Patent application number | Description | Published |
20080242587 | FUSION PROTEINS BINDING TO VEGF AND ANGIOPOIETIN - The present application discloses an isolated nucleic acid molecule encoding a polypeptide capable of synchronously binding VEGF polypeptide and Angiopoietin polypeptide, which includes a nucleotide sequence encoding a Tie2 component and a VEGFR component. | 10-02-2008 |
20090312249 | TLR4 decoy receptor protein - The present application discloses a nucleic acid molecule encoding a fusion polypeptide capable of binding myeloid differentiation protein-2 (MD-2) polypeptide, which includes: a nucleotide sequence encoding an MD-2 polypeptide-binding portion of human toll-like receptor 4 (TLR4), a leucine-rich repeats (LRR) module, and a multimerizing component. | 12-17-2009 |
20100150926 | FUSION PROTEIN CAPABLE OF BINDING VEGF-A AND TNF-ALPHA - The present application describes an isolated nucleic acid molecule encoding a polypeptide capable of synchronously binding VEGF polypeptide and TNF polypeptide comprising: (a) a nucleotide sequence encoding a TNFR2 component and VEGFR1 component operatively linked to (b) a nucleotide sequence encoding a multimerizing component, wherein the TNFR2 component consists essentially of a nucleotide sequence encoding the amino acid sequences of cystein rich domain 1, cystein rich domain 2, cystein rich domain 3, and cystein rich domain 4 of the extracellular domain of TNFR2, and wherein the VEGFR1 component consists essentially of a nucleotide sequence encoding the amino acid sequences of Ig-like domain 2 of the extracellular domain of VEGFR1. | 06-17-2010 |
Patent application number | Description | Published |
20130079799 | PRECISE PLACEMENT DEVICE FOR PRECISE INSERTION OF INSERT - The precise placement device includes: a direction controller to which a placement unit having an insert and a drill is mounted, the direction controller controlling a direction of the placement unit; a precise transfer unit to which the direction controller is mounted, the precise transfer unit transferring the placement unit in the planar two-axis direction; a support table for fixing a target for insertion in which the insert is to be placed; and transfer units for transferring the precise transfer unit and the operating table. | 03-28-2013 |
20130090580 | EXOSKELETON MECHANISM FOR JOINT MOVEMENT ASSISTANCE - An exoskeleton mechanism according to the present disclosure includes: a fixed frame positioned to correspond to an upper physique; a rotatable frame positioned to correspond to a lower physique and coupled to the fixed frame by a hinge unit to be rotatable in the vertical direction; a support frame for supporting a terminal; a first motor mounted to the fixed frame and connected to the rotatable frame to drive the rotatable frame to rotate in the vertical direction; motors mounted to the rotatable frame and connected to the support frame to drive the support frame to rotate in the vertical direction and in the horizontal direction and rotate around an axis (roll axis) of the lower physique; links for connecting the first motor and the rotatable frame; and links for connecting the motors and the support frame. | 04-11-2013 |
20130102398 | SPHERICAL TRANSMISSION JOINT - A spherical transmission joint has an input shaft connected to a driving source to rotate, an input link fixed to the input shaft to be rotated by the input shaft and having a bent shape, a coupler link rotatably mounted to a first rotary shaft mounted to the input link and having a bent shape, an output link rotatably mounted to a second rotary shaft mounted to the coupler link and having a bent shape, and an output shaft fixed to the output link. This spherical transmission joint for rotating power transmission of inclined shafts is widely used for transmission joints with certain gradients since a rotating angle between an input shaft and an output shaft is ranged wide. | 04-25-2013 |
20130156063 | MATERIAL SCREENING APPARATUS - The present invention relates to a material screening apparatus, and more particularly, to a material screening apparatus that senses temperature change according to the thermal characteristics of the material to be screened so as to extract a thermal characteristic value for the material and determine the type of the material. The material screening apparatus according to an embodiment of the present invention comprises: a plurality of heat generators for variably generating heat; a plurality of temperature sensors attached to the heat generators, respectively, for measuring the changing temperatures of the heat generators; and a controller for controlling the heat generation by the heat generators, performing the calculations of the temperature values measured by the plurality of temperature sensors, and outputting the thermal characteristic value of the material. | 06-20-2013 |
20130321299 | ELECTRONIC DEVICE HAVING TACTILE DISPLAY USING SQUEEZE FILM EFFECT - An electronic device has a touch screen, a protecting panel for protecting the touch screen by covering the touch screen, a vibration actuator coupled to the protecting panel to vibrate the protecting panel, and a control module for collecting location information of an input unit which touches the protecting panel, wherein the control module controls vibration characteristics of the vibration actuator according to a location of the input unit and forms a squeeze film between the input unit and the protecting panel to decrease a frictional force between the input unit and the protecting panel. The protecting panel has a visible area where the touch screen is exposed to be checked by the naked eyes, and an invisible area other than the visible area, and the vibration actuator is coupled to the invisible area. | 12-05-2013 |
20140364703 | WEARABLE ELECTROMYOGRAM SENSOR SYSTEM - A wearable electromyogram sensor system is provided. The wearable electromyogram sensor system includes: an elastic band having a plurality of electrodes; an electromyogram sensor including an electrode connected to an electrode of the band so as to receive a bio-signal related to contraction of a muscle, and configured to sense a change of motion information through the bio-signal or previously sense the change of the motion information before the motion information is changed; and a fixing unit fixing the electromyogram sensor to the band. The electrode of the electromyogram sensor is connected to an electrode at an arbitrary position of the band. | 12-11-2014 |