Abstract: A tapered sleeve is provided that includes a hydrophilic coating on an inner surface. In use, the device is typically removed from sterile packaging and soaked to activate the lubricous properties of the coating. An implant (e.g., a pre-filled silicon breast implant) is introduced into a large end of the sleeve and extruded into a surgical pocket of minimal access incision size through a small-sized end of the device.

Abstract: Electrosurgical cutter or knife lighting and/or suction devices, systems and methods are described. The lighting features and suction features may be variously employed together or alone.

Abstract: A tapered sleeve is provided that includes a hydrophilic coating on an inner surface. In use, the device is typically removed from sterile packaging and soaked to activate the lubricous properties of the coating. An implant (e.g., a pre-filled silicon breast implant) is introduced into a large end of the sleeve and extruded into a surgical pocket of minimal access incision size through a small-sized end of the device.

Abstract: A tapered sleeve is provided that includes a hydrophilic coating on an inner surface. In use, the device is typically removed from sterile packaging and soaked to activate the lubricous properties of the coating. An implant (e.g., a pre-filled silicon breast implant) is introduced into a large end of the sleeve and extruded into a surgical pocket of minimal access incision size through a small-sized end of the device.

Abstract: Electrosurgical cutter or knife lighting and/or suction devices, systems and methods are described. The lighting features and suction features may be variously employed together or alone.

Abstract: A tapered sleeve is provided that includes a hydrophilic coating on an inner surface. In use, the device is typically removed from sterile packaging and soaked to activate the lubricous properties of the coating. An implant (e.g., a pre-filled silicon breast implant) is introduced into a large end of the sleeve and extruded into a surgical pocket of minimal access incision size through a small-sized end of the device.

Abstract: A tapered sleeve is provided for implant delivery. An implant (e.g., a pre-filled silicone breast implant) is introduced into a large proximal end of the sleeve and extruded into a surgical pocket of minimal access incision size through a small-sized distal end of the device. Sized appropriately to the implant, the sleeve remains intact during implant run-through of the sleeve.

Abstract: A tapered sleeve (4) is provided for implant delivery (2). An implant (e.g., a pre-filled silicon breast implant) is introduced into a large proximal end of the sleeve and extruded into a surgical pocket of minimal access incision size through a small-sized distal end of the device. Features of the delivery system are provided to assist in sterile preparation, ensure one time use, improve the delivery of high-friction implants and/or achieve a combination of the above.

Abstract: A tapered sleeve is provided that includes a hydrophilic coating on an inner surface. In use, the device is typically removed from sterile packaging and soaked to activate the lubricous properties of the coating. An implant (e.g., a pre-filled silicon breast implant) is introduced into a large end of the sleeve and extruded into a surgical pocket of minimal access incision size through a small-sized end of the device.

Abstract: A tapered sleeve is provided that includes a hydrophilic coating on an inner surface. In use, the device is typically removed from sterile packaging and soaked to activate the lubricous properties of the coating. An implant (e.g., a pre-filled silicon breast implant) is introduced into a large end of the sleeve and extruded into a surgical pocket of minimal access incision size through a small-sized end of the device.

Abstract: A tapered sleeve is provided for implant delivery. An implant (e.g., a pre-filled silicone breast implant) is introduced into a large proximal end of the sleeve and extruded into a surgical pocket of minimal access incision size through a small-sized distal end of the device. Sized appropriately to the implant, the sleeve remains intact during implant run-through of the sleeve.

Abstract: A tapered sleeve is provided for implant delivery. An implant (e.g., a pre-filled silicone breast implant) is introduced into a large proximal end of the sleeve and extruded into a surgical pocket of minimal access incision size through a small-sized distal end of the device. Sized appropriately to the implant, the sleeve remains intact during implant run-through of the sleeve.

Abstract: This relates to an improved delivery system for accurately loading and controlling the delivery of flowable material to a patient. Particularly, the system may be used in the injection of hard tissue implant materials such as PMMA under pressures up to about 4000 psi. The system includes an applicator with a first column having an implant material introduction section adapted to provide for effective loading of the implant material and a second column housing a piston. The introduction section has a larger size than that of a vessel section or bore in which the requisite pressure seal between the piston and bore wall is formed. The first column may include an introduction section flared open to an included larger funnel-like opening or a separate funnel may be used that interfaces with the introduction section to facilitate the introduction of implant material.

Abstract: A tapered sleeve is provided that includes a hydrophilic coating on an inner surface. In use, the device is typically removed from sterile packaging and soaked to activate the lubricous properties of the coating. An implant (e.g., a pre-filled silicon breast implant) is introduced into a large end of the sleeve and extruded into a surgical pocket of minimal access incision size through a small-sized end of the device.

Abstract: A tapered sleeve is provided for implant delivery. An implant (e.g., a pre-filled silicone breast implant) is introduced into a large proximal end of the sleeve and extruded into a surgical pocket of minimal access incision size through a small-sized distal end of the device. Sized appropriately to the implant, the sleeve remains intact during implant run-through of the sleeve.

Abstract: A tapered sleeve is provided that includes a hydrophilic coating on an inner surface. In use, the device is typically removed from sterile packaging and soaked to activate the lubricous properties of the coating. An implant (e.g., a pre-filled silicon breast implant) is introduced into a large end of the sleeve and extruded into a surgical pocket of minimal access incision size through a small-sized end of the device.

Abstract: A pressure applicator for applying pressure to a flowable implant material, e.g., PMMA. A pressure applicator or driver includes a pair of columns which are engageable with one another, preferably by threads to generate a driving pressure. A handle is provided for the operator to grasp and steady the device as he turns the handle to apply pressure to the implantable material within the applicator. A luer-lock or other connecting device is provided for attaching the applicator to a cannula (or a connecting conduit that in turns connects with a cannula) that will deliver the implant material to the desired site. Pressures of about 1000-3000 psi may be generated by this device.

Abstract: This relates to an improved delivery system for accurately loading and controlling the delivery of flowable material to a patient. Particularly, the system may be used in the injection of hard tissue implant materials such as PMMA under pressures up to about 4000 psi. The system includes an applicator with a first column having an implant material introduction section adapted to provide for effective loading of the implant material and a second column housing a piston. The introduction section has a larger size than that of a vessel section or bore in which the requisite pressure seal between the piston and bore wall is formed. The first column may include an introduction section flared open to an included larger funnel-like opening or a separate funnel may be used that interfaces with the introduction section to facilitate the introduction of implant material.

Abstract: A pressure applicator for applying pressure to a flowable implant material, e.g., PMMA. A pressure applicator or driver includes a pair of columns which are engageable with one another, preferably by threads to generate a driving pressure. A handle is provided for the operator to grasp and steady the device as he turns the handle to apply pressure to the implantable material within the applicator. A luer-lock or other connecting device is provided for attaching the applicator to a cannula (or a connecting conduit that in turns connects with a cannula) that will deliver the implant material to the desired site. Pressures of about 1000-3000 psi may be generated by this device.

Abstract: This relates to an improved delivery system for accurately loading and controlling the delivery of flowable material to a patient. Particularly, the system may be used in the injection of hard tissue implant materials such as PMMA under pressures up to about 4000 psi. The system includes an applicator with a first column having an implant material introduction section adapted to provide for effective loading of the implant material and a second column housing a piston. The introduction section has a larger size than that of a vessel section or bore in which the requisite pressure seal between the piston and bore wall is formed. The first column may include an introduction section flared open to an included larger funnel-like opening or a separate funnel may be used that interfaces with the introduction section to facilitate the introduction of implant material.