Patent application number | Description | Published |
20120080612 | CANTILEVER-BASED MEMS OPTICAL SCANNING APPARATUS, SYSTEM AND METHOD - The present invention relates to an optical scanning apparatus and an optical scanning system The optical system includes an optical engine connected to an optical scanning probe The optical scanning probe images a sample at different lateral positions of the sample The optical scanning probe includes a housing having a longitudinal axis extending in a direction towards a sample to be scanned, a first base having a first moveable mirror supported thereon by a first cantilever connecting the first moveable mirror to the first base, a second base having a second moveable mirror supported thereon by a second cantilever connecting the second moveable mirror to the second base, and a support attaching the first and second bases so that the first moveable mirror and the second moveable mirror are disposed along the longitudinal axis apart from each other | 04-05-2012 |
20140080729 | OPTICAL SENSING DEVICE FOR SENSING ANALYTES AND RELATED APPARATUS AND METHODS - An optical sensing device and associated apparatus are configured for multiplexed detection of specific analytes in fluid samples. The device has a wavelength-tunable grating-coupler configuration in which a grating is disposed on a surface of a waveguide. Different regions of the grating may be functionalized with different receptors, and may form binding-specific sensors and reference sensors. The receptors are exposed to a fluid sample utilizing a fluidic structure mounted to the device. The device utilizes evanescent waves to sense analytes bound to the waveguide surface. The evanescent wave is sensitive to changes in refractive index at (or near) the waveguide surface. Changes in refractive index occur proportionally to the mass of the bound analyte. The apparatus utilizes a tunable light source to implement swept wavelength interrogation while the input beam is held at a fixed coupling angle relative to the waveguide and grating. | 03-20-2014 |
20140308688 | HUMAN EMULATED RESPONSE WITH MICROFLUIDIC ENHANCED SYSTEMS - A multiple flow-based microfluidic cell culture system that emulates mammalian physiology is provided. Tissue-mimicking cell cultures are connected by flow within a physiologically meaningful arrangement so that the pharmacokinetics of various agents to be tested in the system emulate in vivo conditions. The system includes at least two organ tissue modules, each organ tissue module including a first chamber containing an organ tissue cell, the first chamber including an inlet and an outlet for flow of an organ tissue cell-specific culture medium; a second chamber including an inlet and an outlet for flow of a blood material; and a semi-permeable membrane separating the first and second chambers. The flow of blood material through each organ tissue module is interconnected and the flow of tissue-cell specific culture medium is directed to a single organ tissue module. | 10-16-2014 |
20140335496 | HUMAN CONDUCTING AIRWAY MODEL COMPRISING MULTIPLE FLUIDIC PATHWAYS - A multicellular fluidic enhanced airway model system of the conducting airways as a tool for the evaluation of biological threats and medical countermeasures is provided. The airway model system can include a first chamber having an inlet and an outlet and containing epithelial cells; a second chamber having an inlet and an outlet and containing an extracellular matrix, wherein the second chamber is separated from the first chamber by a porous membrane; and a third chamber having an inlet and an outlet, wherein the third chamber is separated from the second chamber by a porous membrane, and wherein the airway tissue model system is configured to provide a separate fluidic pathway through each of said first, second, and third chambers. A method of analyzing tissue response to an agent via an airway tissue model system is also provided. | 11-13-2014 |