Thermage, Inc. Patent applications |
Patent application number | Title | Published |
20090318851 | LEAKAGE-RESISTANT TISSUE TREATMENT APPARATUS AND METHODS OF USING SUCH TISSUE TREATMENT APPARATUS - Apparatus and methods for treating skin conditions that deliver high frequency energy to a patient's tissue. The apparatus has a treatment tip configured to be removably connected with a handpiece, a conduit inside the handpiece, and a flow control valve inside the handpiece. The treatment tip has an electrode configured to deliver the high frequency energy to a region of the tissue. A lumen of the conduit is configured to transfer a heat transfer fluid from the handpiece to a flow passageway in the treatment tip. When the treatment tip is removed from the handpiece, the flow control valve is configured to occlude the lumen of the conduit for reducing leakage of the heat transfer fluid from the handpiece. | 12-24-2009 |
20090318850 | LEAKAGE-RESISTANT TISSUE TREATMENT APPARATUS AND METHODS OF USING SAME - Apparatus and methods for treating skin conditions that deliver high frequency energy to a patient's tissue. The apparatus has a treatment tip configured to be removably coupled with a handpiece and a conduit inside the handpiece. The treatment tip includes an electrode configured to deliver the high frequency energy to a region of the tissue, a channel for circulating heat transfer fluid proximate to the electrode, and an inlet passage to the channel. The conduit includes a tubular sidewall with a lumen used to transfer the heat transfer fluid from the handpiece to the inlet passage of the treatment tip. When the treatment tip is coupled to the handpiece, a septum covering the inlet passage is configured to be pierced by the conduit to define an opening for coupling the conduit with the inlet passage. When the treatment tip is removed from the handpiece, the septum substantially seals the opening. | 12-24-2009 |
20090270954 | METHODS AND APPARATUS FOR PREDICTIVELY CONTROLLING THE TEMPERATURE OF A COOLANT DELIVERED TO A TREATMENT DEVICE - Apparatus and methods for predictively controlling the temperature of a coolant delivered to a treatment apparatus configured to non-invasively treat a patient's tissue with doses of electromagnetic energy. The treatment apparatus includes a closed-loop cooling system connected with an energy delivery device used to deliver the electromagnetic energy to the patient's tissue. Coolant is pumped from a reservoir to the energy delivery device in the closed-loop cooling system. The control temperature of the coolant in the reservoir is adjusted based upon the specific room air temperature. This predictive adjustment promotes better control over the coolant temperature at the energy delivery device by lessening the effects of heat gain in transit from the reservoir to the energy delivery device. | 10-29-2009 |
20090157067 | METHOD AND APPARATUS FOR DIGITAL SIGNAL PROCESSING FOR RADIO FREQUENCY SURGERY MEASUREMENTS - A method and apparatus for calculating current lost through a patient during a treatment of a patient using an electromagnetic energy delivery system is disclosed. The system generates electromagnetic energy, contacts a skin surface of the patient, transfers the electromagnetic energy to tissue beneath the surface of the skin, detects a value of at least one characteristic of the electromagnetic energy utilizing synchronous undersampling, and calculates the current lost through the patient. The characteristic measured may be a value of current of the electromagnet energy. An adjustable matching network may be utilized to maximize power to the tissue of the patient. Values of the impedance of the matching network may be utilized to determine the electromagnetic energy delivered to the tissue of the patient. A current correction factor is determined from the impedance of the matching network and utilized to calculate the current lost through the patient. | 06-18-2009 |
20090149930 | APPARATUS AND METHODS FOR COOLING A TREATMENT APPARATUS CONFIGURED TO NON-INVASIVELY DELIVER ELECTROMAGNETIC ENERGY TO A PATIENT'S TISSUE - Apparatus and methods for delivering electromagnetic energy to a patient's tissue. The treatment apparatus includes a closed-loop cooling system that cools the energy delivery device. The fluid forced to flow in the closed-loop cooling system is chilled to a first temperature at a location remote from the energy delivery device and is warmed to a higher second temperature near the energy delivery device. This promotes better control over the fluid temperature at the energy delivery device. | 06-11-2009 |
20090082764 | METHODS FOR CREATING TISSUE EFFECT UTILIZING ELECTROMAGNETIC ENERGY AND A REVERSE THERMAL GRADIENT - A method of creating a tissue effect at a tissue site delivers electromagnetic energy through a skin surface from an electromagnetic energy delivery device coupled to an electromagnetic energy source. At least one of the electromagnetic energy delivery device or electromagnetic energy source includes a memory. A reverse thermal gradient is created through the skin surface to sufficiently heat an underlying tissue site to provide that a temperature of the skin surface is lower than a temperature of the underlying tissue. Information is stored from the memory to facilitate operation of at least one of the electromagnetic energy delivery device or the electromagnetic energy source. Electromagnetic energy is applied through the skin surface to the underlying tissue. A tissue effect is created on at least a portion of the tissue site. | 03-26-2009 |
20090076572 | Method Of Using Cryogenic Compositions For Cooling Heated Skin - The present invention is directed to using cryogenic compositions, which are non-toxic, non-flammable, and have desirable ozone depletion and global warming potential, for cooling heated skin during skin treatments with a skin treatment apparatus. | 03-19-2009 |
20090018628 | TREATMENT APPARATUS AND METHODS FOR DELIVERING HIGH FREQUENCY ENERGY ACROSS LARGE TISSUE AREAS - Apparatus and methods for treating skin conditions that deliver high frequency energy across large tissue areas. The treatment apparatus comprises a treatment tip carrying a plurality of electrodes that are switched such that fewer than all of the electrodes are concurrently energized. The treatment tip includes a cooling mechanism that cools near-surface tissue regions disposed between the skin surface and the treated tissue by cooling the respective electrode that treats each of the regions. The cooling mechanism may include a heat transfer body intervening between the electrodes and a fluid delivery member configured to discharge coolant that impinges the heat transfer body. Alternatively, the cooling mechanism may include a fluid delivery member having individually valve-controlled passages configured to discharge a dedicated stream of coolant at each of the electrodes, a thermoelectric cooler, or a closed-loop fluid delivery member. | 01-15-2009 |
20080287943 | TREATMENT APPARATUS AND METHODS FOR INDUCING MICROBURN PATTERNS IN TISSUE - Treatment apparatus and methods for inducing microburn patterns in tissue. The treatment apparatus comprises a delivery device positionable adjacent to the tissue and a plurality of energy-transfer elements. The energy-transfer elements are adapted to contact the skin surface over discrete surface contact areas and transfer energy to the tissue for forming damaged regions in the form of microburns at a corresponding plurality of locations in the tissue. Energy may be transferred between the energy-transfer elements and the tissue by either electrical conduction or thermal conduction. Adjacent microburns are separated by non-damaged regions, which promotes wound healing and efficacy. | 11-20-2008 |
20080200969 | TEMPERATURE SENSING APPARATUS AND METHODS FOR TREATMENT DEVICES USED TO DELIVER HIGH FREQUENCY ENERGY TO TISSUE - Apparatus and methods for delivering high frequency energy to tissue with improved temperature sensing. The treatment apparatus may be a delivery device positionable adjacent to the tissue. The delivery device may further include an electrode adapted to deliver high frequency energy to the tissue and at least one thermal sensor. In one embodiment, the thermal sensor may include a thermocouple junction of dissimilar metals formed by either thin film or thick film techniques. Alternatively, the thermal sensor may include a body composed of a resistive material having a resistance that varies with temperature to an extent sufficient to measure the skin temperature. A region of the delivery device near the thermal sensor may be heated, before skin contact is established during treatment, for purposes of detecting contact by the occurrence of heat loss from the delivery device region. | 08-21-2008 |