Abstract: Disclosed herein are methods for preventing or treating non-arteritic anterior ischemic optic neuropathy in a subject by administering to the subject a nucleic acid molecule comprising a nucleic acid sequence encoding OCT4, a nucleic acid sequence encoding SOX2, and a nucleic acid sequence encoding KLF4.

Abstract: The present invention relates to amino acid salts of nicotinic acid and nicotinamide and compositions thereof of Formula I, useful in the treatment of disorders and diseases associated with deficiencies in NAD+: wherein A, L, M1, M2, R1, R2, and R3 are as described herein.

Abstract: The present invention relates to inorganic salts of nicotinic acid mononucleotides and compositions of Formula I, useful in the treatment of disorders and diseases associated with deficiencies in NAD+: wherein A, M1, M2, k, R1, R2, and R3 are as described herein.

Abstract: The present invention provides a method of forming one or more biological-binding areas on a substrate for biological-testing. The method includes activating at least a portion of a glass-ceramic substrate comprising glass and one or more metal containing compounds. The one or more metal containing compounds have a range of diameters that are less than about 300 nanometers in diameter and are spaced an average distance of at least one-half the midpoint of the diameter range apart. The one or more metals include compounds selected from metal oxides, metal nanoparticles, metal alloys, and atomic metals. The glass-ceramic substrate is heated to a temperature near the glass transformation temperature to form one or more metal nanoparticles in one or more ceramic biological-binding areas. The glass-ceramic substrate is etched to expose one or more metal.

Abstract: This invention provides an inexpensive and rapid method for fabricating a high-anisotropic-etch ratio, shaped glass structures using a novel photosensitive glass composition. Structures of the photosensitive glass may include micro-channels, micro-optics, microposts, or arrays of hollow micro-needles. Furthermore, such shaped glass structures can be used to form a negative mold for casting the shape in other materials.

Abstract: This invention provides an inexpensive and rapid method for fabricating a high-anisotropic-etch ratio, shaped glass structures using a novel photosensitive glass composition. Structures of the photosensitive glass may include micro-channels, micro-optics, microposts, or arrays of hollow micro-needles. Furthermore, such shaped glass structures can be used to form a negative mold for casting the shape in other materials.

Abstract: The present invention includes micro-sphere composition, methods of making binding assays. The present invention also includes a micro-sphere for binding biological molecules without pretreatment. The micro-sphere includes a spherical glass substrate having one or more metal nanoparticle regions that are exposed from within the glass, wherein the micro-sphere is capable of binding biological molecules without pretreatment.

Abstract: The present invention includes composition, methods of making and methods of using a multi-nano-well plate having a first layer at least partially disposed on the substrate and one or more nano-wells that extends through the first layer that extends toward the substrate, wherein the one or more nano-wells having an opening in the first layer connected to bottom layer by one or more walls.

Abstract: The present invention includes micro-sphere composition, methods of making binding assays. The present invention also includes a micro-sphere for binding biological molecules without pretreatment. The micro-sphere includes a spherical glass substrate having one or more metal nanoparticle regions that are exposed from within the glass, wherein the micro-sphere is capable of binding biological molecules without pretreatment.