Rudolfo
Rudolfo Gonzalez, Carlsbad, CA US
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20140314721 | USE OF NEURAL CELLS DERIVED FROM HUMAN PLURIPOTENT STEM CELLS FOR THE TREATMENT OF NEURODEGENERATIVE DISEASES - The present invention is based in part methods for treating neurodegenerative diseases and disorders. Specifically, the present invention disclose methods for treating neurodegenerative disorders suing neural stem cells (NSCs) and/or pluripotent stem cell (PSC) derived neurons or neuron precursor cells. The present invention also discloses methods to induce endogenous dopaminergic neurons to release dopamine and increase the levels of dopamine in a subject. | 10-23-2014 |
Rudolfo Sudaria, Union City, CA US
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20100049169 | GUIDEWIRE FOR CROSSING OCCLUSIONS OR STENOSES - Systems and methods for crossing stenosis, partial occlusions, or complete occlusions within a body lumen. The systems generally include an elongate member such as a hollow guidewire that houses a rotatable and translatable drive shaft. The drive shaft typically has a distal portion that is advanced to create a path in the occlusive material that is large enough to allow the hollow guidewire to cross the occlusive material. | 02-25-2010 |
20120010640 | GUIDEWIRE FOR CROSSING OCCLUSIONS OR STENOSES - Systems and methods for crossing stenosis, partial occlusions, or complete occlusions within a body lumen. The systems generally include an elongate member such as a hollow guidewire that houses a rotatable and translatable drive shaft. The drive shaft typically has a distal portion that is advanced to create a path in the occlusive material that is large enough to allow the hollow guidewire to cross the occlusive material. | 01-12-2012 |
20130110143 | GUIDEWIRE FOR CROSSING OCCLUSIONS OR STENOSES | 05-02-2013 |
20130296906 | GUIDEWIRE FOR CROSSING OCCLUSIONS OR STENOSES - Systems and methods for crossing stenosis, partial occlusions, or complete occlusions within a body lumen. The systems generally include an elongate member such as a hollow guidewire that houses a rotatable and translatable drive shaft. The drive shaft typically has a distal portion that is advanced to create a path in the occlusive material that is large enough to allow the hollow guidewire to cross the occlusive material. | 11-07-2013 |
20140171988 | GUIDEWIRE FOR CROSSING OCCLUSIONS OR STENOSES - Systems and methods for crossing stenosis, partial occlusions, or complete occlusions within a body lumen. The systems generally include an elongate member such as a hollow guidewire that houses a rotatable and translatable drive shaft. The drive shaft typically has a distal portion that is advanced to create a path in the occlusive material that is large enough to allow the hollow guidewire to cross the occlusive material. | 06-19-2014 |
Rudolfo Sudaria, San Jose, CA US
Patent application number | Description | Published |
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20080221601 | GUIDEWIRE FOR CROSSING OCCLUSIONS OR STENOSES HAVING A SHAPEABLE DISTAL END - A hollow guidewire with a shapeable distal end, for removing tissue from a body lumen, such as a coronary artery. The hollow guidewire comprises an elongate, tubular guidewire body that has an axial lumen. A tissue removal assembly, such as a rotating drive shaft, is positioned at or near a distal end of the tubular guidewire body and extends through the axial lumen. Actuation of the tissue removal assembly removes occlusive material in the body lumen. | 09-11-2008 |
Rudolfo Viguie, Crestview Hills, KY US
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20080305264 | THERMAL BARRIER COATING AND PROCESS THEREFOR - A thermal barrier coating and deposition process for a component intended for use in a hostile thermal environment, such as the turbine, combustor and augmentor components of a gas turbine engine. The TBC has a first coating portion on at least a first surface portion of the component. The first coating portion is formed of a ceramic material to have at least an inner region, at least an outer region overlying the inner region, and a columnar microstructure whereby the inner and outer regions comprise columns of the ceramic material. The columns of the inner region are more closely spaced than the columns of the outer region so that the inner region of the first coating portion is denser than the outer region of the first coating portion, wherein the higher density of the inner region promotes the impact resistance of the first coating portion. | 12-11-2008 |
Rudolfo Viguie, Cincinnati, OH US
Patent application number | Description | Published |
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20110151140 | Methods Of Forming Nickel Aluminde Coatings - A method for forming a nickel aluminide based coating on a metallic substrate includes providing a first source for providing a significant portion of the aluminum content for a coating precursor and a separate nickel alloy source for providing substantially all the nickel and additional alloying elements for the coating precursor. Cathodic arc (ion plasma) deposition techniques may be utilized to provide the coating precursor on a metallic substrate. The coating precursor may be provided in discrete layers, or from a co-deposition process. Subsequent processing or heat treatment forms the nickel aluminide based coating from the coating precursor. | 06-23-2011 |
20110151274 | Nickel Aluminide Coating Systems And Coated Articles - A method for forming a nickel aluminide based coating on a metallic substrate includes providing a first source for providing a significant portion of the aluminum content for a coating precursor and a separate nickel alloy source for providing substantially all the nickel and additional alloying elements for the coating precursor. Cathodic arc (ion plasma) deposition techniques may be utilized to provide the coating precursor on a metallic substrate. The coating precursor may be provided in discrete layers, or from a co-deposition process. Subsequent processing or heat treatment forms the nickel aluminide based coating from the coating precursor. | 06-23-2011 |
Rudolfo Viguie, Oceanview, DE US
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20130236659 | METHODS FOR VAPOR DEPOSITING HIGH TEMPERATURE COATINGS ON GAS TURBINE ENGINE COMPONENTS UTILIZING PRE-ALLOYED PUCKS - Methods for vapor depositing high temperature coatings on gas turbine components are provided, as are methods for producing pre-alloyed pucks for usage in vapor deposition processes. In one embodiment, the method includes the step of producing a pre-alloyed puck including a master alloy and a high vaporization temperature refractory metal, which has a vaporization temperature greater than each of the master alloy constituents. The pre-alloyed puck is placed over an ingot and heated to a temperature greater than the melt point of the pre-alloyed puck and less than the vaporization temperature of the high vaporization temperature refractory metal to transform the puck and a portion of the ingot into a molten pool and to produce a vapor stream containing the constituents of the master alloy and the ingot. The vapor stream is exposed to a gas turbine engine component to deposit the high temperature coating over at least one surface thereof. | 09-12-2013 |