Patent application number | Description | Published |
20100249770 | ELECTROMAGNETIC THERMOTHERAPEUTIC APPARATUS AND SYSTEM - An electromagnetic thermotherapeutic system is adapted to treat a biological tissue and includes an electromagnetic thermotherapeutic apparatus and a high frequency induction heating circuit unit. The apparatus includes a needle assembly and a temperature monitor. | 09-30-2010 |
20110054455 | Electromagnetic Thermotherapeutic Apparatus - An electromagnetic thermotherapeutic apparatus includes a tubular needle and an inner needle. The tubular needle has an electromagnetic inductive portion that is made from a material capable of generating heat when subjected to an induction magnetic field, and that has a hollow tip, and a non-electromagnetic inductive portion that is connected to the electromagnetic inductive portion oppositely of the hollow tip. The inner needle is removably insertable into the tubular needle from the non-electromagnetic inductive portion to the hollow tip. | 03-03-2011 |
20120022515 | HEMOSTATIC APPLICATOR AND HEMOSTATIC MODULE - A hemostatic applicator adapted to stop a bleeding site from bleeding is provided. The hemostatic applicator includes a magnetic part, an anti-adhesion layer and a non-magnetic part. The magnetic part is suitable to be heated to a temperature with a high frequency electromagnetic field. The anti-adhesion layer is formed on a surface of the magnetic part, and the magnetic part contacts the bleeding site through the anti-adhesion layer. The non-magnetic part is connected with the magnetic part. A hemostatic module is also provided. | 01-26-2012 |
20120156128 | CONTROLLABLE RELEASE COMPOSITION AND METHOD FOR PREPARING SAME - A controllable release composition is provided, including a polymer substrate and an active ingredient, in which the polymer substrate is a polymer blend including a biodegradable polyester, polyanhydride, and/or polyether, and the active ingredient includes a radioactive agent or a chemotherapeutic agent. The controllable release composition is useful for cancer therapy, particularly for solid cancer treatment. | 06-21-2012 |
20120157749 | HEAT THERAPY - A heat therapy for thermally treating a target tissue within a living body by using a treating apparatus including a treating device with a magnetic part is provided. The magnetic part is heated to a first temperature by a high frequency electromagnetic field with a heating rate ranging from 1 to 5° C./sec, wherein the magnetic part is contacted the target tissue. Temperature controlling steps are performed to the magnetic part having the first temperature, and therefore the magnetic part has a final temperature higher than the first temperature, and a treatment is performed to the target tissue under the final temperature. Each of the temperature controlling steps is a heating step, a cooling step or a temperature conservation step, and the magnetic part is heated or cooled by the high frequency electromagnetic field with a heating rate or a cooling rate ranging from 1 to 5° C./sec. | 06-21-2012 |
20120209053 | Electromagnetic Thermotherapeutic Apparatus - An electromagnetic thermotherapeutic apparatus includes: a plurality of needle units respectively having head portions and needle portions; a base unit having a base plate that is formed with a plurality of first through holes, and a base pad that is formed with a plurality of second through holes, the needle portions of the needle units removably extending through the second and first through holes, the head portions of the needle units abutting against the base pad; a temperature monitor disposed between the base plate and the base pad; an upper unit disposed above the base pad and abutting against the head portions; and a clamp unit clamping and pressing the base unit against the upper unit. | 08-16-2012 |
20130287697 | Pharmaceutical microsphere for embolization - A pharmaceutical microparticle for embolization is disclosed, which includes: a thermoresponsive polymer, an enhancer, a contrast agent, and a solvent. The particle size of pharmaceutical microparticle for embolization is 100-750 μm. The pharmaceutical microparticle for embolization of the present invention is an effective drug carrier, and has biodegradable and X-ray imaging properties. | 10-31-2013 |
20140046314 | ELECTROMAGNETIC THERMOTHERAPY NEEDLE - An electromagnetic thermotherapy needle includes a needle body, a covering element, and a holding portion. The material of the needle body includes a magnetically susceptible material. The needle body is formed integrally as one piece and includes a front portion and a rear portion. The front portion has a tip end, and a radial width of the front portion is larger than that of the rear portion. The covering element covers the rear portion, and includes a magnetically non-susceptible material. The holding portion is connected with the covering element or the needle body. | 02-13-2014 |
20140081069 | DEEP MAGNETIC FIELD GENERATING APPARATUS - A deep magnetic field generating apparatus includes a first coil unit and a second coil unit. The second coil unit is connected with the first coil unit, and disposed around the first coil unit horizontally. Accordingly, the deep magnetic field generating apparatus can generate a desired deep magnetic field. | 03-20-2014 |
20140350538 | COIL-INTEGRATED PAD ASSEMBLY AND AN ELECTROMAGNETIC HYPERTHERMIA SYSTEM INCLUDING THE SAME - A coil-integrated pad assembly for inductively heating a hyperthermia needle device includes a barrier pad and an electromagnetic unit. The barrier pad is adapted to be inserted into a patient's body and to be placed between the hyperthermia needle device and a non-target tissue of the patient's body when the hyperthermia needle device penetrates a target tissue. The electromagnetic unit has a coil that is at least partially disposed in the barrier pad and that is electrifiable to generate a magnetic field sufficient to inductively heat the hyperthermia needle device. | 11-27-2014 |
20140350647 | ELECTROMAGNETIC HYPERTHERMIA ASSEMBLY - An electromagnetic hyperthermia assembly includes: a substrate; a plurality of hyperthermia needles each having a needle portion that extends through and downwardly from the substrate and that has a needle tip distal from the substrate; and a guiding plate having a plurality of through holes. The needle portions of the hyperthermia needles respectively and removably extend through the through holes such that the guiding plate is movable along the needle portions and between the substrate and the needle tips of the needle portions. The through holes keep the needle tips spaced apart from each other at predetermined positions. | 11-27-2014 |