Abstract: The invention provides for a method of crosslinking a hetero-bifunctional photo crosslinking compound to an immunoglobulin having at least one heterocyclic photo reactive group and at least one non-photo reactive group where the non-photo reactive group is coupled to an effector molecule and the photo reactive group is coupled to the nucleotide binding site of an immunoglobulin. Alternatively, the photo crosslinker contains an orthogonal reactive group such as a thiol, which can be coupled to an effector molecule or functionalized ligand.
Abstract: The present invention relates to polymer compositions and their manufacture. Specifically, the invention relates to multiblock polymers and copolymers, their fabrication, modification and/or functionalization and use as membranes or films.
Type:
Application
Filed:
March 11, 2014
Publication date:
January 28, 2016
Applicants:
Purdue Research Foundation (PRF), University of Notre Dame du Lac
Abstract: Hyperbranched polymers are synthesized with uniform structure based on one pot polymerization technique in confined space with nanometer scale, e.g. micelles in a microemulsion system. The segregated space in micelles or polymerizing nanoparticles is expected to regulate the growth of hyperbranched polymers by confining polymer-polymer reaction inside each individual locus. The obtained hyperbranched polymers have uniform size, similar to the size of nanoparticles, as indicated by a narrow molecular weight distribution of the polymers.
Abstract: Methods and compositions which include or include the administration of a hydrophobic drug, prodrug thereof, salt thereof, isoform thereof, or a combination thereof; cyclodextrin, prodrug thereof, salt thereof, or a combination thereof; polyethylene glycol, propylene glycol, or combination thereof; and optionally, a pharmaceutically acceptable carrier.
Abstract: A compound, having the following formula: or resonance form thereof, or salt thereof, or salt of resonance form thereof is provided, wherein R1-R4 and n are defined herein. Compositions and methods including the compound are also provided.
Abstract: A compound, having the following formula: or resonance form thereof, or salt thereof, or salt of resonance form thereof is provided, wherein E includes an electrophilic site, and wherein R1-R4 and n are defined herein. Compositions and methods including the compound are also provided.
Abstract: The invention provides an apparatus and methods for label-free, chemical specific detection in flow for high throughput characterization of analytes in applications such as flow injection analysis, electrophoresis, and chromatography. A surface-enhanced Raman scattering (SERS) flow detector capable of ultrasensitive optical detection on the millisecond time scale has been developed. The device employs hydrodynamic focusing to improve SERS detection in a flow channel where a sheath flow confines analyte molecules eluted from a capillary over a planar SERS-active substrate. Increased analyte interactions with the SERS substrate significantly improve detection sensitivity. Raman experiments at different sheath flow rates showed increased sensitivity compared with the modeling predictions, indicating increased adsorption. At low analyte concentrations, rapid analyte desorption is observed, enabling repeated and high-throughput SERS detection.
Type:
Application
Filed:
May 26, 2015
Publication date:
November 26, 2015
Applicant:
UNIVERSITY OF NOTRE DAME DU LAC
Inventors:
Zachary Schultz, Oluwatosin Dada, Pierre Negri, Kevin Jacobs
Abstract: Analogs of largazole are described herein. Methods of treating cancer and blood disorders using largazole and largazole analogs and pharmaceutical compositions comprising the same are additionally described herein. Methods for preparing largazole analogs are likewise described.
Type:
Grant
Filed:
July 17, 2013
Date of Patent:
November 17, 2015
Assignees:
Colorado State University Research University, Dana-Farber Cancer Institute, Inc., University of Notre Dame du Lac
Inventors:
Robert M. Williams, James E. Bradner, Albert Bowers, Tenaya Newkirk, Olaf G. Wiest
Abstract: The invention provides devices and methods for the detection of hydrophobic biomarkers using 3D microchip capillary electrophoresis having a non-aqueous solvent system. Hydrophobic biomarkers can be placed in a microcapillary microchannel and electrokinetically injected into a second microcapillary microchannel through a nanocapillary array membrane. The hydrophobic biomarkers can then be separated and analyzed via mass spectrometry. Certain hydrophobic biomarkers can indicate a particular disease state.
Abstract: Carbon nanotubes (CNTs) are promising nanomaterials that have the potential to revolutionize water and waste treatment practices in the future. The direct use of unbounded CNTs, however, poses health risks to humans and ecosystems because they are difficult to separate from treated water. Here, we report the design and synthesis of carbon nanotube ponytails (CNPs) by integrating CNTs into micrometer-sized particles, which greatly improves the effectiveness of post-treatment separation using gravitational sedimentation, magnetic attraction, and membrane filtration. We further demonstrate that CNPs can effectively perform major treatment tasks, including adsorption, disinfection, and catalysis. Using model contaminants, such as methylene blue, Escherichia coli, and p-nitrophenol, we show that all the surfaces of individual CNTs in CNPs are accessible during water treatment.
Abstract: Described herein is a method and system for on-line coupling of capillary isoelectric focusing (cIEF) to high-resolution mass spectrometry in which a sheath flow buffer comprising polar organic solvent and organic acid is used as both an immobilization solution for (cIEF) and an ionization solution for electrospray ionization (ESI).
Type:
Grant
Filed:
May 2, 2013
Date of Patent:
October 13, 2015
Assignees:
University of Notre Dame du Lac, Medimmune, LLC
Inventors:
James McGivney, Guijie Zhu, Norman Dovichi
Abstract: The present invention relates to a method and kit for detecting bacteria in a sample. Substrate having a surface comprising an interdigitated Au electrode array and a plurality of siderophores specific to the bacteria and covalently attached to the surface. In one embodiment, the siderophore may contain a free OH (alcohol), amine, or carboxylic acid to which linker may be attached via ester (on the OH), amide (on the amine) or reverse the ester or amide using the siderophore carboxyl. The linker chain can then be short or long with and without heteroatom substitution to improve solubility as needed. The linker can terminate with a thiol which will react with a gold surface. Alternatively, the linker can terminate with another alcohol, amine or acid which can then be attached to corresponding functionality on the surface of choice.
Type:
Application
Filed:
November 1, 2013
Publication date:
October 1, 2015
Applicant:
UNIVERSITY OF NOTRE DAME DU LAC OFFICE OF TECHNOLOGY TRANSFER
Inventors:
Marvin J. Miller, Cheng Ji, Paul Bohn, Sean Branagan, Yang Yang
Abstract: The invention provides a sheath-flow interface for producing electrospray from a capillary. The electrospray generated by the interface can be used as the source of ions for mass spectrometry. Electrokinetic flow in the interface can move a sheath liquid past the end of a capillary so as to mix with an analyte effluent discharged from the capillary. The sheath liquid and analyte mixture can be directed to an electrospray emitter to generate an electrospray.
Type:
Application
Filed:
April 5, 2015
Publication date:
August 20, 2015
Applicant:
UNIVERSITY OF NOTRE DAME DU LAC
Inventors:
Norman Dovichi, Liangliang Sun, Guijie Zhu
Abstract: A continuous culture system of genetically modified yeast or another biological organism detects contaminants in water through production of a fluorescent chemical continuously produced by the organism after it is contacted with a threshold concentration of a contaminant. Alternatively, a biological organism can detect toxins or extra nutrients by detecting a change in growth rate. Biological organisms can also be measured for mutagenic changes by comparing their genome with a control sample. A network of continuous culture systems may be used as part of a water contamination detection system for real-time water monitoring of contaminants from multiple sources simultaneously.
Type:
Application
Filed:
April 9, 2015
Publication date:
July 30, 2015
Applicant:
University of Notre Dame du Lac
Inventors:
Holly Vee Goodson, Julia Theresa Ott Philip
Abstract: Disclosed is a method and apparatus for strongly enhancing vortex pinning by conformal crystal arrays. The conformal crystal array is constructed by a conformal transformation of a hexagonal lattice, producing a non-uniform structure with a gradient where the local six-fold coordination of the pinning sites is preserved, and with an arching effect. The conformal pinning arrays produce significantly enhanced vortex pinning over a much wider range of field than that found for other vortex pinning geometries with an equivalent number of vortex pinning sites, such as random, square, and triangular.
Type:
Grant
Filed:
March 7, 2014
Date of Patent:
July 14, 2015
Assignees:
University of Notre Dame du Lac, Los Alamos National Laboratory, LLC
Inventors:
Boldizsar Janko, Cynthia Reichhardt, Charles Reichhardt, Dipanjan Ray
Abstract: Embodiments of the present invention provide novel antibacterials that target penicillin-binding proteins or other important cellular targets. Methods for inhibiting growth (reproduction, etc.) of bacteria using compounds described herein are also provided. Various embodiments exhibit activity against gram positive bacteria, such as certain strains of Entercoccus and Staphylococcus aureus.
Type:
Grant
Filed:
December 21, 2007
Date of Patent:
June 2, 2015
Assignee:
University of Notre Dame du Lac
Inventors:
Shahriar Mobashery, Peter I. O'Daniel, Mayland Chang
Abstract: A system and method of identifying changes utilizing radio frequency polarization includes receiving a reflected and/or transmitted polarized radio frequency signal at a receiver, filtering, amplifying and conditioning the received signal, converting the received signal from an analog format to a digital format, processing the digital signal to elicit a polarization mode dispersion feature of the received signal, and comparing the polarization mode dispersion features to a known calibration to detect a change in a characteristic of the target object.
Abstract: The invention provides a novel composite bone graft system utilizing a porous collagen scaffold having a matrix impregnated with calcium phosphate particles and more than one bioactive agent, one of which is conjugated to the matrix. The graft system exhibits increased mechanical strength and osteogenic properties by providing sites for tissue attachment and propagation. The bioactive agents are delivered to the scaffold via different mechanisms to enable sequential and sustained release of the bioactive agents over time.
Type:
Application
Filed:
August 5, 2014
Publication date:
May 14, 2015
Applicant:
UNIVERSITY OF NOTRE DAME DU LAC
Inventors:
Ryan K. Roeder, Matthew J. Meagher, Robert J. Kane
Abstract: A method for reconstructing an image of an object that includes a plurality of image elements. The method includes accessing image data associated with a plurality of image elements, and reconstructing an image of the object by optimizing an objective function, where the objective function is optimized by iteratively solving a nested sequence of approximate optimization problems. The algorithm is composed of nested iterative loops, in which an inner loop iteratively optimizes an objective function approximating the outer loop objective function, and an outer loop that utilizes the solution of the inner loop to optimize the original objective function.
Type:
Grant
Filed:
November 2, 2011
Date of Patent:
April 28, 2015
Assignees:
General Electric Company, The University of Notre Dame Du Lac, Purdue Research Foundation
Inventors:
Zhou Yu, Evgeny Drapkin, Bruno Kristiaan Bernard De Man, Jean-Baptiste Thibault, Kai Zeng, Jiang Hsieh, Brian Edward Nett, Debashish Pal, Lin Fu, Guangzhi Cao, Charles A. Bouman, Jr., Ken David Sauer
Abstract: The invention provides compounds, compositions, and methods for the treatment of diseases, disorders, or conditions that are modulated by matrix metalloproteinases (MMPs). The disease, disorder, or condition can include, for example, stroke, neurological disorders, or ophthalmological disorders. The treatment can include administering a compound or composition described herein, thereby providing a prodrug compound that metabolizes to an active MMP inhibitor in vivo. The MMP inhibition can be selective inhibition, for example, selective inhibition of MMP-2, MMP-9, and/or MMP-14. Thus, the invention provides non-mutagenic prodrug compounds of the formulas described herein that result in the inhibition of MMPs upon in vivo administration.
Type:
Application
Filed:
December 11, 2014
Publication date:
April 2, 2015
Applicant:
UNIVERSITY OF NOTRE DAME DU LAC
Inventors:
Mayland Chang, Shahriar Mobashery, Mijoon Lee