A medical device to protect a body opening, the medical device including a sleeve having a proximal end and a distal end a proximal ring attached to the proximal end of the sleeve, and a guard assembly located a distal end of the sleeve.
A valve component 1 of the invention comprises a main valve 2 which is located on a centre line and at least one auxiliary valve 3 which is located radially outwardly of the main valve 2. The main valve may be used for sealing engagement with a cannula. In some cases the cannula may be used for introduction of a number of robotically controlled surgical instruments generally, including a camera. The auxiliary valves 3 may be utilised to introduce another instrument through the valve component. The valve component is mounted in a manner which ensures that the valve component 1 is rotatable about a centre line through the axis of the valve component 1. This ensures that the valve component 1 can be rotated relative to a cannula inserted through the main valve 2 and consequently that the auxiliary valves 3 are rotatable relative to the cannula allowing the auxiliary valves 3 to be positioned to facilitate optimum access and manipulation for an auxiliary instrument(s) inserted through the auxiliary valve(s) 2.
A medical device to protect a body opening, such as a vagina. The medical device may include a lumen and anchoring structure(s) for securing the device in the body opening. In some embodiments, the medical device includes a sleeve, a proximal ring attached to a proximal end of the sleeve, and a distal ring attached to a distal end of the sleeve.
Apparatus for placement in an incision of a natural body opening comprises a retractor having a sleeve (655, 656, 657) and a guard device comprising overlapping petals (662) depending from a mounting ring (661). The guard device is movable by the retractor from an insertion configuration to a deployed configuration as the retractor sleeve is moved to the retracting configuration.
An echogenic curette for carrying out a suction dilation and curettage allows the physician to view the curette and the pathology they want to remove, and use that to guide the procedure. The echogenic curette is visible using ultrasound imaging.
A valve component 1 of the invention comprises a main valve 2 which is located on a centre line and at least one auxiliary valve 3 which is located radially outwardly of the main valve 2. The main valve may be used for sealing engagement with a cannula. In some cases the cannula may be used for introduction of a number of robotically controlled surgical instruments generally, including a camera. The auxiliary valves 3 may be utilised to introduce another instrument through the valve component. The valve component is mounted in a manner which ensures that the valve component 1 is rotatable about a centre line through the axis of the valve component 1. This ensures that the valve component 1 can be rotated relative to a cannula inserted through the main valve 2 and consequently that the auxiliary valves 3 are rotatable relative to the cannula allowing the auxiliary valves 3 to be positioned to facilitate optimum access and manipulation for an auxiliary instrument(s) inserted through the auxiliary valve(s) 2.
A suture device comprises a needle (5) which is movable between a retracted configuration and an extended configuration and a drive for rotating the needle between the retracted and extended configurations. The drive comprises an axle (18) which is rotated by a rack (12) and pinion (10) system.
A61B 17/04 - Surgical instruments, devices or methods, e.g. tourniquets for closing wounds, or holding wounds closed, e.g. surgical staples; Accessories for use therewith for suturing wounds; Holders or packages for needles or suture materials
A61B 17/06 - Needles; Holders or packages for needles or suture materials
Apparatus for placement in an incision or a natural body opening comprises a retractor having a sleeve (655, 656, 657) and a guard device comprising overlapping petals (662) depending from a mounting ring (661). The guard device is movable by the retractor from an insertion configuration to a deployed configuration as the retractor sleeve is moved to the retracting configuration.
A61B 17/02 - Surgical instruments, devices or methods, e.g. tourniquets for holding wounds open; Tractors
A61B 1/32 - Devices for opening or enlarging the visual field, e.g. of a tube of the body
A61B 90/00 - Instruments, implements or accessories specially adapted for surgery or diagnosis and not covered by any of the groups , e.g. for luxation treatment or for protecting wound edges
A61B 17/00 - Surgical instruments, devices or methods, e.g. tourniquets
A method for performing a laparoscopic procedure may include inserting a bag through an opening. The method may also include delivering tissue into the bag, sealing the bag, and inflating the bag to create an artificial pneumoperitoneum that extends the abdomen and provides additional working and viewing space. Further, the method may include carrying out a procedure on the tissue located in the inflated bag.
A valve component (1) of the invention comprises a main valve (2) which is located on a centre line and at least one auxiliary valve (3) which is located radially outwardly of the main valve (2). The main valve may be used for sealing engagement with a cannula. In some cases the cannula may be used for introduction of a number of robotically controlled surgical instruments generally, including a camera. The auxiliary valves (3) may be utilised to introduce another instrument through the valve component. The valve component is mounted in a manner which ensures that the valve component (1) is rotatable about a centre line through the axis of the valve component (1). This ensures that the valve component (1) can be rotated relative to a cannula inserted through the main valve (2) and consequently that the auxiliary valves (3) are rotatable relative to the cannula allowing the auxiliary valves (3) to be positioned to facilitate optimum access and manipulation for an auxiliary instrument(s) inserted through the auxiliary valve(s) (2).
An instrument such as a tenaculum comprises a pair of jaws (202, 203) which are pivotal from an open configuration in which the jaws (202, 203) are splayed apart to a closed low profile delivery configuration. The jaws (202, 203) each have tissue engagement features (201). A protector loop (200) for each jaw which may be of a shape memory material such as Nitinol provides a safety protective distal tip which is distal of the tissue engaging features (201). The atraumatic tip does not harm tissue and does not compromise the integrity of a bag which may be used as a containment device in a procedure such as a hysterectomy.
A61B 17/29 - Forceps for use in minimally invasive surgery
A61B 90/00 - Instruments, implements or accessories specially adapted for surgery or diagnosis and not covered by any of the groups , e.g. for luxation treatment or for protecting wound edges
A61B 17/00 - Surgical instruments, devices or methods, e.g. tourniquets
A method for performing a laparoscopic procedure may include inserting a bag through an opening. The method may also include delivering tissue into the bag, sealing the bag, and inflating the bag to create an artificial pneumoperitoneum that extends the abdomen and provides additional working and viewing space. Further, the method may include carrying out a procedure on the tissue located in the inflated bag.
A surgical access sealing device comprises expansile chambers 306, 307, 308, 309 which define inflation spaces. An upper layer 304 in one case comprises two chambers 306, 307 which are overlapped when uninflated. A lower layer 305 comprises two chambers 308, 309 which are also overlapped, when uninflated. The region of overlap between the chambers 306, 307 of the first layer is offset from the region of overlap between the chambers 308, 309 of the second layer. The walls of the inflated chambers are movable for passage of an object such as a surgeon's arm/hand whilst maintaining a seal.
An instrument access device comprises first, second and third instrument seals for sealing around instruments extended through the device. The seals have respective connector sleeves. Each sleeve connects a base to one of the instrument seals. The device also comprises two insufflation/desufflation ports. Each of the ports comprises a connector extending from the base, a tube extending from the connector, a luer connector and a removable cap. The luer connector is used for connection to any suitable supply line for insufflation gas or for discharge if insufflation gas. In use, the insufflation/desufflation ports facilitate independent control of insufflation and desufflation as may be required during a surgical procedure. Access sleeve at the proximal end is cut-off, folded over the inner proximal ring and is held in place between the base and the inner proximal ring when the base is fitted. The proximal end of the sleeve that is generated when the sleeve is pulled upwardly to retract an incision is removed from the field of use.
An artificial pneumoperitoneum bag device may include an inflatable bag having an opening at an end of the bag. The bag device may also include an indicator including at least one repeating pattern on a wall of the bag. The pattern may extend across at least one side of the bag.
A61B 17/02 - Surgical instruments, devices or methods, e.g. tourniquets for holding wounds open; Tractors
A61B 90/00 - Instruments, implements or accessories specially adapted for surgery or diagnosis and not covered by any of the groups , e.g. for luxation treatment or for protecting wound edges
An instrument access device 1 comprises a proximal member 25 for location externally of an opening into a body cavity. A first connector 20 extends between the proximal member 25 and a first instrument receiver 2. A second connector 21 extends between the proximal member and a second instrument receiver 3. Instrument seals can be housed in relatively rigid housings for added strength.
A bag with one or more openings is placed within a body cavity. Excized tissue is placed within the opening of a deflated bag. One or more openings of the bag are withdrawn outside the body cavity and the bag is inflated. Instruments including laparoscopic visualization are placed within the inflated bag that remains within the body cavity. The tissue retained within the bag is morcellated/crushed/reduced and removed. The bag is deflated and removed with residual tissue/blood/fluids inside. The tissue to be removed is retained in the bag which prevents potentially harmful material such as cancerous cells from being released in the body cavity.
A method for performing a laparoscopic procedure may include inserting a bag through an opening. The method may also include delivering tissue into the bag, sealing the bag, and inflating the bag to create an artificial pneumoperitoneum that extends the abdomen and provides additional working and viewing space. Further, the method may include carrying out a procedure on the tissue located in the inflated bag.
A61B 17/24 - Surgical instruments, devices or methods, e.g. tourniquets for use in the oral cavity, larynx, bronchial passages or nose; Tongue scrapers
A61B 17/26 - Tonsillotomes, with or without means for stopping bleeding
An instrument access device comprises first, second and third instrument seals for sealing around instruments extended through the device. The seals have respective connector sleeves. Each sleeve connects a base to one of the instrument seals. The device also comprises two insufflation/desufflation ports. Each of the ports comprises a connector extending from the base, a tube extending from the connector, a luer connector and a removable cap. The luer connector is used for connection to any suitable supply line for insufflation gas or for discharge if insufflation gas. In use, the insufflation/desufflation ports facilitate independent control of insufflation and desufflation as may be required during a surgical procedure. Access sleeve at the proximal end is cut-off, folded over the inner proximal ring and is held in place between the base and the inner proximal ring when the base is fitted. The proximal end of the sleeve that is generated when the sleeve is pulled upwardly to retract an incision is removed from the field of use.
An instrument access device 1 comprises a proximal member 25 for location externally of an opening into a body cavity. A first connector 20 extends between the proximal member 25 and a first instrument receiver 2. A second connector 21 extends between the proximal member and a second instrument receiver 3. Instrument seals can be housed in relatively rigid housings for added strength.
An instrument access device comprises first, second and third instrument seals for sealing around instruments extended through the device. The seals have respective connector sleeves. Each sleeve connects a base to one of the instrument seals. The device also comprises two insufflation/desufflation ports. Each of the ports comprises a connector extending from the base, a tube extending from the connector, a luer connector and a removable cap. The luer connector is used for connection to any suitable supply line for insufflation gas or for discharge if insufflation gas. In use, the insufflation/desufflation ports facilitate independent control of insufflation and desufflation as may be required during a surgical procedure. Access sleeve at the proximal end is cut-off, folded over the inner proximal ring and is held in place between the base and the inner proximal ring when the base is fitted. The proximal end of the sleeve that is generated when the sleeve is pulled upwardly to retract an incision is removed from the field of use.
An instrument access device comprises at least a first instrument seal 71 to effect a seal around a first instrument extended through the device and a second instrument seal 72 to effect a seal around a second instrument extended through the device. The instrument seals 71, 72 are configured to be arranged in a sealing relationship to a body of a patient. The device also comprises a distal anchoring ring 401 for location within a wound interior and a retractor member 402 extending proximally from the distal anchoring ring 401 to retract laterally the sides of a wound opening.
A seal comprises a first sealing member and a second sealing member. The sealing members each have an accessway to facilitate access from one side of the sealing member to the other side of the sealing member. The accessways are offset to facilitate sealed access of an object through the sealing members.
A61B 19/00 - Instruments, implements or accessories for surgery or diagnosis not covered by any of the groups A61B 1/00-A61B 18/00, e.g. for stereotaxis, sterile operation, luxation treatment, wound edge protectors(protective face masks A41D 13/11; surgeons' or patients' gowns or dresses A41D 13/12; devices for carrying-off, for treatment of, or for carrying-over, body liquids A61M 1/00)
A wound retractor (320) comprises a distal ring (3) for insertion through a wound opening (6), a proximal ring (4) for location externally of the wound opening (6), a valve (10) mounted to the proximal ring (4), and a sleeve (2) for retracting laterally the sides of the wound opening (6). The wound retractor (320) also comprises a flexible release member (81) for releasing the distal ring (3) from a retracting configuration for removal of the distal ring (3) from the wound opening (6). A first end (301) of the release member (81) is attached to the valve housing (102), the release member (81) loops around the distal ring (3), and a second end (302) of the release member (81) is movable relative to the proximal ring (4) to release the distal ring (3) from the retracting configuration.