Patent application number | Description | Published |
20090093799 | System and method for dermatological lesion treatment using gas discharge lamp with controllable current density - A device for treatment of dermatological lesions includes a gas discharge lamp for generating a plurality of different electromagnetic radiation treatments. A power supply for driving the gas discharge lamp is selectively controlled to drive the gas discharge lamp to output a first electromagnetic treatment when an area of skin being treated has a pigmented lesion, and to drive the gas discharge lamp to output a second electromagnetic treatment when the area of skin being treated has a vascular lesion, where the second electromagnetic treatment has a spectral distribution that is blue-shifted relative to the spectral distribution of the first electromagnetic treatment. | 04-09-2009 |
20090131923 | SYSTEM AND METHOD FOR TREATMENT OF UVULA AND SOFT PALATE TO REDUCE TISSUE LAXITY - System and methods for minimally invasive treatment of snoring are described. According to one system and method, laser energy is applied to tissue of a soft palate and/or uvula to create a pattern of multiple treatment spots in the tissue. According to another system and method, electromagnetic energy from a filament light source is impinged of soft palate and/or uvula tissue to achieve volumetric heating of the tissue. The systems and methods increase rigidity and/or reduce laxity of the tissue, and/or volumetrically reduce the tissue, thereby diminishing snoring. | 05-21-2009 |
20090254073 | FRACTIONAL SCANNER FOR DERMATOLOGICAL TREATMENTS - A dermatological treatment device is disclosed for generating a matrix of two dimensional treatment spots on the tissue. A handpiece carrier a laser which generates a beam of laser pulses. The pulses are focused onto the tissue with a lens system. A diffractive element is positioned between the laser and the lens system for splitting the laser beam into a plurality of sub-beams. A scanner translates the beam over the diffractive element to generate the two dimensional spot pattern. The laser has a semi-monolithic resonator design with one integral end mirror defining the output coupler and a second, independent mirror for adjustment. | 10-08-2009 |
20100022999 | SYMMETRICAL RF ELECTROSURGICAL SYSTEM AND METHODS - Systems, apparatus, and methods for treating a patient's tissue via electric energy delivered concurrently from a first electrode of a first handpiece and a second electrode of a second handpiece. Each of the first and second handpieces may have the same or similar structure and may be separately manipulable to different locations on the patient's skin to allow the rapid treatment of target tissue(s) at various regions of the patient's body. The first and second handpieces may each be coupled to an electrosurgical generator configured for providing first and second AC voltages of equal magnitude and opposite polarity to the first and second electrodes, respectively. The first and second electrodes may each comprise a spiral inductor. | 01-28-2010 |
20100222853 | METHODS AND DEVICES FOR NON-ABLATIVE LASER TREATMENT OF DERMATOLOGIC CONDITIONS - The invention comprises a system and method for non-ablative laser treatment of dermatologic conditions. A laser energy is transmitted to an underlying target element in the skin. The target element is heated to a temperature of at least forty degrees Celsius. In some embodiments, a pulsed, near infrared, high peak power laser energy is used. The systems and methods of the present invention may be used to treat acne, smooth wrinkles, remove hair, treat leg veins, treat facial veins, improve skin texture, decrease pore sizes, reduce rosacea, reduce “blush/diffuse redness, reduce striae, reduce scarring, or the like. | 09-02-2010 |
20110004200 | AESTHETIC TREATMENT FOR WRINKLE REDUCTION AND REJUVENATION - A dermatological treatment method includes directing laser energy having a wavelength of 2.79 μm onto skin. According to disclosed methods, the energy can function to ablate a first portion of epidermal tissue, coagulate an underlying second portion of epidermal tissue, and promote collagen formation in tissue of the underlying dermis. In an exemplary treatment apparatus, a laser using a YSGG gain medium is mounted in a handpiece. The handpiece may include a two-axis scanner to allow for uniform scanning of the energy over the tissue surface. | 01-06-2011 |
20120029605 | FRACTIONAL SCANNER FOR DERMATOLOGICAL TREATMENTS - A dermatological treatment device is disclosed for generating a matrix of two dimensional treatment spots on the tissue. A handpiece carrier a laser which generates a beam of laser pulses. The pulses are focused onto the tissue with a lens system. A diffractive element is positioned between the laser and the lens system for splitting the laser beam into a plurality of sub-beams. A scanner translates the beam over the diffractive element to generate the two dimensional spot pattern. The laser has a semi-monolithic resonator design with one integral end minor defining the output coupler and a second, independent mirror for adjustment. | 02-02-2012 |
20120330289 | AESTHETIC TREATMENT FOR WRINKLE REDUCTION AND REJUVENATION - A dermatological treatment method includes directing laser energy having a wavelength of 2.79 μm onto skin. According to disclosed methods, the energy can function to ablate a first portion of epidermal tissue, coagulate an underlying second portion of epidermal tissue, and promote collagen formation in tissue of the underlying dermis. In an exemplary treatment apparatus, a laser using a YSGG gain medium is mounted in a handpiece. The handpiece may include a two-axis scanner to allow for uniform scanning of the energy over the tissue surface. | 12-27-2012 |
20130060307 | FRACTIONAL SCANNER FOR DERMATOLOGICAL TREATMENTS - A dermatological treatment device is disclosed for generating a matrix of two dimensional treatment spots on the tissue. A handpiece carries a laser which generates a beam of laser pulses. The pulses are focused onto the tissue with a lens system. A diffractive element is positioned between the laser and the lens system for splitting the laser beam into a plurality of sub-beams. A scanner translates the beam over the diffractive element to generate the two dimensional spot pattern. The laser has a semi-monolithic resonator design with one integral end mirror defining the output coupler and a second, independent mirror for adjustment. | 03-07-2013 |
Patent application number | Description | Published |
20080198698 | WIRELESS SYNCHRONOUS TIME SYSTEM - A wireless synchronous time keeping system includes a primary device and a secondary device. The primary device includes a receiving unit to receive a first signal having a time component, a processor coupled to the receiving unit and operable to process the signal to produce a processed time component, an internal clock to store the processed time component and to increment the component thereafter to produce a first internal time, and a transmitting unit to transmit a second signal having the first internal time and an event having an instruction and a time element. The secondary device includes a transceiving unit to receive the second signal and transmit a third signal, an internal clock to store the first internal time and to increment the internal time to produce a second internal time, and an event switch operable to execute the instruction when the second internal time matches the time element. | 08-21-2008 |
20080212412 | WIRELESS SYNCHRONOUS TIME SYSTEM - A wireless synchronous time keeping system includes a primary device and a secondary device. The primary device includes a receiving unit to receive a first signal, a processor coupled to the receiving unit and operable to process the first signal to produce a processed time component, an internal clock to store and increment the component to produce a first internal time, and a transmitting unit to transmit a second signal having the first internal time and an event having an instruction and a time element. The secondary device includes a receiving unit to receive the second signal, an internal clock to store and increment the first internal time to produce a second internal time, a memory operable to store one or more messages, a display operable to display the messages, and an event switch operable to execute the instruction when the second internal time matches the time element. | 09-04-2008 |
20080212413 | WIRELESS SYNCHRONOUS TIME SYSTEM - A method of synchronizing an event system. The method includes receiving a first signal at a primary device. The first signal includes a time component. The method also includes processing the first signal to produce a second signal. The second signal includes the processed time component and an instruction. The method further includes wirelessly transmitting the second signal to a repeating device, wirelessly receiving the second signal at the repeating device, wirelessly transmitting a third signal from the repeating device, wirelessly receiving the third signal at a secondary device, and executing an event with the third signal. | 09-04-2008 |
20080316870 | WIRELESS SYNCHRONOUS TIME SYSTEM - A wireless synchronous time system comprising a primary master event device and secondary slave devices. The primary event device receives a global positioning systems “GPS” time signal, processes the GPS time signal, receives a programmed instruction, and broadcasts or transmits the processed time signal and the programmed instruction to the secondary slave devices. The secondary slave devices receive the processed time signal and the programmed instruction, select an identified programmed instruction, display the time, and execute an event associated with the programmed instruction. The primary event device and the secondary devices further include a power interrupt module for retaining the time and the programmed instruction in case of a power loss. | 12-25-2008 |