| HOWARD HUGHES MEDICAL INSTITUTE Patent applications |
| Patent application number | Title | Published |
|---|
| 20120021414 | DIAGNOSTIC MARKERS OF IMMUNOSENESCENCE AND METHODS OF USE THEREOF - Embodiments of the present invention provide diagnostic markers of immunosenescence and methods of identifying individuals with impaired immune function based on a combination of such markers obtained from various analyses, primarily from blood, testing immune function including the analysis of immune cell subset frequencies, gene expression, cytokine and chemokine levels, and signaling responses to stimulation with cytokines (‘cytokine response’). Particular combinations of markers can predict with high accuracy whether an individual will respond to active vaccination and become protected against recurring diseases. | 01-26-2012 |
| 20110304723 | BESSEL BEAM PLANE ILLUMINATION MICROSCOPE - A microscope has a light source for generating a light beam having a wavelength, λ, and beam-forming optics configured for receiving the light beam and generating a Bessel-like beam that is directed into a sample. The beam-forming optics include an excitation objective having an axis oriented in a first direction. Imaging optics are configured for receiving light from a position within the sample that is illuminated by the Bessel-like beam and for imaging the received light on a detector. The imaging optics include a detection objective having an axis oriented in a second direction that is non-parallel to the first direction. A detector is configured for detecting signal light received by the imaging optics, and an aperture mask is positioned | 12-15-2011 |
| 20110206075 | Nonlinear Imaging using Passive Pulse Splitters - An apparatus includes a pulsed laser source that produces a pulsed laser beam at an input repetition rate and an input pulse power; a passive pulse splitter that receives the pulsed laser beam and outputs a signal including a plurality of sub-pulses for each input pulse of the pulsed laser beam, where the sub-pulses have a repetition rate that is greater than the input repetition rate and at least two of the sub-pulses have power less than the input pulse power; a sample accommodating structure configured to accommodate a sample placed in the path of a sample beam that is formed from the beam that exits the pulse splitter; and a detector that receives a signal of interest emitted from a sample accommodated by the sample accommodating structure based on the incident sample beam. | 08-25-2011 |
| 20110170200 | Systems and Methods for 3-Dimensional Interferometric Microscopy - In one embodiment, an apparatus comprises an optical system with multiple detectors and a processor. The optical system is configured to produce images of an optical source in a first dimension and a second dimension substantially orthogonal to the first dimension at each detector at a given time. Each image from the images is based on an interference of an emission from the optical source in a first direction and an emission from the optical source in a second direction different from the first direction. The processor is configured to calculate a position in a third dimension based on the images. The third dimension is substantially orthogonal to the first dimension and the second dimension. | 07-14-2011 |
| 20110006231 | MICROSCOPY WITH ADAPTIVE OPTICS - Microscopy techniques in which a rear pupil of an optical system is segmented and the segments are individually controlled with a wavefront modulating device to control the direction and phase of individual beamlets of an excitation or emission beam in the optical system, thereby providing an adaptive optics correction to sample and system induced aberrations. | 01-13-2011 |
| 20100231922 | THREE-DIMENSIONAL INTERFEROMETRIC MICROSCOPY - A statistically sparse subset of switchable optical sources in a sample is activated, and the activated switchable optical sources are excited such that optical beams are emitted from the activated switchable optical sources along at least two optical paths. A first wavefront modification in a first optical beam emitted from the activated switchable optical sources along a first optical path is introduced and a second wavefront modification in a second optical beam emitted from the activated switchable optical sources along a second optical path is introduced, the second wavefront modification being distinct from the first wavefront modification. The first and second optical beams are interfered with each other to produce a plurality of output beams, and three-dimensional position information of the optical sources is determined based on an intensity of each output beam from the plurality of output beams. | 09-16-2010 |
| 20100130420 | NOVEL CHIMERIC LIGAND-GATED ION CHANNELS AND METHODS OF USE THEREOF - The present invention provides novel chimeric receptors that have unique pharmacology. In particular, the chimeric receptors comprise a mutated ligand binding domain of the α7 nicotinic acetylcholine receptor fused to a transmembrane or channel domain from a ligand-gated ion channel protein. The mutations in the ligand binding domain confer selective binding of compounds. Methods of using the novel chimeric receptors of the invention as well as compounds that preferentially bind and activate the chimeric receptors are also disclosed. | 05-27-2010 |
| 20100110440 | Optical Pulse Duration Measurement - An apparatus includes a delay producing system that receives a parent electromagnetic pulse and outputs two spatially-overlapped children electromagnetic pulses having a relative and adjustable time delay between each other; a fluorescence producing device placed in a path of the children electromagnetic pulses; a guidance system that is in the path of the children pulses and is positioned between the delay producing system and the fluorescence producing device to guide the children pulses to the fluorescence producing device; a detector that receives fluorescence produced at the fluorescence producing device, where the fluorescence travels at least partly through the guidance system before reaching the detector; and a data system that receives the value of the time delay and the output of the detector and determines the electromagnetic pulse duration based on the value of the time delay and the output of the detector. | 05-06-2010 |
