A system to treat a patient comprises a user interface that allows a physician to view an image of tissue to be treated in order to develop a treatment plan to resect tissue with a predefined removal profile. The image may comprise a plurality of images, and the planned treatment is shown on the images. The treatment probe may comprise an anchor, and the image shown on the screen may have a reference image marker shown on the screen corresponding to the anchor. The planned tissue removal profile can be displayed and scaled to the image of the target tissue of an organ such as the prostate, and the physician can adjust the treatment profile based on the scaled images to provide a treatment profile in three dimensions. The images shown on the display may comprise segmented images of the patient with treatment plan overlaid on the images.

The invention relates to a non-surgical system for the retraction of the eyelid tissue of a patient meant to tighten the tissue without making an ablation, that is designed to be coupled to any laser generator equipment present in the market and wherein the laser generator supplies a laser beam in continuous mode to a handpiece.

The invention also relates to said handpiece.

The system is characterised by comprising a handpiece that can be coupled to a laser generator operating in a power range of 0.1 to 10 W and with treatment times of 0.1 to 5 s, and having one or more lenses that focus or collimate the laser beam to a small spot with a diameter of 0.5 to 5 mm. The system also comprises a timed pedal assembly with an electronic control unit associated with a timed pedal meant to compensate the delay time (t.sub.r) of the mechanical shutter and add it to the programmed emission time on the skin (t.sub.p), thereby compensating said delay time (t.sub.r) and allowing to obtain compensated laser beam pulses (t.sub.c), as well as incorporating a timed module to allow obtaining the required laser beam pulse times of 0.1 to 5 s.

A system to treat a patient comprises a user interface that allows a physician to view an image of tissue to be treated in order to develop a treatment plan to resect tissue with a predefined removal profile. The image may comprise a plurality of images, and the planned treatment is shown on the images. The treatment probe may comprise an anchor, and the image shown on the screen may have a reference image marker shown on the screen corresponding to the anchor. The planned tissue removal profile can be displayed and scaled to the image of the target tissue of an organ such as the prostate, and the physician can adjust the treatment profile based on the scaled images to provide a treatment profile in three dimensions. The images shown on the display may comprise segmented images of the patient with treatment plan overlaid on the images.

A system to treat a patient comprises a user interface that allows a physician to view an image of tissue to be treated in order to develop a treatment plan to resect tissue with a predefined removal profile. The image may comprise a plurality of images, and the planned treatment is shown on the images. The treatment probe may comprise an anchor, and the image shown on the screen may have a reference image marker shown on the screen corresponding to the anchor. The planned tissue removal profile can be displayed and scaled to the image of the target tissue of an organ such as the prostate, and the physician can adjust the treatment profile based on the scaled images to provide a treatment profile in three dimensions. The images shown on the display may comprise segmented images of the patient with treatment plan overlaid on the images.

The present invention concerns a cutting apparatus including a femtosecond laser (1), a shaping system (2) downstream from the femtosecond laser (1), for forming a phase-modulated laser beam, an optical scanner (4) downstream from the shaping system (2), and optical focusing system (5) downstream from the optical scanner (4), a control unit (6) for controlling the shaping system (2), the optical scanner (4) and the optical focusing system (5), characterized in that the apparatus further comprises an optical coupler (3) between the femtosecond laser (1) and the shaping system (2), the optical coupler (3) including a photonic crystal optical fiber for filtering the phase-modulated laser beam (21) coming from the shaping system (2).

In some embodiments, a wound therapy apparatus includes a wound dressing configured to be positioned over a wound, the wound dressing including a substantially stretchable wound contact layer supporting a plurality of electronic components and a plurality of electronic connections that connect at least some of the plurality of the electronic components. The wound contact layer can include a first plurality of flocked fibers positioned on a wound facing side of the wound contact layer, the first plurality of flocked fibers including soft material configured to cushion the wound contact layer when the wound dressing is positioned over the wound. The wound contact layer can include a second plurality of flocked fibers positioned on a non-wound facing side opposite the wound facing side.

A system to treat a patient comprises a user interface that allows a physician to view an image of tissue to be treated in order to develop a treatment plan to resect tissue with a predefined removal profile. The image may comprise a plurality of images, and the planned treatment is shown on the images. The treatment probe may comprise an anchor, and the image shown on the screen may have a reference image marker shown on the screen corresponding to the anchor. The planned tissue removal profile can be displayed and scaled to the image of the target tissue of an organ such as the prostate, and the physician can adjust the treatment profile based on the scaled images to provide a treatment profile in three dimensions. The images shown on the display may comprise segmented images of the patient with treatment plan overlaid on the images.

A system to treat a patient comprises a user interface that allows a physician to view an image of tissue to be treated in order to develop a treatment plan to resect tissue with a predefined removal profile. The image may comprise a plurality of images, and the planned treatment is shown on the images. The treatment probe may comprise an anchor, and the image shown on the screen may have a reference image marker shown on the screen corresponding to the anchor. The planned tissue removal profile can be displayed and scaled to the image of the target tissue of an organ such as the prostate, and the physician can adjust the treatment profile based on the scaled images to provide a treatment profile in three dimensions. The images shown on the display may comprise segmented images of the patient with treatment plan overlaid on the images.

Disclosed is a skin treatment laser apparatus using complex irradiations with different pulse durations. A skin treatment laser apparatus using complex radiations with different pulse durations according to the present invention comprises: a laser generation device for modulating at least one reference laser ray into multiple laser rays having different energy magnitudes and pulse durations, and alternating multiple laser rays so as to repeatedly output the alternated laser rays; and a laser irradiation device for irradiating a skin lesion with the multiple laser rays are alternated to be repeatedly applied by the laser generation device, so that laser ays having different pulse durations can be alternately and repeatedly irradiated onto a skin lesion for a laser irradiation period of time according to a chromophore, thereby improving the efficiency of laser treatment.

A system to treat a patient comprises a user interface that allows a physician to view an image of tissue to be treated in order to develop a treatment plan to resect tissue with a predefined removal profile. The image may comprise a plurality of images, and the planned treatment is shown on the images. The treatment probe may comprise an anchor, and the image shown on the screen may have a reference image marker shown on the screen corresponding to the anchor. The planned tissue removal profile can be displayed and scaled to the image of the target tissue of an organ such as the prostate, and the physician can adjust the treatment profile based on the scaled images to provide a treatment profile in three dimensions. The images shown on the display may comprise segmented images of the patient with treatment plan overlaid on the images.