photographic devices, endoscopes and laparoscopes, tubes, anchors, anchor drives, etc. Such instruments will collectively be referred to as “instruments” or “instrumentation” or “surgical objects.”
In the following description, as is traditional, the term “proximal” refers to the portion of the device closer to the operator while the term “distal” refers to the portion of the device farther from the operator.
With reference to
In the illustrated embodiment, the access apparatus 10 includes one or more instrument seals 14 disposed within housing 2 and adjacent longitudinal passageway 12. Instrument seal 14 is configured to create a substantially fluid-tight seal around an instrument “I” introduced through the instrument seal 14. One suitable instrument seal is disclosed in commonly assigned U.S. Pat. No. 6,702,787 to Racenet, the entire contents of which disclosure is incorporated by reference herein.
A duck bill or zero-closure valve 16 is disposed within longitudinal passageway 12 and in mechanical cooperation with housing 2. Zero-closure valve 16 tapers distally and inwardly to a sealed configuration as shown in
Access apparatus 10 is adapted to connect to a source of pressurized gas “G” (
With reference to
Valve 20 may have any suitable shape. In the illustrated embodiment, valve 20 includes a generally elongated tubular configuration of suitable proportion. Valve 20 may be operably secured to the access apparatus 10 via one or more suitable securement methods, e.g., press fit, friction fit, bayonet fit, integrally formed or ultrasonically/thermally welded etc. In the illustrated embodiment, valve 20 is monolithically formed with the access apparatus 10. Valve 20 is proportioned and configured such that the hose “H” may be removably secured to the access apparatus 10. In the embodiment illustrated in
One or more openings 24 of suitable proportion are operably disposed along a length of the valve 20. In the illustrated embodiment, one opening 24 is operably disposed along a length of one side of the valve 20. In certain embodiments, two openings 24 may be operably disposed on opposite sides of the valve 20. Opening 24 may include any suitable shape. More particularly, opening 24 may include a shape that is selected from the group consisting of circular, oblong, elliptical and square. In the illustrated embodiment, opening 24 includes a generally oblong shape defined by a length “L” and width “W” (
To control desufflation flow control mechanism 18 includes a selectively movable mechanical interface 26 that is operably coupled to the access apparatus 10. More particularly, selectively movable mechanical interface 26 is operably coupled to the valve 20 and in operative communication with the opening 24. The selectively movable mechanical interface 26 is configured to control and/or alter desufflation flow when it is moved along a length of the valve 20 and across opening 24. Selectively movable mechanical interface 26 is proportioned and shaped to substantially, if not fully, cover the opening 24 when desufflation flow is not required through the opening 24.
In the embodiment illustrated in
In certain embodiments, an exterior of the cap 26 may be textured, e.g., knurled, to facilitate turning the cap 26.
In the illustrated embodiment, cap 26 operably couples to the access apparatus 10 via one or more suitable devices. More particularly, a tether in the form of a cord 28 (made from a suitable material) operably couples the cap 26 to the access apparatus 10 via one or more suitable coupling methods. For example, and as illustrated in
With reference to
A selectively movable mechanical interface 26′ is in the form of a generally elongated plug or stopper 126 that is made from a suitable material. In one particular embodiment, plug 126 is made from an elastomeric material, e.g., rubber. Plug 126 is proportioned and dimensioned to movably reside in the valve 20 such that the plug 126 may be “pulled” or “pushed” therein or removed therefrom. To this end, plug 126 includes a distal body portion 128 (
Plug 126 (or portion thereof, e.g., distal body portion 128) may be coated with or made from a lubricious material to facilitate “pushing” and/or “pulling” the plug 126 with respect to the valve 20 when the distal portion is inserted into the valve 20. One type of lubricious material that the plug 126 may be coated with or made from is tetrafluoroethylene, commonly referred to in the art as and sold under the trademark TEFLON®.
Plug 126 may be tethered as described above with respect to cap 26.
With reference to
With reference to
From the foregoing and with reference to the various figure drawings, those skilled in the art will appreciate that certain modifications can also be made to the present disclosure without departing from the scope of the same. For example, it is contemplated that the cap 26 and valve 20 illustrated in
It is contemplated that, in certain instances, it may prove useful to operably associate either of the control mechanism 18/118 with the distal end the hose “H.” For example, control mechanism 18 may be operably coupled to the distal end of the hose “H.” In this instance, control mechanism 18 may be configured to control both insufflation and desufflation flow.
It is contemplated that, in certain instances, it may prove useful to have the distal end of the hose “H” and the selectively movably mechanical interfaces, e.g., cap 26/plug 126, removably couple to one another. More particularly, the distal end of the hose “H” may be configured to removably and securely attach to the valve 20 via the cap 26/plug 126 via one or more the previously described coupling methods, e.g., “Luer-Lok.”
While several embodiments of the disclosure have been shown in the drawings and/or discussed herein, it is not intended that the disclosure be limited thereto, as it is intended that the disclosure be as broad in scope as the art will allow and that the specification be read likewise. Therefore, the above description should not be construed as limiting, but merely as exemplifications of particular embodiments. Those skilled in the art will envision other modifications within the scope and spirit of the claims appended hereto.
The present application claims the benefit of and priority to U.S. Provisional Application Ser. No. 61/416,559 filed on Nov. 23, 2010, the entire contents of which are incorporated herein by reference.
Number | Date | Country | |
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61416559 | Nov 2010 | US |