Colin Michael
Colin Michael Arrowood, Duluth, GA US
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20150125942 | DEVICES, SYSTEMS, AND METHODS FOR TARGETED PLATING OF MATERIALS IN HIGH-THROUGHPUT CULTURE PLATES - Devices, systems, and methods for facilitating placement of cells and materials in culture plates configured for high-throughput applications are provided. A culture system is provided with a culture plate having a lid for guiding placement of cells and materials in each individual culture well of a culture plate. The lid may provide for coupling to an electrophysiology culture plate comprising a biosensor plate and a biologic culture plate, where the biosensor plate underlies and is coupled to the culture well plate such that each biosensor is operatively coupled to one culture well of the plurality of culture wells. A containment device that physically influences the positioning of fluid received in the culture plate is also provided herein. | 05-07-2015 |
Colin Michael Hassey, Barrie CA
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20100241058 | OCT GUIDED TISSUE ABLATION - A method and system of ablating tissue under optical coherence tomography guidance including inserting an optical coherence tomography catheter into a patient's vasculature; navigating the catheter to a target site; imaging and mapping target tissue at the target site using the catheter; delivering a light-activated therapeutic agent into the target tissue; and illuminating the light-activated therapeutic agent with light emitted from the catheter, thereby activating the therapeutic agent and ablating the target tissue; establishing coordinates of the target tissue under computer tomography imaging whereby the catheter provides a marker visible under computer tomography imaging for establishing a positional relationship between the catheter and the target tissue, establishing a localized magnetic field in the target tissue on the basis of the coordinates obtained during the computer tomography imaging and where the light-activated therapeutic agent is magnetized and substantially retained within the target tissue by way of the localized magnetic field. | 09-23-2010 |
20140270623 | CAPILLARY ACTION FIBER SENSOR - The present invention relates to optical fiber pressure sensors. In one embodiment, liquid pressure of an environment may be measured based on capillary action occurring within an optical fiber having one or more hollow columns within. In another embodiment, the change in environmental pressure may be measured based on light diffracted from an optical fiber having optical grating. In either embodiment, the pressure sensor is manufactured from a single optical fiber. | 09-18-2014 |
Colin Michael Mandrick, Kansas City, MO US
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20110227302 | Low Profile Transformable Creeper - One transformable creeper includes three portions. The first portion has a frame, four wheels operatively coupled to the frame such that a lower edge of the frame is maintained above a lowermost point of the four wheels by no more than about two thirds the diameter of the four wheels, and a first support surface operatively coupled to the frame. The second portion has a second frame rotatably coupled to the frame and a second support surface. A lock maintains the second frame at three angles relative to the frame (generally 180°; between about 90° and 180°; and between 0° and 90°). The third portion has a third frame rotatably coupled to the second frame, two wheels, and a third support surface. A lock respectively maintains the third frame at two angles relative to the second frame (generally 180°, and between 0° and 90°). | 09-22-2011 |
Colin Michael Scotter, Langley CA
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20140261700 | HIGH THERMAL TRANSFER FLOW-THROUGH HEAT EXCHANGER - A flow-through heater for heating a fluid comprises: a high thermal conductivity conduit-defining body shaped to provide, within the conduit-defining body, a helical-shaped or spiral-shaped conduit that extends between an inlet port and an outlet port; and one or more heating elements operatively connected to an exterior of the conduit-defining body for providing heat to the conduit-defining body and to any fluid flowing through the conduit. Because of the high thermal conductivity of the conduit-defining body, all of the surfaces of the conduit-defining body that actually define the conduit contribute significantly to heating the fluid in the conduit. Each conduit-defining surface may contribute to heating the fluid in approximately equal proportion to its conduit-defining surface area. | 09-18-2014 |