The present invention relates to a fully integrated sterilizable one time use disposable tissue visualization device and methods for using such devices. Preferred embodiments of the invention facilitate the visualization of an internal tissue site while causing a minimum of damage to the surrounding tissue. Further preferred embodiments may allow for the delivery of fluids and other treatment to an internal tissue site.

The present invention relates to a fully integrated sterilizable one time use disposable tissue visualization device and methods for using such devices. Preferred embodiments of the invention facilitate the visualization of an internal tissue site while causing a minimum of damage to the surrounding tissue. Further preferred embodiments may allow for the delivery of fluids and other treatment to an internal tissue site.

Provided herein are imaging systems for a patient including an imaging probe and an imaging assembly. The imaging probe includes: an elongate shaft with a proximal end, a distal portion, and a lumen extending between the proximal end and the distal portion; a rotatable optical core with a proximal end and a distal end, and at least a portion of the rotatable optical core is positioned within the lumen of the elongate shaft; and an optical assembly positioned proximate the distal end of the rotatable optical core, the optical assembly configured to direct light to tissue to be imaged and collect reflected light from the tissue to be imaged. The imaging assembly is constructed and arranged to optically couple to the imaging probe. The imaging assembly is configured to emit light into the imaging probe and receive the reflected light collected by the optical assembly.

A multi-lumen arthroscopy cannula (MLAC) is described which may be used to contain and manage joint irrigation fluid as a means of improving the state of arthroscopic surgery. The MLAC includes an arrangement of components within a cannula housing. An internal passage (central lumen) through which surgical instruments may be inserted into the body includes a series of components which greatly reduce the leakage path of fluid through the central lumen while enabling manipulation of surgical instruments during arthroscopic procedures. A dual-tapered diaphragm seal grips the instruments as it is manipulated to prevent leakage. This works in concert with the consecutively placed multi-leaflet valves, which act to prevent internal leakage and maintain pressure within the surgical cavity. Unique features of this cannula, aside from the multiple valves and dual-tapered diaphragm seal, include bilateral lumens which provide infusion and withdrawal of irrigation inside the joint capsule. Complementary to this is an elongated central lumen which accommodates both straight- and curved-tip arthroscopic instruments.

A multi-lumen arthroscopy cannula (MLAC) is described which may be used to contain and manage joint irrigation fluid as a means of improving the state of arthroscopic surgery. The MLAC includes an arrangement of components within a cannula housing. An internal passage (central lumen) through which surgical instruments may be inserted into the body includes a series of components which greatly reduce the leakage path of fluid through the central lumen while enabling manipulation of surgical instruments during arthroscopic procedures. A dual-tapered diaphragm seal grips the instruments as it is manipulated to prevent leakage. This works in concert with the consecutively placed multi-leaflet valves, which act to prevent internal leakage and maintain pressure within the surgical cavity. Unique features of this cannula, aside from the multiple valves and dual-tapered diaphragm seal, include bilateral lumens which provide infusion and withdrawal of irrigation inside the joint capsule. Complementary to this is an elongated central lumen which accommodates both straight- and curved-tip arthroscopic instruments.

An attachment apparatus to an arthroscopic tool, comprising at one axial distal end of the attachment, a slider end collar of tubular cross section with a hook or fastening provision at one axial distal end of said slider end collar to connect to a force applicator and, rigidly attached at the other axial distal end of the slider end collar, are at least two pairs of substantially rod-like, closely located structures termed “sliders,” wherein each pair of said sliders are tangentially situated at opposite ends of the slider end collar and extends away from the slider end collar into channels or grooves of a slider guide sleeve with tubular cross section, wherein one distal end of the slider guide sleeve is at least a pair of cutouts for a plurality of lifting tabs placed at opposite radial distal ends along the circumference of the slider guide sleeve.

An attachment apparatus to an arthroscopic tool, comprising at one axial distal end of the attachment, a slider end collar of tubular cross section with a hook or fastening provision at one axial distal end of said slider end collar to connect to a force applicator and, rigidly attached at the other axial distal end of the slider end collar, are at least two pairs of substantially rod-like, closely located structures termed “sliders,” wherein each pair of said sliders are tangentially situated at opposite ends of the slider end collar and extends away from the slider end collar into channels or grooves of a slider guide sleeve with tubular cross section, wherein one distal end of the slider guide sleeve is at least a pair of cutouts for a plurality of lifting tabs placed at opposite radial distal ends along the circumference of the slider guide sleeve.

A guide device for TMJ arthroscopy including one or more pairs of arms pivotly connected at one end to a working cannula holder and defining a working cannula axis; and at the opposite end to at one or more arms via one or more pivot connections to form with the arm one or more adjustable parallelograms, an end of the arm is connected to an irrigation cannula holder defining an irrigation cannula axis, the irrigation cannula axis intersecting with the working cannula axis at an intersection, intersection and one or more of the pivot connections between connecting the arms are located at opposing vertices of one or more of the adjustable parallelograms.

Connectors for connecting or linking one instrument or object to one or more other instruments or objects are disclosed herein. In some embodiments, a connector can include a first arm with a first attachment feature for attaching to a first object, such as a surgical access device, and a second arm with a second attachment feature for attaching to a second object, such as a support. The connector can have an unlocked state, in which the position and orientation of the access device can be adjusted relative to the support, and a locked state in which movement of the access device relative to the support is prevented or limited. Locking the connector can also be effective to clamp or otherwise attach the connector to the access device and the support, or said attachment can be independent of the locking of the connector.

A positioning system comprising a first working element having a first tubular shaft, a second working element having a second tubular shaft, an arcuate element having a holding element and an arcuate rail, wherein the arcuate rail is disposed on the holding element and the holding element is adapted to be fixed on the receiving section by means of a fastening element, and a guiding element having a holding section and a guiding section, wherein the holding section is guided on the rail and the guiding section receives the second shaft, the holding section having a locking element securing the guiding element to the rail, wherein the locking element in a locking position blocks displacement of the holding section in a transverse direction and in a release position allows displacement of the holding section in the transverse direction.