Abstract: A heart stabilizer that may include a wrist which couples an end effector to a first linkage. The end effector and wrist may be inserted through an incision in the chest of a patient to assist in performing a minimally invasive coronary procedure. The wrist provides dexterity so that the end effector can be placed on the heart to stabilize the same. The end effector may include a pair of paddles that are moved between open and closed positions by a pair of manually actuated levers. The paddles may have cleats that allow sutures to be attached to the stabilizer during a minimally invasive procedure.
Abstract: The present invention provides a retractor for providing surgical access through a passage in tissue, together with methods for its use and deployment. The retractor comprises an anchoring frame having an upper surface, a lower surface, and an opening therethrough which defines an axial axis. A flexible tensioning member is attached to the frame, and is extendable from the frame out of the body through the passage when the frame is positioned through the passage and into a body cavity. This tensioning member is selectively tensionable to spread the tissue radially outwardly from the axial axis. Hence, it is the tension imposed on the flexible liner which effects retraction of the tissue, rather than relying on the structural integrity of an artificial lumen.
Type:
Grant
Filed:
March 16, 2000
Date of Patent:
November 9, 2004
Assignee:
Heartport, Inc.
Inventors:
Richard L. Mueller, Stephen W. Boyd, James R. Flom, Lorraine F. Mangosong, William S. Peters
Abstract: Apparatus for use in surgery comprises a sleeve (1) having an entry opening (4) at an outer end and an exit opening. (5) at an inner end to access a patient's body. Exit sealing means 10 are provided for sealing the exit opening (5) to a body entry sealing means (20) are provided for sealing the outer entry against an arm passing therethrough to create a controlled environment within the sleeve.
Abstract: Vascular retractor assemblies and methods for retracting and maintaining a subcutaneous working space at a surgical site are disclosed, the assemblies including an external frame, a retractor pad assembly including a retractor pad configured and dimensioned to contact a surface of the surgical site, an adjustment mechanism and at least one port provided in the lower surface of the retractor pad. The at least one port is preferably in fluid communication with the surface of the surgical site. In one embodiment, the at least one port is in fluid communication with a source of medical adhesive for adhering or creating a bond between the surface of the surgical site to the retractor pad. In another embodiment, the at least one port is in fluid communication with a source of vacuum for selectively adhering or creating a bond between the surface of the surgical site to the retractor pad.
Abstract: An organ manipulator including at least one suction member or adhesive disc mounted to a compliant joint, a flexible locking arm for mounting such suction member or compliant joint, and a method for retracting and suspending an organ in a retracted position using suction (or adhesive force) so that the organ is free to move normally (e.g., to beat or undergo other limited-amplitude motion) in at least the vertical direction during both steps. In preferred embodiments, a suction member exerts suction to retract a beating heart and suspend it in a retracted position during surgery. As the retracted heart beats, the compliant joint allows it to expand and contract freely (and otherwise move naturally) at least in the vertical direction so that hemodynamic function is not compromised. The suction member conforms or can be conformed to the organ anatomy, and its inner surface is preferably smooth and lined with absorbent material to improve traction without causing trauma to the organ.
Type:
Application
Filed:
March 15, 2004
Publication date:
September 9, 2004
Inventors:
Steven Peng, Larry Voss, David E. Hancock, Grace A. Carlson, John W. Davis, Albert K. Chin, Jaime S. Vargas
Abstract: A device and method for delivering an agent to the uterine cervix make use of a seal member that defines a chamber upon engagement with the cervix. An agent delivery port in fluid communication with the chamber is provided for delivery of the agent to the uterine cervix. A vacuum port in fluid communication with the chamber allows application and retention of vacuum pressure to the chamber. At least a portion of the seal member can be made deformable in response to contact with the outer surface of the uterine cervix and application of vacuum pressure. Upon deformation, the seal member substantially seals the chamber against leakage of the agent. The seal member may include a skirt-like member that promotes adhesion of the seal member to the cervix, and enhances the effectiveness of the seal. The device facilitates vacuum application, cervical fixation, and a resulting barrier against uterine fluid leakage, providing an atraumatic, temporary cervical plug that remains effective while the vacuum is applied.
Type:
Grant
Filed:
August 18, 1999
Date of Patent:
August 10, 2004
Assignee:
Iotek, Inc.
Inventors:
James S. Sharrow, Thomas G. Adelman, Frederick J. Foley
Abstract: An epicardial cooled stabilizer system is useful for surgical or laparoscopic applications, especially beating heart surgery. The system comprises a stabilizer connected to a cooler/pump where coolant flows into tubing at the distal end of the stabilizer. The tubing is positioned at a surgical site to enhance traction and minimize trauma.
Type:
Grant
Filed:
September 28, 2001
Date of Patent:
July 27, 2004
Assignee:
The Trustees of Columbia University in the City of New
York
Abstract: Mechanical elements and/or adhesive is used in conjunction with or in place of suction to releasably attach elements of a system for manipulating a heart during cardiac surgery to the heart. The elements of the heart manipulation system are disclosed in the application Ser. No. 09/087,511 filed on May 29, 1998 and in the patent application Ser. No. 08/936,184 filed on Sep. 17, 1997. One form of the system can be used in minimally invasive surgery.
Abstract: A method and implantation tools for placing a transventricular splint including a tension member. The method includes gaining access to the patient's hearts and identifying entry or exit points for the tension member, marking those locations and delivering the tension member. Anchors for the tension member are also delivered. The length of the tensions member is measured and the walls of the heart drawn together. The pads are secured to the tension member and the tension member is trimmed to length. The pads are secured to the heart surface.
Type:
Grant
Filed:
May 25, 2001
Date of Patent:
June 8, 2004
Assignee:
Myocor, Inc.
Inventors:
Todd J. Mortier, Cyril J. Schweich, Jr., Robert M. Vidlund, Peter T. Keith, Thomas M. Paulson, David A. Kusz
Abstract: An access platform having a first and a second blade interconnected to a spreader member that laterally drives the blades apart or together and support pads interconnected to a blade. A torsional member is operably interconnected to a blade and the spreader member and is used to vertically displace the interconnected blade and, thus, increase a surgeon's working space and visual access for the dissection of an internal mammary artery. A tissue retractor interconnected to the blades and is used to draw the soft tissue around an incision away from the surgeon's working area.
Abstract: A method of providing access to tissue for a surgical instrument through a body wall is provided. The method includes providing an expandable retractor having a flexible sheath, the retractor being in a collapsed state; introducing the retractor into the body and placing the retractor adjacent the tissue; expanding the retractor; deploying the flexible sheath by engaging the flexible sheath with a tool and driving the flexible sheath through the body wall with the tool; and inserting the surgical instrument from outside the body through the flexible sheath to provide access to the tissue by the surgical instrument.
Type:
Application
Filed:
August 11, 2003
Publication date:
May 20, 2004
Inventors:
Frederic H. Moll, Charles Gresl, Albert K. Chin, Philip K. Hopper
Abstract: Surgical procedures on the beating heart are enabled by an incision made in the xyphoid area and specially designed retractors and related devices to facilitate cardiac surgical procedures. Specifically, coronary artery bypass graft procedures (CABG) are achieved using a vertically offsetting retractor or access platform in combination with a beating heart stabilizer. The surgical methodology permits procedures such as the CABG procedure without penetrating the rib cage or performing a sternotomy or thorocotomy.
Type:
Grant
Filed:
January 8, 2001
Date of Patent:
May 18, 2004
Assignee:
Cardiothoracic Systems, Inc.
Inventors:
Federico J. Benetti, Charles S. Taylor, Michael V. Morejohn
Abstract: The delivery of a fluid cutaneously is effected by generating a suction force on a surface of a housing. A surface of a cutaneous layer is received under the suction force about which the proximal end of a needle thereby to pierce the cutaneous surface and to effect an injection of fluid. There is generated a suction force to operate the movement of a needle in the housing. The needle is moved under the suction force from the housing thereby to permit piercing a cutaneous layer. The bladder for containing fluid is emptied under the suction into the distal end of the needle and thereby permit the expulsion of fluid through the proximal end of the needle for injection below the cutaneous layer.
Abstract: The invention relates to a retractor (10) with a carrier ring (20) and L-shaped valves (30), which can be attached with an arm (32) which runs parallel to the carrier ring plane to the carrier ring (20), whereby its free end points outward, and whose other arm (34) is oriented perpendicularly with a respect to the carrier ring plane and presents, in cross section, a convex curvature toward the external margin of the carrier ring (20), where the arm of (32) [sic; arm (32)] of the valves (30), which is attached to the carrier ring (20), is guided in radically oriented guides (22) on the carrier ring (20).
Type:
Application
Filed:
February 12, 2003
Publication date:
May 6, 2004
Inventors:
Thomas Bauer, Carsten Geister, Steffen Kernbach, Gerd Haimerl, Sara Lozano, Norbert Gut
Abstract: A flexible locking arm for use in an organ manipulator apparatus. The flexible locking arm has a flexible state, used to position the organ manipulator as needed, and a fixed state for mounting the manipulator in a desired orientation. Even in the fixed state, the organ manipulator maintains a limited freedom of movement, to allow the organ held to continue to move substantially according to its natural motion during functioning. For example, in an embodiment where a suction member exerts suction to retract a beating heart and suspend it in a retracted position during surgery by setting the flexible arm to the fixed state, as the retracted heart beats, a complaint joint allows it to expand and contract freely (and otherwise move naturally) at least in the vertical direction so that hemodynamic function is not substantially compromised.
Type:
Grant
Filed:
December 22, 2000
Date of Patent:
May 4, 2004
Assignee:
Origin Medsystems Inc.
Inventors:
Steven Peng, Larry Voss, David E. Hancock, Grace A. Carlson, John W Davis, Albert K. Chin, Jaime S. Vargas
Abstract: The present invention provides a surgical device for decreasing the trauma imposed on soft tissue by extended contact with a surgical device during a surgical procedure by thermally treating the tissue. To thermally treat the tissue, the surgical device can be configured to include a structure for enveloping and receiving at least a portion of the surgical device, where the structure is configured to control thermal energy transfer between the structure and the tissue.
Abstract: The present invention is directed to a surgical instrument assembly that includes an operative element and an insertion instrument removably engageable to the operative element. The insertion instrument is positionable in a patient with the operative element engaged thereto to position the operative element at an operative site in the patient. A transfer instrument is removably engageable to the operative element when the operative instrument is located at the operative site. The insertion instrument can then be removed. Methods for using the surgical instrument assembly are also disclosed.
Abstract: A system for manipulating and supporting a beating heart during cardiac surgery, including a gross support element for engaging and supporting the heart (the gross support element preferably including a head which is sized and shaped to cradle the myocardium of the left ventricle”), a suspension head configured to exert lifting force on the heart when positioned near the apical region of the heart at a position at least partially overlying the right ventricle, and a releasable attachment element for releasably attaching at least one of the gross support element and the suspension head to the heart. The releasable attachment element can be a mechanical element (such as one or more staples or sutures') or an adhesive such as glue. Alternatively, the system includes a suspension head and a releasable attachment element for releasably attaching it to the heart, but does not include a gross support element.
Abstract: An apparatus and minimally invasive method for removing fluid from a subretinal space to allow a detached retina to flatten. An apparatus, comprising a fluid withdrawal device and a guide for advancing and placing the device, is positioned on the exterior eye surface at the detachment site. Various embodiments of the apparatus are disclosed. Using the guide, the surgeon advances the device into the fluid-filled space and drains fluid, allowing the retina to flatten. Additional injection of saline or gas into the vitreous cavity normalizes intraocular pressure, and the patient is ambulatory immediately afterward. Unlike other retinal attachment techniques, in the inventive procedure the patient receives only a local anesthetic, and has no restraint on head movement.
Type:
Application
Filed:
August 20, 2002
Publication date:
February 26, 2004
Inventors:
Gholam A. Peyman, Charalampos Livir-Rallatos
Abstract: Instrumentation for treatment of the spine, including an elongate member having a deformable distal end portion at least partially formed of a flexible and preferably elastic material. The distal end portion has an initial configuration for placement adjacent a vertebral body and a deformed configuration defining at least one outwardly extending projection for displacement of at least a portion of the vertebral body. The elongate member preferably comprises a rod member, a sleeve member and an actuator mechanism for imparting relative linear displacement between the rod and sleeve members to effect outward deformation of the distal end portion of the sleeve member. In one embodiment, the instrumentation is used to compact cancellous bone to form a cavity within a vertebral body. In another embodiment, the instrumentation is used to reduce a compression fracture. In yet another embodiment, the instrumentation is used to distract a disc space between adjacent vertebral bodies.
Abstract: A tool is used to assist in the manual insertion and removal of a needle into a medical device implanted under the skin of a patient. The tool includes an elongated body having a handle section and an enlarged guard section with an elongated slot extending from an edge of the guard section into the guard section, terminating at an internal portion of the guard section. Preferably, the guard section of this tool is transparent, and it has indicia thereon which assist in aligning the tool with the implanted medical device. The guard section may include a depression on its underside which overlies the implanted medical device when the guard is placed in position for accessing or deaccessing the needle.
Type:
Grant
Filed:
November 24, 1999
Date of Patent:
January 6, 2004
Inventors:
Terry Shaffer, Jeanette Perlick, Robert Burns
Abstract: A vaginal suppository delivery device includes a pincer body having upper and lower clamp members that cooperate to confine a passage, a sleeve member, and a push rod. The clamp members have connecting and clamp end sections. The sleeve member is movable toward the connecting and clamp end sections of the clamp members so as to permit the clamp end sections to move away from and toward each other, thereby permitting a suppository to be disposed and clamped in a drug receiving groove in the passage. The push rod has an operating end that is operable so as to enable a drug pushing end to push the suppository to move out of the passage after the pincer body has been inserted into a vaginal cavity, thereby delivering the suppository into the vaginal cavity.
Abstract: A surgical retractor includes a side loading socket configured to receive a connector head. A linearly moveable slide retains the connector head within the socket cavity. The slide has a convex face outwardly from the socket cavity which assists in “snapping” in a connector head. A convex inner face assists in retaining an inserted connector head. A notch in the tip of the slide assists in preventing rotation of a connector head having opposing locking pins when one of the pins is received in a recess at the back of the socket cavity. A grip is connected to the slide which may move the slide from a locked to a released position within a slot in the socket body.
Abstract: In order, in the case of a surgical instrument for introducing intervertebral implants into the intervertebral space between adjacent vertebral bodies, to facilitate the introduction of the intervertebral implant even when access is difficult, it is proposed that the surgical instrument comprises two mutually opposing guide bodies, which each have a guide directed towards the other guide body and together form between them a guideway, along which an intervertebral implant is insertable laterally into the intervertebral space.
Type:
Grant
Filed:
July 26, 2001
Date of Patent:
July 29, 2003
Assignee:
Aesculap AG & Co. KG
Inventors:
Franz Konstantin Fuss, Ronald J. Sabitzer, Stephan Eckhof
Abstract: The present invention relates to surgical retractors and devices for stabilizing a predetermined area of the body during a surgical procedure, more particularly to surgical retractors and stabilizing devices used in connection with minimally invasive coronary artery bypass grafting surgical procedures, and more specifically to surgical retractors and stabilizing devices especially configured for use with each other for such surgical procedures wherein the retractor includes an external rail system which enables the surgeon to position a stabilization arm having first and second shaft segments on either of the arms or the rack segment of the retractor and also includes a connector which is spaced apart from the sled member and stabilization device to releasably control the movement and rotation of the stabilization device with respect to the stabilization arm and the rotation of the stabilization arm with respect to the retractor actuation of a single knob or actuator.
Type:
Grant
Filed:
December 20, 2000
Date of Patent:
July 29, 2003
Assignee:
Genzyme Corporation
Inventors:
Sylvia Puchovsky, Matthew L. Parsons, Scott Hunt, Martin J. Weinstein, Thomas E. Martin, Thomas Motta
Abstract: A tip for a medical device that distracts two opposing vertebral bodies. The tip has a hub, a boss, and a first longitudinal fin. The boss is attached the hub and has a body, a tapered portion, and a vertex. The first fin is attached to the boss, and projects from at least a portion of the boss's external surface. The first fin then extends over at least a portion of the length of the body and substantially extends over the length of the tapered portion.
Abstract: A distractor/guide sleeve assembly is provided which includes a body having a cylindrical throughbore and a distractor assembly mounted thereon. The distractor assembly includes a rotatable dial, a pair of distractor rods, and two pairs of jaws. A plate is secured to the distal end of each distractor rod. Each plate includes a plurality of cam members which are slidably positioned in cam slots formed in the jaws of each of the pairs of jaws. The dial is operably connected to the jaws via the distractor rods such that rotation of the dial effects movement of the pairs of jaws between approximated and distracted positions. An insertion tool is also provided which includes a handle and distal engaging structure for releasably engaging an implant. The engaging structure includes a pair of prongs or protrusions having a slip resistant outer surface. The prongs are configured to be releasably received within correspondingly shaped bores formed in an implant.
Abstract: A retractor retaining device retains an otherwise handheld retractor in the retraction position. The device includes a flexible loop that is detachably attached to a retractor support proximate the surgical wound with the loop engaging a proximal end or handle of the retractor to retain the retractor in the retraction position.
Abstract: The present invention provides a tissue retractor (2) for displacing body tissue during surgery consisting of a tissue piercing member such as a surgical needle (20), a wire-like filament such as a suture line (23) affixed to the surgical needle (20), a fixed element such as an anchoring port (90) being associated with a stable surgical platform such as a sternum retractor (1), and a movable element such as an anchoring plug (25) cooperating with anchoring port (90) to engage a portion of suture line (23) after the suture line (23) is threaded through the body tissue with the surgical needle (20) and after the suture wire (20) is tension to effect a predetermined displacement of the body tissue. The predetermined displacement of body tissue is maintained by retention of the engaged portion of suture line (23) by the fixed anchoring portion (90) and the movable anchoring plug (25).
Type:
Grant
Filed:
April 10, 2001
Date of Patent:
April 15, 2003
Assignee:
Coroneo, Inc.
Inventors:
Anthony Paolitto, Raymond Cartier, Valerio Valentini
Abstract: An implant insertion apparatus for guiding surgical instrumentation and facilitating insertion of surgical implants into an intervertebral space, including a retractor having an internal opening for introduction of a surgical instrument and positionable with respect to adjacent vertebrae in the intervertebral space, and a guide bar mounted to the retractor. The guide bar includes a longitudinal guide shaft dimensioned to guide introduction of surgical instrumentation through the internal opening of the retractor. The apparatus further includes a guide member mounted to the surgical instrument for providing the guidance thereof.
Abstract: A spiral cervical retraction apparatus is provided to straighten out the canal to the uterus during a medical procedure which allows for placement of instruments into the cavity of the uterus such as artificial insemination devices, curettes, biopsy instruments, and radiologic devices to instill dye. The apparatus includes a rigid tube for traction assisted insertion and removal of instruments by a screw-like action. A spiral wire is secured to the tip of the device for insertion into the cervix of a patient. Preferably, the apparatus has a substantially rigid handle tor twisting the spiral tip.
Type:
Grant
Filed:
February 5, 2001
Date of Patent:
March 25, 2003
Assignee:
University of Utah
Inventors:
Harry H. Hatasaka, Jr., Richard Crangle
Abstract: An organ manipulator including at least one suction member or adhesive disc mounted to a compliant joint, a flexible locking arm for mounting such suction member or compliant joint, and a method for retracting and suspending an organ in a retracted position using suction (or adhesive force) so that the organ is free to move normally (e.g., to beat or undergo other limited-amplitude motion) in at least the vertical direction during both steps. In preferred embodiments, a suction member exerts suction to retract a beating heart and suspend it in a retracted position during surgery. As the retracted heart beats, the compliant joint allows it to expand and contract freely (and otherwise move naturally) at least in the vertical direction so that hemodynamic function is not compromised. The suction member conforms or can be conformed to the organ anatomy, and its inner surface is preferably smooth and lined with absorbent material to improve traction without causing trauma to the organ.
Type:
Grant
Filed:
September 7, 1999
Date of Patent:
January 14, 2003
Assignee:
Origin Medsystems, Inc.
Inventors:
Steven Peng, Larry Voss, David E. Hancock, Grace A. Carlson, John W. Davis, Albert K. Chin, Jaime S. Vargas
Abstract: An instrument for broaching and dilating an incision of soft tissue in a tunnel-like shape, the instrument stretches and supports tissue to allow the insertion and passage materials, and comprises a handle, and one or more arched plate members.
Abstract: Surgical methods and instruments are disclosed for performing port-access or closed-chest coronary artery bypass (CABG) surgery in multivessel coronary artery disease. In contrast to standard open-chest CABG surgery, which requires a median sternotomy or other gross thoracotomy to expose the patient's heart, post-access CABG surgery is performed through small incisions or access ports made through the intercostal spaces between the patient's ribs, resulting in greatly reduced pain and morbidity to the patient. In situ arterial bypass grafts, such as the internal mammary arteries and/or the right gastroepiploic artery, are prepared for grafting by thoracoscopic or laparoscopic takedown techniques. Free grafts, such as a saphenous vein graft or a free arterial graft, can be used to augment the in situ arterial grafts. The graft vessels are anastomosed to the coronary arteries under direct visualization through a cardioscopic microscope inserted through an intercostal access port.
Type:
Grant
Filed:
August 5, 2000
Date of Patent:
November 12, 2002
Assignee:
Hearport, Inc.
Inventors:
Stephen W. Boyd, Alan R. Rapacki, Matthias Vaska, Brian S. Donlon, William S. Peters
Abstract: Devices and methods are disclosed for stabilizing tissue within a patient's body during a surgical operation to provide a relatively motionless surgical field, such as during a coronary artery bypass graft procedure. The devices include tissue stabilizers which engage and provide stabilization to a targeted area of tissue and further have the ability to engage and manipulate some portion of tissue within or adjacent the targeted area to improve the surgical presentation of that portion of tissue. The tissue stabilizer typically has one or more stabilizer feet which have a first foot portion configured to provide stabilization to the targeted tissue and a second foot portion moveable relative to the first foot portion for manipulating a portion of tissue to improve the surgical presentation.
Type:
Application
Filed:
April 30, 2002
Publication date:
November 7, 2002
Inventors:
Warren P. Williamson, Paul A. Spence, Mark Steven Ortiz, George A. Keller, Harry Leonard Green
Abstract: A method and apparatus for dissecting a first layer of tissue from a second layer of tissue and thereafter holding open an anatomic space for the performance of a surgical procedure. The method includes steps of making an incision in a body, introducing a deflated balloon dissector into the incision, inflating the balloon dissector to effect dissection of the first layer of tissue from the second layer of tissue, deploying a retractor within the anatomic space in order to hold open the anatomic space, and optionally deflating or evacuating the balloon dissector to open a cavity for surgical manipulations. The apparatus includes a combined dissector-retractor having a balloon retractor disposed upon the surface of the balloon dissector and integrated therewith.
Abstract: This invention describes novel methods and devices for stabilizing and retracting tissue during surgery, in particular internal tissue. Patches of material, preferably biodegradable, are adhered to tissue surfaces. By manipulation of the patches, for example directly with forceps, or via sutures attached to the patches, tissues can be retracted or otherwise manipulated with minimal trauma to the tissues. The method is especially useful in minimally-invasive surgery.
Type:
Application
Filed:
April 3, 2002
Publication date:
October 10, 2002
Inventors:
Bradley C. Poff, Stephen J. Herman, Dean M. Pichon, Amarpreet Sawhney
Abstract: There is provided a bipolar forceps for endoscopes that includes a clevis, two shafts, and two end effectors. The clevis has two arms that form a slot between them. The shafts are sustained between the two arms spaced apart from each other. Each of the end effectors is pivotably attached to a different one of the two shafts, respectively, such that the end effectors are able to move in a scissor-like action. The end effectors being made of conductive material. Thus the end effectors can be utilized as electrodes for applying a high frequency voltage between them.
Abstract: The present invention provides an instrument for simulating support offered to the urethra in preparation for surgery to counter urinary incontinence, the instrument comprising:
Abstract: The present invention relates to surgical retractors and devices for stabilizing a predetermined area of the body during a surgical procedure, more particularly to surgical retractors and stabilizing devices used in connection with minimally invasive coronary artery bypass grafting surgical procedures, and more specifically to surgical retractors and stabilizing devices especially configured for use with each other for such surgical procedures wherein the retractor includes a plurality of recessed surfaces thereon for the mounting of a tower type of sled member thereon and wherein the sled member is readily attachable and removable from the retractor and is adjustable upon actuation of an adjustment knob which releasably controls the rotation of the connector with respect to the retractor and the movement of the stabilization arm segment with respect to the retractor upon actuation of a single knob or actuator.
Type:
Application
Filed:
March 26, 2002
Publication date:
July 25, 2002
Inventors:
Thomas E. Martin, Jennie H. Brown, Henry M. Bliss, Michael A. Valerio
Abstract: Stabilization devices, systems and methods for stabilizing tissue to perform a surgical operation while the heart of the patient continues to beat.
Type:
Application
Filed:
January 24, 2001
Publication date:
July 25, 2002
Inventors:
David J. Paul, Joshua K. Wallin, Eugene E. Reis, Alfredo R. Cantu, Harry L. Green, Harry Ino, Charles S. Taylor
Abstract: A suction retractor that provides support to and positions an organ for surgery is provided. This retractor includes a support surface, a plurality of suction elements disposed adjacent the support surface, at least one leash operatively attached to the support surface; and at least one suction tube operatively connected with the suction elements. A method for using the retractor to manipulate an organ during surgery is also provided.
Type:
Application
Filed:
April 19, 2001
Publication date:
June 27, 2002
Inventors:
James H. DeVries, Steven R. Gundry, Brian S. Beals
Abstract: Surgical methods and instruments are disclosed for performing port-access or closed-chest coronary artery bypass (CABG) surgery in multivessel coronary artery disease. In contrast to standard open-chest CABG surgery, which requires a median sternotomy or other gross thoracotomy to expose the patient's heart, port-access CABG surgery is performed through small incisions or access ports made through the intercostal spaces between the patient's ribs, resulting in greatly reduced pain and morbidity to the patient. In situ arterial bypass grafts, such as the internal mammary arteries and/or the right gastroepiploic artery, are prepared for grafting by thoracoscopic or laparoscopic takedown techniques. Free grafts, such as a saphenous vein graft or a free arterial graft, can be used to augment the in situ arterial grafts. The graft vessels are anastomosed to the coronary arteries under direct visualization through a cardioscopic microscope inserted through an intercostal access port.
Type:
Application
Filed:
October 19, 2001
Publication date:
June 20, 2002
Inventors:
Stephen W. Boyd, Alan R. Rapacki, Matthias Vaska, Brian S. Donlon, William S. Peters, John H. Stevens
Abstract: Devices and methods are disclosed for stabilizing tissue within a patient's body during a surgical operation to provide a relatively motionless surgical field, such as during a coronary artery bypass graft procedure. The devices include tissue stabilizers which engage and provide stabilization to a targeted area of tissue and further have the ability to engage and manipulate some portion of tissue within or adjacent the targeted area to improve the surgical presentation of that portion of tissue. The tissue stabilizer typically has one or more stabilizer feet which have a first foot portion configured to provide stabilization to the targeted tissue and a second foot portion moveable relative to the first foot portion for manipulating a portion of tissue to improve the surgical presentation.
Type:
Grant
Filed:
September 16, 1999
Date of Patent:
June 18, 2002
Inventors:
Warren P. Williamson, IV, Paul A. Spence, Mark Ortiz, George A. Keller, Harry Leonard Green, II
Abstract: Surgical methods and instruments are disclosed for performing port-access or closed-chest coronary artery bypass (CABG) surgery in multivessel coronary artery disease. In contrast to standard open-chest CABG surgery, which requires a median sternotomy or other gross thoracotomy to expose the patient's heart, port-access CABG surgery is performed through small incisions or access ports made through the intercostal spaces between the patient's ribs, resulting in greatly reduced pain and morbidity to the patient. In situ arterial bypass grafts, such as the internal mammary arteries and/or the right gastroepiploic artery, are prepared for grafting by thoracoscopic or laparoscopic takedown techniques. Free grafts, such as a saphenous vein graft or a free arterial graft, can be used to augment the in situ arterial grafts. The graft vessels are anastomosed to the coronary arteries under direct visualization through a cardioscopic microscope inserted through an intercostal access port.
Type:
Application
Filed:
October 19, 2001
Publication date:
June 13, 2002
Inventors:
Stephen W. Boyd, Alan R. Rapacki, Matthias Vaska, Brian S. Donlon, William S. Peters
Abstract: Mechanical elements and/or adhesive is used in conjunction with or in place of suction to releasably attach elements of a system for manipulating a heart during cardiac surgery to the heart. The elements of the heart manipulation system are disclosed in the application Ser. No. 09/087,511 filed on May 29, 1998 and in the patent application Ser. No. 08/936,184 filed on Sep. 17, 1997. One form of the system can be used in minimally invasive surgery.
Abstract: A system for manipulating and supporting a beating heart during cardiac surgery, including a gross support element for engaging and supporting the heart (the gross support element preferably including a head which is sized and shaped to cradle the myocardium of the left ventricle), a suspension head configured to exert lifting force on the heart when positioned near the apical region of the heart at a position at least partially overlying the right ventricle, and a releasable attachment element for releasably attaching at least one of the gross support element and the suspension head to the heart. The releasable attachment element can be a mechanical element (such as one or more staples or sutures) or an adhesive such as glue. Alternatively, the system includes a suspension head and a releasable attachment element for releasably attaching it to the heart, but does not include a gross support element.
Abstract: An organ manipulator including at least one suction member or adhesive disc mounted to a compliant joint, a flexible locking arm for mounting such suction member or compliant joint, and a method for retracting and suspending an organ in a retracted position using suction (or adhesive force) so that the organ is free to move normally (e.g., to beat or undergo other limited-amplitude motion) in at least the vertical direction during both steps. In preferred embodiments, a suction member exerts suction to retract a beating heart and suspend it in a retracted position during surgery. As the retracted heart beats, the compliant joint allows it to expand and contract freely (and otherwise move naturally) at least in the vertical direction so that hemodynamic function is not compromised. The suction member conforms or can be conformed to the organ anatomy, and its inner surface is preferably smooth and lined with absorbent material to improve traction without causing trauma to the organ.
Type:
Application
Filed:
December 22, 2000
Publication date:
May 16, 2002
Applicant:
ORIGIN MEDSYSTEMS, INC.
Inventors:
Steven Peng, Larry Voss, David E. Hancock, Grace A. Carlson, John W. Davis, Albert K. Chin, Jaime S. Vargas
Abstract: An abdomino-pelvic perfusion and lavage apparatus is disclosed to which skin surrounding an incision formed through an abdominal wall of a patient can be attached and suspended. The apparatus includes a containment vessel impermeable to water and air, having a wall having a base, wherein the wall has an upper end with a perimeter which defines an upper opening, a lower end with a perimeter which defines a base opening, a cranial end with a perimeter edge which defines an opening, and a caudal end with a perimeter edge which defines an opening. The containment vessel can be carried by a table on which a patient is positioned. Scaffolding carried by the containment vessel supports and elevates the skin surrounding the incision made through the abdominal wall of the patient and thereby forms a well above, and extending into, an abdomino-pelvic cavity. A plurality of fluid ports communicate through the wall of the containment vessel.
Abstract: A cavity-retaining tool for bone surgery includes a cavity-retaining sheath which is inserted into the body and forms a cavity to act as a work space for bone surgery, a treatment channel which is placed in the cavity-retaining sheath and guides treatment tools necessary for the treatment of a bone into the space for bone surgery, an observation tool which is attached to the cavity-retaining sheath and by which to observe the operation field within the space for bone surgery, and a fitting portion which is placed at a tip of the cavity-retaining sheath and fits the tip of the cavity-retaining sheath to a bone.