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Gaudette

Glenn Gaudette, Worcester, MA US

Patent application numberDescriptionPublished
20110142804NANOFIBER SCAFFOLD - The invention is directed to a device and method to prevent migration of Human Mesenchymal Stem Cells (hMSCs) from a delivery site while allowing communication between the stem cells and native cardiomyocytes. The device is characterized by scaffold pore size, fiber diameter and biomaterial selection. The invention includes a two part polyurethane scaffold that prevents migration of stem cells, allows gap junction formation through pores and is packaged for minimally invasive delivery.06-16-2011

Thomas Gaudette, Jamaica Plain, MA US

Patent application numberDescriptionPublished
20110167425INSTRUMENT-BASED DISTRIBUTED COMPUTING SYSTEMS - An instrument-based distributed computing system is disclosed that accelerates the measurement, analysis, verification and validation of data in a distributed computing environment. A large computing work can be performed in a distributed fashion using the instrument-based distributed system. The instrument-based distributed system may include a client that creates a job. The job may include one or more tasks. The client may distribute a portion of the job to one or more remote workers on a network. The client may reside in an instrument. One or more workers may also reside in instruments. The workers execute the received portion of the job and may return execution results to the client. As such, the present invention allows the use of instrument-based distributed system on a network to conduct the job and facilitate decreasing the time for executing the job.07-07-2011

Thomas M. Gaudette, Cameron Park, CA US

Patent application numberDescriptionPublished
20090212881COAXIAL-TO-MICROSTRIP TRANSITIONS AND MANUFACTURING METHODS - Coaxial-to-microstrip transitions may include a microstrip line and coaxial-line assembly. The microstrip line includes a first dielectric having an aperture, a conductive strip disposed on one primary face of the first dielectric, and a ground plane disposed on the opposite primary face of the first dielectric. The coaxial-line assembly includes an outer conductor and an inner conductor. In some examples, the ground plane extends between the outer conductor and the inner conductor on a first side of the coaxial-line assembly proximate the conductive strip and an aperture cross section extends beyond the outer conductor on a second side of the coaxial-line assembly distal the conductive strip. In some examples, the ground plane has a non-circular aperture. In some examples, the outer conductor encloses an area that is less than an area of the aperture. In some examples, the enclosed area has a width that is less than a corresponding width of the first aperture.08-27-2009
20100245001COAXIAL-TO-MICROSTRIP TRANSITIONS - Coaxial-to-microstrip transitions may include a microstrip line and coaxial-line assembly. The microstrip line includes a first dielectric having an aperture, a conductive strip disposed on one primary face of the first dielectric, and a ground plane disposed on the opposite primary face of the first dielectric. The coaxial-line assembly includes an outer conductor and an inner conductor. In some examples, the ground plane extends between the outer conductor and the inner conductor on a first side of the coaxial-line assembly proximate the conductive strip and an aperture cross section extends beyond the outer conductor on a second side of the coaxial-line assembly distal the conductive strip. In some examples, the ground plane has a non-circular aperture. In some examples, the outer conductor encloses an area that is less than an area of the aperture. In some examples, the enclosed area has a width that is less than a corresponding width of the first aperture.09-30-2010

Patent applications by Thomas M. Gaudette, Cameron Park, CA US