Abstract: Disclosed is a method for characterizing a sample having a structure disposed on or within the sample, comprising the steps of applying a first pulse of light to a surface of the sample for creating a propagating strain pulse in the sample, applying a second pulse of light to the surface so that the second pulse of light interacts with the propagating strain pulse in the sample, sensing from a reflection of the second pulse a change in optical response of the sample, and relating a time of occurrence of the change in optical response to at least one dimension of the structure.
Abstract: Optical gratings that perform a number of functions at various wavelengths are formed by various methods that preserve spectral information within a wavelength band, the functions including: coupling radiation from one waveguide to another, controllable gratings that operate on different wavelengths in response to external control signals.
Type:
Grant
Filed:
January 9, 2008
Date of Patent:
February 24, 2009
Assignee:
Brown University Research Foundation
Inventors:
Daniel Levner, Martin F. Fay, Jingming Xu
Abstract: In one aspect, a method and apparatus for determining a value for at least one parameter of a configuration of a model associated with structure of which view data has been obtained including detecting at least one feature in the view data, and determining the value for the at least one parameter of the configuration of the model based at least in part on the at least one feature.
Abstract: The invention relates to the use of one or more growth factors in a drug delivery system, optionally with an external mesh housing, to recruit and optionally harvest progenitor cells. These cells include those that normally reside in the bone marrow.
Abstract: An optical waveguide has a surface. An array of separately actuated bodies is disposed proximal to the exposed surface, and an actuator separately actuates at least some of the bodies to change a spectral characteristic of a wave propagating through the waveguide. Preferably, the bodies are metal striplines, an electro-optical material is disposed between the striplines and the exposed surface, and the actuator is a CMOS chip that imposes a voltage to some or all of the lines. The voltage changes the refractive index at the interface with the surface, changing an index of refraction profile of the waveguide and effectively imposing a grating. Alternatively, the bodies are micro-beams and the actuator, also controlled by a CMOS chip, separately moves each micro-beam into and out of proximity to the surface. The grating is programmable via the CMOS chip.
Type:
Grant
Filed:
August 15, 2007
Date of Patent:
December 30, 2008
Assignee:
Brown University Research Foundation
Inventors:
Daniel Levner, Martin F. Fay, Jonathan C. Bloch, Jeffrey Weiss
Abstract: The invention provides compositions and methods for treating, preventing, and diagnosing diseases or conditions associated with an abnormal level or activity of biglycan; disorders associated with an unstable cytoplasmic membrane, due, e.g., to an unstable dystrophin associated protein complex (DAPC); disorders associated with abnormal synapses or neuromuscular junctions, including those resulting from an abnormal MuSK activation or acetylcholine receptor (AChR) aggregation. Examples of diseases include muscular dystrophies, such as Duchenne's Muscular Dystrophy, Becker's Muscular Dystrophy, neuromuscular disorders and neurological disorders.
Type:
Application
Filed:
February 22, 2008
Publication date:
November 6, 2008
Applicant:
Brown University Research Foundation
Inventors:
Justin R. Fallon, Beth McKechnie, Michael Rafii, Hilliary Creely, Mark A. Bowe, Raymond Ferri
Abstract: A Magneto-Optoelectronic Device MOD (10) includes a magnetic sensing device (12), such as a magnetoresistive device or a magnetic tunnel junction device, that is combined with a semiconductor light emitter (14), such as a LED or a laser diode, to create a compact integrated device where changes in an ambient magnetic field are expressed as changes in an optical beam intensity emanating from the MOD. Using the MOD (10) the magnetic field related information can be transmitted by a light wave over very large distances through some medium (34), for example, through free space and/or through an optical fiber.
Abstract: The size and location of microsphere uptake/delivery are important determinants of the final biodistribution of oral microsphere systems. Formulations, kits, methods of administering the formulations, and using the kits are described herein. The formulations are oral dosage formulations. In one embodiment, the formulations contain microparticles and/or nanoparticles having a homogenous size range selected to optimize uptake in a specific region of the GI tract and target drug delivery to specific organs. In some embodiments, the dosage formulation contains an enteric coating and/or a magnetic material. In a preferred embodiment, the formulation contains a magnetic material and an active agent to be delivered, optionally the active agent is in the form of micro- or nano-particles. In some embodiments metallomucoadhesive materials and/or magnetic materials are employed as magnetic and/or mucoadhesive sources.
Type:
Application
Filed:
May 17, 2006
Publication date:
August 14, 2008
Applicant:
Brown University Research Foundation
Inventors:
Arthur Peter Morello, III, Joshua Reineke, Peter Matthew Cheifetz, Bryan Laulicht, Edith Mathiowitz
Abstract: A system using neurological control signals to control a device is disclosed. The system may include a sensor sensing electrical activity of a plurality of neurons over time and a vector generator generating a neural control vector from the sensed electrical activity of the plurality of neurons over time. The system may also include a control filter to which the neural control vector is applied to provide a control variable and an output device controlled by the control variable.
Type:
Grant
Filed:
March 16, 2006
Date of Patent:
June 24, 2008
Assignee:
Brown University Research Foundation
Inventors:
John Philip Donoghue, Nicholas George Hatsopoulos, Mijail Demian Serruya, Matthew Richard Fellows, Liam Paninski
Abstract: In one aspect the present invention concerns methods and apparatus for measuring the mechanical properties of soft materials across a frequency regime. In particular, the present invention concerns methods and apparatus using torsional waves to measure the mechanical properties of vocal fold tissue and candidate materials for use in human vocal fold reconstruction. In embodiments of the present invention, sample material is placed between two plates whose sides are faceted. One of the plates is attached to the shaft of a galvanometer, and the plate is twisted back and forth through angles of up to ±6° at frequencies of up to 2500 Hz. If required, the assembly may be enclosed in an environmental chamber to maintain the temperature and relative humidity of the sample at the conditions experienced by vocal folds in a living human or animal.
Type:
Grant
Filed:
March 16, 2005
Date of Patent:
June 17, 2008
Assignee:
Brown University
Inventors:
Rodney J. Clifton, Tong Jiao, Christopher Bull
Abstract: Optical gratings that perform a number of functions at various wavelengths are formed by various methods that preserve spectral information within a wavelength band, the functions including: coupling radiation from one waveguide to another, controllable gratings that operate on different wavelengths in response to external control signals.
Abstract: An optical component including at least one optical supergrating is provided. The optical supergrating includes a quantized refractive index profile adapted to exhibit a finite plurality of refractive indexes; which in turn are adapted to generate a reflectance spectrum in at least one spectral band corresponding to a Fourier transformed analog refractive index profile.
Abstract: An optical component including at least one optical supergrating is provided. The optical supergrating includes a quantized refractive index profile adapted to exhibit a finite plurality of refractive indexes; which in turn are adapted to generate a reflectance spectrum in at least one spectral band corresponding to a Fourier transformed analog refractive index profile.
Abstract: A system and method for increasing the accuracy of time delay estimates of signals propagating through an environment. The system includes one or more sensors for receiving a plurality of signals, and a time delay estimator for measuring time delays between multiple pairs of signals. At least some of the multiple pairs of signals are received and measured at different points in time. The system further includes a data analyzer for analyzing time delay estimation data, for generating a statistical distribution of time delay estimates from the data, and for calculating a statistical estimate of time delay from the distribution. By increasing the number of signals employed by the system, the accuracy of the time delay estimation is increased. Further, by calculating the median or the mode of the statistical distribution, noise tolerance is improved.
Type:
Grant
Filed:
August 5, 2004
Date of Patent:
April 22, 2008
Assignee:
Brown University
Inventors:
Nathan Intrator, Ki-o Kim, Nicola Neretti, Leon N. Cooper
Abstract: Optical gratings that perform a number of functions at various wavelengths are formed by various methods that preserve spectral information within a wavelength band, the functions including: coupling radiation from one waveguide to another, controllable gratings that operate on different wavelengths in response to external control signals.
Type:
Grant
Filed:
June 27, 2003
Date of Patent:
April 8, 2008
Assignee:
Brown University Research Foundation
Inventors:
Daniel Levner, Martin F. Fay, Jingming Xu
Abstract: Described is a system, method and computer program product for rendering volumetric multivalued primary data. The system includes a rendering engine having an input coupled to a source of multivalued primary data and an output coupled to a display. The rendering engine includes a data processor for calculating additional data values from the primary data, deriving at least one visual representation from the primary data and the additional data values, and mapping the derived visual representation through transfer functions to hardware primitives for volumetrically rendering the derived visual representation to provide a visualization. The system further includes a user interface for interacting with the visualization.
Abstract: Disclosed is a method for characterizing a sample having a structure disposed on or within the sample, comprising the steps of applying a first pulse of light to a surface of the sample for creating a propagating strain pulse in the sample, applying a second pulse of light to the surface so that the second pulse of light interacts with the propagating strain pulse in the sample, sensing from a reflection of the second pulse a change in optical response of the sample, and relating a time of occurrence of the change in optical response to at least one dimension of the structure.
Abstract: An optical waveguide has a surface. An array of separately actuated bodies is disposed proximal to the exposed surface, and an actuator separately actuates at least some of the bodies to change a spectral characteristic of a wave propagating through the waveguide. Preferably, the bodies are metal striplines, an electro-optical material is disposed between the striplines and the exposed surface, and the actuator is a CMOS chip that imposes a voltage to some or all of the lines. The voltage changes the refractive index at the interface with the surface, changing an index of refraction profile of the waveguide and effectively imposing a grating. Alternatively, the bodies are micro-beams and the actuator, also controlled by a CMOS chip, separately moves each micro-beam into and out of proximity to the surface. The grating is programmable via the CMOS chip.
Type:
Application
Filed:
August 15, 2007
Publication date:
February 28, 2008
Applicant:
Brown University Research Foundation
Inventors:
Daniel Levner, Martin Fay, Jonathan Bloch, Jeffrey Weiss
Abstract: The invention provides compositions and methods for treating, preventing, and diagnosing diseases or conditions associated with an abnormal level or activity of biglycan; disorders associated with an unstable cytoplasmic membrane, due, e.g., to an unstable dystrophin associated protein complex (DAPC); disorders associated with abnormal synapses or neuromuscular junctions, including those resulting from an abnormal MuSK activation or acetylcholine receptor (AChR) aggregation. Examples of diseases include muscular dystrophies, such as Duchenne's Muscular Dystrophy, Becker's Muscular Dystrophy, neuromuscular disorders and neurological disorders.
Type:
Grant
Filed:
June 14, 2004
Date of Patent:
February 26, 2008
Assignee:
Brown University Research Foundation
Inventors:
Justin R. Fallon, Beth McKechnie, Michael Rafii, Hilliary Creely, Mark A. Bowe, Raymond Ferri