Abstract: The present invention relates to broadly neutralizing anti-influenza monoclonal antibodies or antigen-binding fragments thereof. The present invention further relates to therapeutic uses of the isolated antibody or the antigen-binding fragment thereof.

Abstract: An ultrasound study in which the reflected echoes are analyzed to determine a physical characteristic of scatterers within the volume of interest, the acoustic attenuation within the volume of interest, and the echo amplitude. These data are used to diagnose the disease state and the progression of disease.

Abstract: A tunable waveguide element includes a waveguide core and a waveguide cladding. A high k dielectric layer is between the waveguide core and the waveguide cladding. An electrode is disposed between the high k dielectric layer and the waveguide core. The electrode can be made of a two-dimensional material and/or monolayer.

Abstract: The invention relates to nucleic acid molecules for pseudouridylation of a target uridine in a target RNA in a mammalian cell, wherein the nucleic acid molecule comprises a guide region capable of forming a partially double stranded nucleic acid complex with the target RNA comprising the target uridine, wherein the partially double stranded nucleic acid complex is capable of engaging a mammalian pseudouridylation enzyme, wherein the guide region assists in positioning the target uridine in the partially double stranded nucleic acid complex for it to be converted to a pseudouridine by the mammalian pseudouridylation enzyme.

Abstract: A reverberant shear wave field in an object such as a patient's body or organ causes deformations in one or more selected directions measured with an imaging modality such as ultrasound or MR equipment or other imaging equipment, to estimate displacements in one or more selected directions over time increments and then viscoelastic properties such as stiffness or other parameters of the ROI.

Abstract: Disclosed are methods of using reaction injection molding to mold stimuli-responsive thermosets such as urethane linked poly(caprolactone) networks from polyols and polyisocyanates, as well as polymers prepared by such methods.

Abstract: Optical soliton pulses are generated using a drive unit to provide pump light at a drive power, a passive optical waveguide ring resonator, a spectral filter in the passive optical waveguide ring resonator, and an output to optically couple optical solitons from the passive optical waveguide ring resonator. The drive power, a net group velocity dispersion (GVD) of the passive optical waveguide ring resonator, a frequency detuning parameter of the passive optical waveguide ring resonator, and the spectral filter are configured to generate one or more optical solitons.

Abstract: The invention provides apparatuses and systems for cutting off electromagnetic radiation (ER) beams, such as laser beams. The apparatuses and systems employ gravitational force on a shutter to close off the path of the ER beam if power is cut to an electromagnet holding the shutter out of the beam path. Power to the electromagnet is typically connected to a safety interlock connected to a door or other entry point to an enclosure in which the ER beam is being used. Additionally, the invention provides add-on devices that allow the ER beam to be blocked to change lenses or targets.

Abstract: Within the field of elastography, a new approach analyzes the limiting case of shear waves established as a reverberant field. In this framework, it is assumed that a distribution of shear waves exists, oriented across all directions in 3D (e.g. 2D space+time). The simultaneous multi-frequency application of reverberant shear wave fields can be accomplished by applying an array of external sources that can be excited by multiple frequencies within a bandwidth, for example 50, 100, 150, . . . 500 Hz, all contributing to the shear wave field produced in the liver or other target organ. This enables the analysis of the dispersion of shear wave speed as it increases with frequency, indicating the viscoelastic and lossy nature of the tissue under study. Furthermore, dispersion images can be created and displayed alongside the shear wave speed images.

Abstract: The present disclosure relates to methods for inducing rejuvenation in a population of glial progenitor cells and methods for treating a subject having a glial cell-related disorder. Methods include administering, to the population of adult glial progenitor cells, an effective amount of an expression vector comprising a nucleotide sequence encoding B-cell lymphoma/leukemia 11A (BCL11A) and a regulatory element operably linked to the nucleotide sequence.

Abstract: The invention relates to nucleic acid molecules for pseudouridylation of a target uridine in a target RNA in a mammalian cell, wherein the nucleic acid molecule comprises a guide region capable of forming a partially double stranded nucleic acid complex with the target RNA comprising the target uridine, wherein the partially double stranded nucleic acid complex is capable of engaging a mammalian pseudouridylation enzyme, wherein the guide region assists in positioning the target uridine in the partially double stranded nucleic acid complex for it to be converted to a pseudouridine by the mammalian pseudouridylation enzyme.

Abstract: A device, system and method for the detection and screening of plastic microparticles in a sample is disclosed. A nanoporous silicon nitride membrane is used to entrap plastic microparticles contained in the sample. The sample may be a water sample, an air sample, or other liquid or gas sample. The entrapped plastic microparticles are then heated or otherwise processed on the nanoporous silicon nitride membrane. An imaging system observes the nanoporous silicon nitride membrane with the entrapped plastic microparticles to determine the type and quantity of the various plastic microparticles that are entrapped on the membrane.

Abstract: An integrated tunable waveguide element includes: a cladding. A high k dielectric layer is disposed within the cladding. At least one waveguide is disposed adjacent to the high k dielectric layer. At least one two dimensional monolayer pad is disposed on or in the high k dielectric layer adjacent to a portion of the at least one waveguide. An integrated 2×2 array element is also described.

Abstract: This application relates to stem cell biology and regenerative medicine. Disclosed herein methods for isolation of skeletal stem cells, related methods, related compositions, related products, and related uses.

Abstract: A surgical visualization and medical imaging device and related computer based imaging methods and systems are disclosed. The surgical devices of the present invention use indocyanine green dye combined with a plastic, and are used in enhanced surgical imaging in applications such as robotically assisted surgeries. A near infrared light source, such as an 805 nm laser, may be used to excite the surgical device so that the device emits 835 nm light. Both the excitation and emission wavelengths penetrate tissue and blood, and provide enhanced imaging of surgical procedures. The resulting fluorescence image allows a user to readily determine relative tissue depth, to identify tissue inhomogeneity, to detect masses or tissue irregularities, to pinpoint anatomical holes, and to visualize tears.

Abstract: Specialized ultrasound imaging systems and methods provide metrics related to objective and consistent quantification of scar tissue volume that strongly correlate with tendon healing and range of motion. Automated acquisition of ultrasound images of fingers helps assess tendon healing in a non-invasive, quantitative fashion and can be used to guide clinical decision-making, management of post-operative tendon repair patients, and employment and insurance considerations.

Abstract: The present invention relates to broadly neutralizing anti-influenza monoclonal antibodies or antigen-binding fragments thereof. The present invention further relates to therapeutic uses of the isolated antibody or the antigen-binding fragment thereof.

Abstract: A device and method for isolating extracellular vesicles from biofluids is disclosed. A nanoporous silicon nitride membrane is provided with a tangential flow of biofluid. A pressure gradient through the nanoporous silicon nitride membrane facilitates capture of extracellular vesicles from the tangential flow vector of biofluid. Reversal of the pressure gradient results in the release of the extracellular vesicles for subsequent collection.

Abstract: The present invention provides point-of-care blood typing devices. The devices require only a small sample of blood and are able to provide results within minutes. The devices are capable of identifying A, B, AB, and O type blood. The devices are also capable of identifying blood that is positive (+) or negative (?) for the D antigen.

Abstract: Provided are methods, devices, and kits for the isolation and detection of one or more analytes of interest from a biological sample using microslit filter membranes. In various examples, the methods use capture particles and binding agents for specific recognition of one or more analytes of interest.