Abstract: The present disclosure generally relates to compositions and method for delivery, e.g., sustained delivery of active agents, and their use for the treatment of diseases or disorders.
Type:
Application
Filed:
October 7, 2022
Publication date:
April 13, 2023
Applicants:
Trustees of Boston University, The General Hospital Corporation
Inventors:
Eric M. Bressler, Sarah Adams, Yolonda Colson, Mark W. Grinstaff, Wilson Wai Chun Wong
Abstract: A gradiometer includes a at least one magnet attached to a beam. The magnet moves in response to a magnetic force. A sensing element is configured to measure movement or deflection of the beam or magnet. The gradiometer is configured to determine a gradient of a magnetic field acting on the first magnet based on movement of the magnet. The gradiometer can further measure higher order gradients.
Type:
Grant
Filed:
March 11, 2022
Date of Patent:
March 28, 2023
Assignee:
Trustees of Boston University
Inventors:
Joshua Javor, David Bishop, David Campbell, Matthias Imboden
Abstract: Described herein are methods of treating COVID19 from a coronavirus infection, methods of treating a subject having a coronavirus infection, methods of improving a survival rate of a subject having a coronavirus infection, methods of determining prognosis of a subject having a coronavirus infection, methods of preventing or treating organ-dysfunction or multi-organ dysfunction or failure associated with a coronavirus infection, methods of combinational therapy for a subject having a coronavirus infection, methods of reducing microthrombi formation or low flow organ-ischemia associated with a coronavirus infection by administering a DEspR inhibitor.
Abstract: The technology described herein is directed to methods of treating and diagnosing bronchial premalignant lesions, e.g. by determining the lesion subtype using one or more biomarkers described herein.
Type:
Grant
Filed:
August 20, 2019
Date of Patent:
February 14, 2023
Assignees:
TRUSTEES OF BOSTON UNIVERSITY, HEALTH RESEARCH, INC.
Inventors:
Jennifer E. Beane-Ebel, Avrum E. Spira, Marc Lenburg, Mary E. Reid, Sarah Mazzilli
Abstract: Systems and methods are provided for performing photothermal dynamic imaging. An exemplary method includes: scanning a sample to produce a plurality of raw photothermal dynamic signals; receiving the raw photothermal dynamic signals of the sample; generating a plurality of second signals by matched filtering the raw photothermal dynamic signals to reject non-modulated noise; and performing an inverse operation on the second signals to retrieve at least one thermodynamic signal in a temporal domain.
Abstract: Disclosed is an assay for determining resistance in a target cell or tissue to a therapy associated with cellular stress using chemical microscopy and high-throughput single cell analysis to determine functional metabolic alteration, including determining metabolic reprogramming in a target cell or tissue to a therapy associated with cellular stress, and methods of using the assays.
Type:
Application
Filed:
June 13, 2022
Publication date:
February 9, 2023
Applicants:
Trustees of Boston University, Northwestern University
Abstract: Methods of forming a gel and related methods of treating subjects with such gels are described. The method may include preparing a composition by combining a macromer comprising a first polyethylene glycol (PEG)-based polymer, a poly(ethylenimine)-based polymer, or a poly(1,2-glycerol) carbonate-based polymer, the macromer including at least one first functional moiety, a crosslinking agent comprising a second PEG-based polymer that includes at least one second functional moiety, and a photoinitiator, and activating the photoinitiator via a light source to form the gel.
Type:
Application
Filed:
July 19, 2022
Publication date:
February 9, 2023
Applicants:
Boston Scientific Scimed, Inc., Trustees of Boston University
Inventors:
Lauren S. Lydecker, Gerald Fredrickson, Samantha Berry, Katherine A. Cook, Mark Grinstaff
Abstract: Provided herein are methods for capturing extracellular vesicles from a biological sample for quantification and/or characterization (e.g., size and/or shape discrimination) using an SP-IRIS system. Also provided herein are methods of detecting a biomarker on captured extracellular vesicles or inside the captured vesicles (e.g., intra-vesicular or intra-exosomal biomarkers).
Type:
Grant
Filed:
January 14, 2021
Date of Patent:
February 7, 2023
Assignee:
TRUSTEES OF BOSTON UNIVERSITY
Inventors:
M. Selim Ünlü, George G. Daaboul, Marcella Chiari
Abstract: The technology described herein is directed to inducible and repressible polypeptides and polypeptide systems. In particular, described herein are split sequence-specific nucleases and split recombinases that are linked to drug-inducible or drug-repressible dimerization domains. In some embodiments, the polypeptides comprise sequestering domains and/or have their expression controlled by an inducible promoter. In multiple aspects described herein are polynucleotides, vectors, cells, and pharmaceutical compositions comprising said polypeptides or polypeptide systems. Also described herein are methods of using said polypeptide systems to modulate the expression of a target polypeptide or to treat a subject in need of a cell therapy.
Abstract: A system for neuromodulation includes a split-ring resonator (SRR) comprising a resonance circuit, the SRR being implantable in a cranial target site and a source of microwave signals, wherein the microwave signals are deliverable wirelessly to couple with the SRR to produce a localized electrical field, wherein the localized electrical field inhibits one or more neurons at the cranial target site with submillimeter spatial precision.
Type:
Grant
Filed:
May 5, 2022
Date of Patent:
January 31, 2023
Assignee:
Trustees of Boston University
Inventors:
Chen Yang, Ji-Xin Cheng, Nan Zheng, Yueming Li, Ying Jiang, Lu Lan, Carolyn Marar
Abstract: Microscopic analysis of a sample includes a fluorescent dye disposed within the sample. A mid-IR optical source generates a mid-infrared beam, which is directed onto the sample to induce a temperature change by absorption of the mid-infrared beam. An optical source generates a probe beam directed to impinge on the sample. A detector detects fluorescent emissions from the sample when the probe beam impinges on the sample. A data acquisition and processing system acquires and processes the detected fluorescent emissions from the sample to: (i) generate a signal indicative of infrared absorption by the sample, (ii) generate a signal indicative of temperature in the sample based on the signal indicative of infrared absorption by the sample, (iii) generate an image of the sample using the signal indicative of temperature in the sample.
Abstract: Herein is described kinetic assay, in which individual binding events are detected and monitored during sample incubation. This method uses interferometric reflectance imaging to detect thousands of individual binding events across a multiplex solid phase sensor with a large area. A dynamic tracking procedure is used to measure the duration of each event. From this, the total rates of binding and de-binding as well as the distribution of binding event durations are determined. Systems and components for performing the kinetic assay are also described.
Abstract: A ring resonator optical modulator comprises: an optical region in which optical radiation can propagate in a circular path having an inner radius and an outer radius coincident with an outer perimeter of the ring resonator optical modulator; a MOS capacitor structure having an upper gate device layer and a lower body device layer, and an insulating material being disposed between the upper gate device layer and the lower body device layer; and a cladding region. The optical radiation is confined within the optical region. The insulating material has a first region disposed in the optical region having a first thickness and a second region having a second thickness greater than the first thickness, the second region being disposed radially inwardly from the inner radius of the optical region, such that the optical radiation is radially confined toward the outer side of the inner radius of the optical region.
Abstract: A sensing system, and method of operating same, can act as a highly sensitive gradiometer. A first non-magnetic element, such as a sphere, is driven at a first resonance frequency along an axis. A magnet is attached to a second non-magnetic element, such as a plate, and driven at a second resonance frequency along the axis. The first non-magnetic element and the second non-magnetic element are coupled by a force along the axis, in resonance. The gradiometer is configured to determine a gradient magnetic field acting on one or more of the first non-magnetic element and magnet based on change in at least one resonance characteristic.
Type:
Grant
Filed:
March 11, 2022
Date of Patent:
January 10, 2023
Assignee:
Trustees of Boston University
Inventors:
David J. Bishop, Joshua Javor, David K. Campbell, Matthias Imboden
Abstract: Described herein are systems, assays, methods and compositions for identification of oxidase microbial redox-enzymes (MREs) specific to an analyte of interest from an environmental source. The technology relates to identification of analyte-responsive MREs that can quantify the concentration of a target analyte with high specificity and high sensitivity, for example, where the identified analyte-responsive redox-enzyme can be used to engineer an electrochemical biosensor.
Type:
Grant
Filed:
February 5, 2021
Date of Patent:
December 27, 2022
Assignee:
Trustees of Boston University
Inventors:
James Galagan, Uros Kuzmanovic, Luis Ortiz, Douglas Densmore, Nicolas Shijie Shu
Abstract: The technology described herein is directed to regulated synthetic gene expression systems. In one aspect described herein are synthetic transcription factors (synTFs) comprising a DNA binding domain, a transcriptional effector domain, and a regulator protein. In other aspects described herein are gene expression systems comprising said synTFs and methods of treating diseases and disorders using said synTFs.
Type:
Grant
Filed:
May 15, 2020
Date of Patent:
December 20, 2022
Assignee:
TRUSTEES OF BOSTON UNIVERSITY
Inventors:
Ahmad S. Khalil, Wilson Wai Chun Wong, Divya Israni, Huishan Li
Abstract: Described herein is a chimeric antigen receptor (CAR) platform with the ability to (a) serve as an ON/OFF switch (with the ability for tenability/titrability), (b) sense multiple antigens and perform logic computations, and/or (c) independently regulate multiple signaling pathways. The compositions provided herein permit the degree of control and discrimination necessary to optimize CAR T cell therapy. Also described herein are cells comprising such compositions and the use of these compositions and/or cells in the treatment of cancer.
Abstract: Transient molecules in the gastrointestinal (GI) tract, such as nitric oxide and hydrogen sulfide, are important signals and mediators of inflammatory bowel disease (IBD). Because these molecules may be short-lived in the body, they are difficult to detect. To track these reactive molecules in the GI tract, a miniaturized device has been developed that integrates genetically engineered probiotic biosensors with a custom-designed photodetector and readout chip. Leveraging the molecular specificity of living sensors, bacteria were genetically encoded to respond to IBD-associated molecules by luminescing. Low-power electronic readout circuits (e.g., using nanowatt power) integrated into the device convert the light from just 1 ?L of bacterial culture into a wireless signal. Biosensor monitoring was demonstrated in the GI tract of small and large animal models and integration of all components into a sub-1.4 cm3 ingestible form factor capable of supporting wireless communication.
Type:
Application
Filed:
April 26, 2022
Publication date:
December 1, 2022
Applicants:
Massachusetts Institute of Technology, Trustees of Boston University, The Brigham and Women's Hospital, Inc.
Inventors:
Timothy Kuan-Ta Lu, Rabia Tugce Yazicigil Kirby, Carlo Giovanni Traverso, Jenna Ahn, Maria Eugenia Inda, Miguel Jimenez, Qijun Liu, Phillip Nadeau, Christoph Winfried Johannes Steiger, Adam Wentworth