Abstract: A steerable laser probe may include an actuation structure, a nosecone fixed to the actuation structure by one or more links and one or more link pins, a housing tube having a first housing tube portion with a first stiffness and a second housing tube portion with a second stiffness, and an optic fiber disposed in the housing tube and the actuation structure. A compression of the actuation structure may be configured to gradually curve the housing tube and the optic fiber. A decompression of the actuation structure may be configured to gradually straighten the housing tube and the optic fiber.

Abstract: By adapting femtosecond micromachining approaches developed in hydrogels, we can perform Intra-tissue Refractive Index Shaping (IRIS) in biological tissues. We reduced femtosecond laser pulse energies below the optical breakdown thresholds to create grating patterns that are associated with a change in the refractive index of the tissue. To increase two-photon absorption, we used a two (or more)-photon-absorbing chromophore.

Abstract: A steerable laser probe may include an actuation structure, a nosecone fixed to the actuation structure by one or more links and one or more link pins, a flexible housing tube, and an optic fiber disposed in the flexible housing tube and the actuation structure. A compression of the actuation structure may be configured to gradually curve the flexible housing tube and the optic fiber. A decompression of the actuation structure may be configured to gradually straighten the flexible housing tube and the optic fiber.

Abstract: An ophthalmoscope having a laser device for laser irradiation of an eye, in particular for performing a photocoagulation on fundus of the eye of the eye, includes an illuminator for illuminating the eye as well as a camera for acquiring an image of the eye. The illuminator is adapted to generate visible and infrared lights. The ophthalmoscope further includes a control unit adapted to trigger the illuminator for generating a light pulse of visible light and to read out from the camera a control image of the eye acquired by the camera during the light pulse. The ophthalmoscope is configurable to acquire an image of an eye and perform a laser treatment of an eye.

Abstract: The invention relates to a method for preventing and/or treating skin disorders related to Propionibacterium acnes, comprising a step consisting in applying, to acneic skin, a dermatological composition comprising, in a physiologically acceptable medium, at least one anionic surfactant in an amount ranging from 0.001% to 0.05% by weight, relative to the total weight of the composition, and a step consisting in applying, to the treated skin, light radiation having a wavelength of between 360 and 450 nm, for at least 3 minutes.

Abstract: A shaft of a laparoscopic instrument, having a ceramic tube which extends over the main length of the shaft and has a sheath which encloses the ceramic tube in at least some regions, is situated to cover those regions of the ceramic tube that are at risk of breakage and is designed to prevent the splinters of ceramic from penetrating through the sheath. The ceramic tube forms a predetermined breaking point in the region of the sheath.

Abstract: A microlaser system, including a microlaser, having an elongated generally cylindrical substrate, a thin dopant film encircling at least a portion of the substrate, and a pumping laser positioned to shine onto the thin film. The thin film is between about 2 and about 10 microns thick. When the pumping laser shines on the thin film, the thin film lases in whispering gallery mode. The dopant is preferably selected from the group including transition metals and rare-earth elements. In a most preferred embodiment, the thin film is titanium-doped amorphous aluminum nitride.

Abstract: An articulate probe device includes a first mechanism, a second mechanism, and an overtube mechanism. The first mechanism includes a proximal link which is movable coupled to a first intermediate link, a plurality of intermediate links, and a distal link which is moveably coupled to a second one of the intermediate links. The second mechanism includes a proximal link which is movable coupled to a first intermediate link, a plurality of intermediate links, and a distal link which is moveably coupled to a second one of the intermediate links. The overtube mechanism includes a proximal link which is movable coupled to a first intermediate link, a plurality of intermediate links, and a proximal link which is moveably coupled to a second one of the intermediate links. Further, at least one of the first mechanism, second mechanism, and overtube mechanism is steerable and extendable beyond the other mechanisms.

Abstract: The present invention relates generally to a handpiece laser treatment apparatus for treating an affected area by irradiating lasers thereto. More particularly, the present invention relates to a handpiece laser treatment apparatus capable of adjusting the drawn length of an optical fiber in which laser is irradiated. The handpiece laser treatment apparatus capable of adjusting the length of optical fiber according to the present invention comprises: a laser module for generating a laser; an optical fiber that is connected to the laser module so that the laser is irradiated to the outside; a main body in which the laser module is inserted and disposed in the inside and the optical fiber is projected forwardly; and a slider for adjusting the length of the optical fiber which is projected in front of the body.

Abstract: The present invention is a surgical ring form structure including a surgical ring where the surgical ring is a circular structure adapted to receive a surgical implement rigidly affixable with respect to the surgical patient and the surgical ring, an electrical circuit allowing the surgical implement to be electrically communicable with a remote controller, a surgical implement as an effector unit, an effector unit configurable to operate a laser, ultrasound device, lights, camera, and other imaging and monitoring devices capable of two-dimensional and three-dimensional capture, a circular rail respective to the surgical ring whereupon controlled motion of the surgical implement or effector unit is provided, remote display and interfacing capabilities with the surgical implements, remote controlling interfaces for controlled motion of the surgical implements with respect to the surgical ring and the patient, and an electrical circuit having contacts extending along the periphery of the surgical ring.

Abstract: The invention relates to a device for machining an object by laser radiation, in particular by using the photodisruption method. Said device comprises an observation device for imaging the object and a laser scanning device by which the laser radiation is passed over a predetermined sector of the object for scanning said sector. According to the invention, such a device includes the observation device with a first lens for imaging the object; the laser scanning device with a second lens, through which the laser radiation is guided, in which both lenses with regard to the dimension of the regions to be produced in the images and/or with regard to their focal intercept are different from each other. This invention alternately images the respective region of the object in a first operating mode by the first lens and in a second operating mode by the second lens. It is thus possible to use in both operating modes a lens adapted to the intended imaging purpose.

Abstract: Laser surgery devices and methods of performing laser surgery using laser surgery devices are described. The laser surgery device may rotate a laser fiber along a longitudinal axis of the laser fiber in a repeating pattern through a user-specified rotational pattern. The laser surgery device may be optionally attached to a surgical device to implement hands-free operation of the laser surgery device.

Abstract: A method for providing vision correction to a patient. The method includes: (a) measuring the degree of vision correction needed by the patient and determining the location and shape of refractive structures that need to be positioned within the cornea to partially correct a patient's vision; (b) directing and focusing femtosecond laser pulses in the blue spectral region within the cornea at an intensity high enough to change the refractive index of the cornea within a focal region, but not high enough to damage the cornea or to affect cornea tissue outside of the focal region; and (c) scanning the laser pulses across a volume of the cornea or the lens to provide the focal region with refractive structures in the cornea or the lens. Again, the refractive structures are characterized by a change in refractive index, and exhibit little or no scattering loss.

Abstract: An aesthetic treatment device including: a multi illumination system having at least one source in the visible region, disposed around a periphery of a predetermined area of skin; an imaging device, sensitive to the illumination system, to discern features on or in the skin within the predetermined area of skin to be treated; multiple treatment light sources mounted on an optical bench and aimed and focused to a point of treatment within the predetermined area of skin; a mechanical guidance system to guide the multiple treatment light sources; and a pulse generator to control power output of the multiple treatment light sources based upon the treatment to be applied to the predetermined area of skin.

Abstract: A laparoscopic surgical device is provided, including a removable tool-comprising shaft having an outer shaft and an inner actuation rod that may be removably or permanently connected together. A handle of the device includes a two-button mechanism for engaging and releasing the removable tool-comprising shaft. The two-button mechanism is configured to engage overlapping corresponding apertures of the outer shaft and the inner rod that extends through the outer shaft, and the handle may include a variety of configurations that can readily interchangeably be used with different tool bodies.

Abstract: A medical manipulator includes a surgical tool that has an end effector at a distal end and a drive unit that is detachable from a handle of the surgical tool. In a state where the drive unit is mounted on the handle, when a manipulation lever is manipulated, a driving force of a motor is transmitted to the handle, and the end effector is operated. Even in a state where the drive unit is detached from the handle, the surgical tool can be independently used by a manual manipulation.

Abstract: A catheter and a console for a catheter. In one embodiment, the catheter includes: (1) a wall having a substantially annular cross-section and surrounding a bore, (2) a plurality of optical fibers associated with the wall and terminating at a distal end of the wall in end faces of differing, non-perpendicular orientation with respect to longitudinal axes of the plurality of optical fibers and (3) photoacoustic layers coupled to at least some of the end faces and configured to generate an ultrasonic signal in response to laser light transmitted along the plurality of optical fibers.

Abstract: A medical instrument having a shaft, at the proximal end of which a handle is arranged, wherein the shaft is rotatable about its longitudinal axis and can be secured in various positions of rotation relative to the handle via a licking mechanism. In order for a medical instrument with a shaft rotatable about its longitudinal axis to be designed in such a way that, while being easy to handle, it permits a large number of secure and positionally precise rotations of the shaft with respect to the handle, the licking mechanism is designed as a latching mechanism which has a perforated disk with recesses and latching elements, wherein the latching elements and/or the perforated disk are spring-loaded relative to each other, and at least one of the latching elements engages in a corresponding recess of the perforated disk in order to fix the shaft.

Abstract: A multi-function, adjustable chiropractic table comprises a body section fixed to a table frame. A cervical section is pivotally attached to the table frame and securable at a desired angle. The cervical section comprises a padded head support, forehead strap, and neck bolsters. The head support is slidably mounted in a tray and translatable therein using a scissors mechanism, for linear axial traction. Pivotally mounting the tray to the cervical section permits lateral traction. A four-bar linkage, including a base frame, permits raising/lowering of the table using an actuator activated by a foot triggered wave switch comprising proximity sensors. The body section comprises a chest, lumbar, and leg sections. The chest section is replaceable with a treatment module comprising hot and cold compresses, or a laser enhanced spinal decompression therapy apparatus comprising a laser driven by two linear actuators to emit light according to one or more treatment protocols.

Abstract: A laser eye surgery system includes a laser source, a ranging subsystem, an integrated optical subsystem, and a patient interface assembly. The laser source produces a treatment beam that includes a plurality of laser pulses. The ranging subsystem produces a source beam used to locate one or more structures of an eye. The ranging subsystem includes an optical coherence tomography (OCT) pickoff assembly that includes a first optical wedge and a second optical wedge separated from the first optical wedge. The OCT pickoff assembly is configured to divide an OCT source beam into a sample beam and a reference beam. The integrated optical subsystem is used to scan the treatment beam and the sample beam. The patient interface assembly couples the eye with the integrated optical subsystem so as to constrain the eye relative to the integrated optical subsystem.