Surgery – Instruments
Reexamination Certificate
1999-11-30
2001-11-20
Dawson, Glenn K. (Department: 3761)
Surgery
Instruments
C604S264000
Reexamination Certificate
active
06319246
ABSTRACT:
BACKGROUND OF THE INVENTION
(1) Field of the Invention
The present invention pertains to an apparatus employed as an access port in minimally invasive surgery that enables the insertion of instruments or the hand through a small incision in body tissue while maintaining the insufflation pressure within a body cavity.
(2) Description of the Related Art
Minimally, invasive surgery, such as laparoscopy, despite its beneficial aspects, has some disadvantages. Surgery of this type involving the use of surgical instruments manipulated through trocars or cannula inserted through body tissue to a surgery site within a body cavity requires a great deal of manual dexterity and hand-eye coordination of the surgeon. Many years of practice are required before the surgeon develops a comfortable level of agility in manipulating surgical instruments inserted through trocars to the surgical site while observing the movements of the instruments through a laparoscope. Until this level of familiarity with surgery techniques is developed by the surgeon, minimally invasive surgery requires significantly more of the surgeon's time than would the same operation being performed in an open incision of the body.
Additionally, the need to maintain a pneumoperitoneum or insufflation pressure within the body cavity at the surgery site while instruments are removed from and inserted through trocars during surgery increases the time required for performing an operation by minimally invasive surgery over that required for performing the same operation through an open incision in the body.
It is an object of the present invention to provide a surgical apparatus and its method of use that assist the surgeon in performing minimally invasive surgery by providing an access port through body tissue to a body cavity at the surgery site which enables insertion of surgical instruments or the surgeon's hand through the access port while maintaining the insufflation pressure or pneumoperitoneum within the body cavity.
SUMMARY OF THE INVENTION
The surgical apparatus of the present invention is basically comprised of a flexible, fluid-tight envelope having a hollow interior and first and second openings at opposite proximal and distal ends of the envelope. In the preferred embodiment, the envelope is transparent. A pair of tubular collars are secured to the opening at the proximal end of the envelope. The collars have coaxial interior bores and are connected to each other for relative rotation. The collars are provided with means for securing the collars to body tissue with the interior bores of the collars adjoining an incision through the tissue.
The distal end of the envelope is provided with means for selectively closing and sealing the second opening, or for opening the second opening to enable insertion of an instrument or the surgeon's hand into the envelope interior. With an instrument or the surgeon's hand inserted through the second opening, the means for sealing the opening is then secured around the envelope distal end and the instrument or hand to prevent the escape of insufflation pressure from the body cavity through the incision and the envelope. Several means of sealing closed the second opening of the envelope are provided including a slit second opening in the resilient material of the envelope that closes the opening in its at rest condition and is opened by stretching the material of the envelope. Various types of bands including elastic cords, strips containing malleable wire, and strips of hook and loop fastener material such as Velcro® are also secured around the distal end of the envelope to close and seal the envelope second opening.
Various embodiments of the concentric collars at the envelope proximal end are also employed in sealingly securing the envelope to the body tissue adjoining the tissue incision. These embodiments include a tapered portion of one of the collars which is wedged into the tissue incision to provide the sealed connection of the envelope to the tissue. A further embodiment employs an annular rim on one of the collars which is inserted through the incision to underlie the body tissue surrounding the incision. A panel having a circular center opening is then positioned over the collar and against the exterior of the body tissue to sandwich the tissue between the collar rim and the panel and thereby provide the sealed connection of the collars to the body tissue with the collars' interior bores adjoining the tissue incision. The embodiments of the collars are constructed of flexible plastic material that enables the collars to be clamped closed by a conventional grasper or forcep, thereby sealing closed the interior bores of the collars and enabling substitution of various embodiments of the envelope on the collars. A further embodiment of the collars is provided with a removable cap that closes over the collar interior bore sealing it closed.
One embodiment of the envelope has a general Y-shaped configuration with three projecting arms including one proximal arm and two distal arms. The proximal arm is provided with the first opening secured to the pair of collars and the two distal arms are provided with second and third openings and means on the distal arms for closing their openings as in the previously described embodiment of the envelope.
In use of each of the embodiments of the invention, an incision is made in the body tissue and the pair of collars are secured to the body tissue with the center bores of the collars adjoining the tissue incision. The second opening of the envelope is sealed closed. The body cavity at the site of the surgery to be performed is then insufflated. The sealed connection of the collars to the body adjoining the incision and the sealed closure of the envelope second opening maintains the insufflation pressure within the body cavity while providing an access port for insertion of instruments or the surgeon's hand into the body cavity.
Insertion of an instrument or the surgeon's hand into the body cavity is accomplished by releasing the sealed closure of the envelope second opening and inserting the instrument or hand into the envelope interior through the second opening. The second opening is then again sealed closed around the instrument or forearm of the hand inserted into the envelope. The instrument or hand may then be inserted through the interior bores of the collars secured to the body with the sealed closure of the second opening around the instrument or hand maintaining the insufflation pressure within the body cavity.
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Supplementary European Search Report, EP 96 93 3937, Oct. 2, 1998.
de la Torre Roger A.
Hermann George D.
Howell Thomas A.
Jervis James E.
Mollenauer Kenneth H.
Dawson Glenn K.
Fish & Richardson P.C.
General Surgical Innovations Inc.
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