Abstract: Devices, kits, systems and methods are described herein for treatment to skin, including but not limited to wound healing, the treatment, amelioration, and/or prevention of scars or keloids. Certain devices kits, systems and methods are used to select treatment parameters, devices or methods for treating skin in a location, zone, or region of skin having particular mechanical or other properties.

Abstract: The present invention provides oligonucleotide constructs, sets of such oligonucleotide constructs, and methods of using such oligonucleotide constructs to provide validated sequences or sets of validated sequences corresponding to desired ROIs. Such validated ROIs and constructs containing these have a wide variety of uses, including in synthetic biology, quantitative nucleic acid analysis, polymorphism and/or mutation screening, and the like.

Abstract: The present invention provides oligonucleotide constructs, sets of such oligonucleotide constructs, and methods of using such oligonucleotide constructs to provide validated sequences or sets of validated sequences corresponding to desired ROIs. Such validated ROIs and constructs containing these have a wide variety of uses, including in synthetic biology, quantitative nucleic acid analysis, polymorphism and/or mutation screening, and the like.

Abstract: The present invention provides oligonucleotide constructs, sets of such oligonucleotide constructs, and methods of using such oligonucleotide constructs to provide validated sequences or sets of validated sequences corresponding to desired ROIs. Such validated ROIs and constructs containing these have a wide variety of uses, including in synthetic biology, quantitative nucleic acid analysis, polymorphism and/or mutation screening, and the like.

Abstract: An illustrative valve block includes a plate, a fluid transfer block, and a diaphragm. The plate includes a channel configured to receive a first fluid and a recess connected to the channel. The fluid transfer block includes an inlet connection configured to receive a second fluid and an outlet connection. The fluid transfer block also includes a plurality of valve inlet bores connected to the inlet connection. The plurality of valve inlet bores are distributed along at least part of a first curved shape. The fluid transfer block further includes a plurality of valve outlet bores each fluidly connected to the outlet connection. The plurality of valve outlet bores are distributed along at least part of a second curved shape. The diaphragm is between the pressure plate and the fluid transfer block. The plurality of valve inlet bores and the plurality of valve outlet bores adjoin the recess.

Abstract: Provided are various embodiments relating to IL13R/IL4R contiguous polypeptides derived from companion animal species and that bind to IL13 and/or IL4. Such contiguous polypeptides can be used in methods to treat IL13 and/or IL4-induced conditions in companion animals, such as canines, felines, and equines.

Abstract: Provided herein are compositions and methods for the treatment or prevention of pathogenic infections.

Abstract: The present invention relates in part to novel cationic lipids and their use, e.g., in delivering nucleic acids to cells.

Abstract: The present invention is directed to recombinantly-modified adeno-associated virus (AAV) helper vectors that are capable of increasing the packaging efficiency of recombinantly-modified adeno-associated virus (rAAV) and their use to improve the packaging efficiency of such rAAV. The present invention is particularly directed to recombinantly-modified adeno-associated virus (AAV) helper vectors that have been further modified to replace (or augment) the P5 and/or P40 promoter sequences that are natively associated with the Rep proteins encoded by such rAAV with AAV P5 and/or P40 promoters that are associated with the Rep proteins of an rAAV of different serotype. The use of such substitute or additional promoter sequences causes increased production of recombinantly-modified adeno-associated virus.

Abstract: The present invention relates to methods for treating a disease associated with insulin resistance selected from a nonalcoholic fatty liver disease (NAFLD) and its sequelae, a lipodystrophic syndrome or a combination thereof with the selective PPAR? agonist, INT131 and optionally vitamin E or compositions thereof. NAFLDs that may be treated with methods and compositions of the present invention include, but are not limited to, simple nonalcoholic fatty liver and nonalcoholic steatohepatitis (NASH). Lipodystrophic syndromes that may be treated with the methods and compositions of the present invention include, but are not limited to, generalized lipodystrophy including congenital generalized lipodystrophy and acquired generalized lipodystrophy and/or partial lipodystrophy, including congenital partial lipodystrophy and acquired partial lipodystrophy, all of which may or may not include hyperlipidemia and/or hyperglycemia and may or may not include NAFLD.

Abstract: Provided herein are methods and compositions related to nucleic acids encoding ornithine transcarbamylase (OTC), such as nucleic acids comprising an OTC codon-optimized sequence, as well as related vectors, such as AAV vectors. Also, provided are methods for administering AAV vectors that comprise a sequence that encodes an enzyme associated with an urea cycle disorder and an expression control sequence, in combination with synthetic nanocarriers coupled to an immunosuppressant.

Abstract: Provided herein are methods and compositions related to nucleic acids encoding methylmalonyl-CoA mutase (MUT) as well as related vectors, such as AAV vectors and Anc80 vectors. Also, provided are methods for administering viral vectors that comprise a sequence that encodes an enzyme associated with an organic acidemia and an expression control sequence, in combination with synthetic nanocarriers coupled to an immunosuppressant.

Abstract: In accordance with the embodiments herein, a method for displaying differences and similarities between tissue samples utilizing a reference database consisting of tissue images, image analysis features, and derived score from patient tissue samples assayed with a tissue-based test for the purpose of scoring said patient sample and guiding treatment based on said score. The method described herein utilizes digital image analysis of a tissue image of one or more tissue sections to extract features which generates a dataset mathematically representing the image. This dataset is then compared to the reference database to determine reference images with similar and different feature values. Those images are then displayed with the similar and different features highlighted.

Abstract: Disclosed herein are compositions having standardized potencies for use in the treatment of warts. Methods of treating a common wart comprising administering one or more intralesional injections of compositions having standardized potencies to a patient in need thereof are also disclosed. Further disclosed are methods of treating a non-common wart administering one or more intralesional injections of compositions having standardized potencies to a patient in need thereof.

Abstract: The disclosure relates to compositions beneficial for ruminant administration. Particularly, the disclosure provides compositions formulated for ruminants that comprise beneficial microbes.

Abstract: Devices and methods for performing extracellular recording of cells, such as excitable cells, cardiomyocytes, and cardiomyocyte precursor cells is provided. An exemplary device includes a nonconductive substrate forming or provided as a base of one or more wells; a recording electrode positioned on the substrate within the well, wherein the recording electrode is accessible to cells when a cell sample is added to the device; and a reference electrode positioned within the well in a cell-free zone, the cell-free zone characterized as free from contact with cells when the cell sample is added to the device, thereby preventing contact between cells and the reference electrode.

Abstract: The invention provides a method for determining whether a human immunodeficiency virus is resistance to a viral entry inhibitor. The methods are particularly useful for determining resistance to inhibitors that act by a non-competitive mechanism. In certain aspects, the methods comprise determining whether an HIV population is resistant to an HIV entry inhibitor, comprising determining a log-sigmoid inhibition curve comprising data points for entry of the HIV population in the presence of varying concentrations of the HIV entry inhibitor, wherein if the entry of the HIV population cannot be completely inhibited by the HIV entry inhibitor, the HIV population is resistant to the HIV entry inhibitor.

Abstract: Aspects of the present invention relate to peptides having antimicrobial activity. In certain aspects, the invention relates to peptides having potent antimicrobial activity, broad-spectrum antimicrobial activity, and/or the ability to kill otherwise antibiotic-resistant microbes, or microbes protected by biofilms.

Abstract: The present disclosure provides novel co-stimulatory domains useful in genetically-modified cells to promote cell proliferation and/or promote cytokine secretion after antigen recognition. For example, disclosed herein arc genetically-modified cells comprising a chimeric antigen receptor or an inducible regulatory construct incorporating the co-stimulatory domains disclosed herein. Also disclosed herein are plasmids and viral vectors comprising a nucleic acid sequence encoding the co-stimulatory domains, and methods of administering compositions comprising the novel co-stimulatory domains to subjects in order to reduce the symptoms, progression, or occurrence of disease, such as cancer.

Abstract: Disclosed are therapeutic compositions including BA-1076 and/or BA-2057, methods of their use in the treatment of ophthalmological disorders. The therapeutic compositions may further include an IOP-lowering prostaglandin. The methods may further include administration of an IOP-lowering prostaglandin.