Abstract: A minimally invasive surgical portal system, kit, device and method may include a top ring assembly removably connected to an arm of a table mounted frame to provide stability and a secure trajectory. The portal system may include a top-ring assembly which may mount to an arm of a table mounted frame. The system may include a removable connection mechanism comprising a spring loaded collar configured to removably connect the top ring assembly to a table mounted frame. A variable adjustment positioner may be removably connected to the arm of the table mounted frame. The system may also include a depth positioning mechanism. The system may further include a light source configured to be placed down the portal tube.

Abstract: Described are methods and systems for reshaping a cartilage structure. Such methods comprise treating the cartilage structure with electromagnetic energy and fitting a device to the cartilage structure to retain it in the desired place, form, and/or orientation. Systems comprise an emitter of electromagnetic energy and a device to the cartilage structure to retain it in the desired place, form, and/or orientation.

Abstract: An ablation cannula kit with insert includes a trocar and cannula with a hollow shaft. The hollow shaft is configured to permit passage of the trocar therethrough. An auxiliary port extends from an exterior surface of the cannula and defines a hollow passageway into the hollow shaft. Notably, an insert is included in the kit. The insert defines a hollow shaft and is adapted to be inserted into the hollow shaft of the cannula. An auxiliary port extends from an exterior surface of the insert defining a hollow passageway into the hollow shaft of the insert. Finally, a laser fiber is included with a diameter less than an interior diameter of the hollow shaft of the insert so as to permit passage of the fiber through the hollow shaft of the insert.

Abstract: Infections of body tissues, particularly of the eye or of wounds, are treated by brief low-intensity irradiation with ultraviolet radiation in the UVC band. A suitable treatment device contains a light-emitting diode producing UVC radiation at a wavelength of about 265 nm, at a power output of 5 mW, directed on to a zone of tissue about 4 mm in diameter. An optical aiming system indicates the zone of tissue to be irradiated. Irradiation for periods as brief as 1 second has been found effective, which equates to a dose of 4 mJ/cm2 delivered to the tissue. Longer periods and higher intensities may be used for more resistant infections. Such irradiation may be delivered endoscopically to treat internal infections or to prevent infection during surgery. The device may be hand held or mounted to an ophthalmic slit lamp or other support.

Abstract: A method of immunotherapy of a mammal or a laser device therefor, includes the step of treating one or more immune privileged cells, tissue or organs of said mammal with a laser to reduce or eliminate the immune privilege status of said one or more cells, tissues and/or organs to thereby elicit an immune response that is beneficial to the mammal. The method of immunotherapy avoids or minimizes lasting damage to the treated cells, tissues and/or organs. The laser treatment is typically, although not exclusively to the pigmented epithelium of the eye or eyes. The method may be for treating a disease or conditions selected from a bacterial infection, a viral infection, early AMD, glaucoma, diabetic retinopathy, multiple sclerosis, Parkinson's disease, and Alzheimer's disease. Typically, the radiant exposure level of the laser treatment is no greater than 60-100% of a visible effect threshold.

Abstract: An ophthalmological apparatus includes a handle for manually holding and applying the ophthalmological apparatus, fastening abilities for fixing the ophthalmological apparatus at an eye, a light source, and a light projector for the focused projection of light pulses for punctiform tissue breakdown at a focal point in the interior of the eye tissue. The ophthalmological apparatus also includes a movement driver for moving the light projector. The movement of the light projector and therefore that of the focal point with the assistance of the movement driver permits a dimensioning of the optical projection system of the light projector which is substantially smaller than in the case of an ophthalmological apparatus where the focal point is moved exclusively by an optical projection system.

Abstract: Devices and methods are provided which shield at least one turbinate from trauma or damage during sinus surgery that could be caused by direct contact with diagnostic and therapeutic devices. The devices and methods provided are particularly useful for protecting nasal turbinates during FESS and FTIS procedures.

Abstract: A method for performing wavefront-guided laser surgery on a cornea includes the step of calculating a corneal flap configuration based upon collected anatomical information on an eye and wavefront data on a cornea of the eye. Such data may be collected by, for example, an aberrometer, although this is not intended as a limitation. The calculated configuration is transmitted to a processor in controlling relation to a corneal flap-cutting device. The flap-cutting device is used to create a corneal flap based upon the calculated configuration. A system for performing wavefront-guided laser surgery on a cornea includes a processor for receiving the anatomical information and wavefront data. A software package is adapted to calculate the corneal flap configuration and to control a conical flap-cutting device to cut a corneal flap commensurate with the calculated corneal flap configuration.

Abstract: A surgical microscopy system comprises microscopy optics for generating an image of an eye under surgery. A pattern generator generates a pattern to be superimposed with the image. An eye-tracker is provided for tracking a position of the superimposed pattern with respect to the image in case of a movement of the eye. The superimposed pattern comprises pattern elements that are equally distributed on first and second circles of different sizes, in order to give assistance when placing a suture during a corneal transplant. The superimposed pattern may also provide an assistance for orientating a toric intra-ocular lens.

Abstract: Robotic and/or surgical devices, systems, and methods include kinematic linkage structures and associated control systems configured to facilitate preparation of the system for use. One or more kinematic linkage sub-systems may include joints that are actively driven, passive, or a mix of both. A set-up mode employs an intuitive user interface in which one or more joints are initially held static by a brake or joint drive system. The user may articulate the joint(s) by manually pushing against the linkage with a force, torque, or the like that exceeds a manual articulation threshold. Articulation of the moving joints is facilitated by modifying the signals transmitted to the brake or drive system. The system may sense completion of the reconfiguration from a velocity of the joint(s) falling below a threshold, optionally for a desired dwell time. The system may provide a detent-like manual articulation that is not limited to mechanically pre-defined detent joint configurations.

Abstract: A method and device for stimulating human dermal tissue retraction and collagen and elastin production is provided. One or more lasers or other electromagnetic radiation devices produce at least two output beams (split or independent beams) that can be directed to deliver electromagnetic energy to a desired subsurface depth of dermal tissue, thereby disrupting the same, without causing excessive damage to the adjacent epidermis, subcutaneous fatty tissue, or blood vessels of the skin.

Abstract: Described are methods and systems for reshaping a cartilage structure. Such methods comprise treating the cartilage structure with electromagnetic energy and fitting a device to the cartilage structure to retain it in the desired place, form, and/or orientation. Systems comprise an emitter of electromagnetic energy and a device to the cartilage structure to retain it in the desired place, form, and/or orientation.

Abstract: A steerable laser probe may include a handle having a handle distal end and a handle proximal end, a housing sleeve disposed in an inner bore of the handle configured to project a distance from the handle distal end, an optic fiber disposed in the housing sleeve, a shape memory sleeve disposed over a distal end of the optic fiber, and a light source configured to connect to a proximal end of the optic fiber. The shape memory sleeve may be configured to curve the distal end of the optic fiber at an angle, e.g., 90 degrees, when the shape memory sleeve is not contained within the housing sleeve.

Abstract: A steerable laser probe may include a handle having a handle distal end and a handle proximal end, a housing sleeve disposed in an inner bore of the handle configured to project a distance from the handle distal end, an optic fiber disposed in the housing sleeve, a shape memory sleeve disposed over a distal end of the optic fiber, and a light source configured to connect to a proximal end of the optic fiber. The shape memory sleeve may be configured to curve the distal end of the optic fiber at an angle, e.g., 90 degrees, when the shape memory sleeve is not contained within the housing sleeve.

Abstract: Treatments to improve ocular conditions such as presbyopia are provided. Structural (mechanical) weakening of the sclera is accomplished through the formation of a 3-D pattern of laser foci in the sclera resulting in an increase in the range of ocular accommodation.

Abstract: A planning system generates control data for a treatment device for eye surgery that creates at least two incision surfaces in the cornea using a laser apparatus. The planning system includes a computation device configured to specify the cornea incision surfaces based on data of a refractive correction. The cornea incision surfaces include an access incision and a cap incision, with the access incision having a smaller diameter than the cap incision. The computation device being configured to generate a control data record for the cornea incision surfaces for purposes of controlling the laser apparatus.

Abstract: A dental tissue treatment apparatus and associated methods includes a feedback-controlled beam guidance system for directing treatment to a defined area of dental tissue.

Abstract: A tapered sleeve is provided that includes a lubricating coating on an inner surface. 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 apparatus.

Abstract: The invention relates to a radiation emitting device (1) for application near mammal tissue (2), comprising: a substrate (3) having a front surface (4) and an opposing back surface (5), said substrate accommodating at least one radiation source (6) on said front surface (4). Said at least one radiation source (6) is arranged for applying energy on said mammal tissue (2). A heat spreading section (7) is arranged on said back surface (5) of said substrate (3) in thermal contact with said at least one radiation source (6). Said heat spreading section (7) has an extended area (8) extending beyond said substrate (3) in a direction substantially parallel to said substrate (3). Said extended area (8) of said heat spreading section (7) is arranged in thermal contact with said mammal tissue (2).

Abstract: A sleep mask is configured to provide light therapy to a subject. The sleep mask may provide a comfortable delivery mechanism for the light therapy, and may deliver the light therapy to the subject while the subject is asleep, in the process of going to sleep, and/or waking from sleep. In one embodiment, the sleep mask includes one or more of a shield, a strap, a first lighting module, and/or a second lighting module.