Abstract: The present disclosure provides methods for quantifying target analytes in sample by providing framework for expanded multiplexing through asynchronous fingerprinting.

Abstract: The present disclosure is directed to compositions and methods present a universal microbial diagnostic (UMD) platform to screen for microbial organisms in a sample using a small number of random DNA probes that are agnostic to the target DNA sequences. The UMD platform can be used to direct and monitor appropriate treatments, thus minimizing the risk of antibiotic resistance, and enhancing patient care.

Abstract: The present disclosure is directed to compositions and methods present a universal microbial diagnostic (UMD) platform to screen for microbial organisms in a sample using a small number of random DNA probes that are agnostic to the target DNA sequences. The UMD platform can be used to direct and monitor appropriate treatments, thus minimizing the risk of antibiotic resistance, and enhancing patient care.

Abstract: The present invention concerns methods and compositions utilizing gold nanoparticles for therapy for a medical condition, such as cancer. In particular aspects, the nanoparticles are included with or in a T cell to facilitate targeting of the nanoparticles to a desired location in vivo and/or to facilitate therapeutic treatment for the condition. In specific cases, the nanoparticle/T cell compositions further comprise microRNAs and/or peptides, and so forth.

Abstract: Novel nanoparticulate compositions of luminescent probes, as well as methods of using such compositions and systems comprising such compositions are provided. One such composition comprises at least one probe comprising a quantum dot, at least one metal nanoparticle, and at least one tether that is attached to the quantum dot and to the at least one metal nanoparticle. One such method comprises providing at least one such probe, introducing the at least one probe into a subject; and detecting luminescence from the at least one probe in the subject. One such system comprises at least one such probe and a detector capable of detecting luminescence from the quantum dot, wherein the detector is positioned in relation to the at least one probe such that luminescence can be detected.

Abstract: This invention is generally in the field of improved methods for the localized delivery of heat and the use thereof for the repair of tissue. The method involves localized induction of hyperthermia in tissue or materials by delivering nanoparticles to the tissue or materials and exposing the nanoparticles to an excitation source under conditions wherein they emit heat. The generation of heat effects the joining of the tissue or materials.

Abstract: Methods and apparatus for assessing the size of a scattering element of a sample. Primary radiation is generated from a source. The primary radiation is polarized to produce polarized primary radiation. The polarized primary radiation is directed to the sample to generate reflected radiation. The reflected radiation is directed through a polarizer to produce filtered reflected radiation, the polarizer being configured to select reflected radiation parallel and perpendicular to the polarization of the polarized primary radiation. The filtered radiation is detected, and a depolarization ratio is calculated using the detected filtered radiation. The size of the scattering element is calculated using the depolarization ratio.

Abstract: Methods for enhancing contrast during imaging to assess cell and nuclear morphology of a sample. A contrast agent such as acetic acid, toluidine blue, hypertonic saline, hypotonic saline, Lugol's iodine, an absorbing dye, a liposome, or a contrast agent linked to a marker are applied to a sample. The sample is analyzed with an imaging device to create image data, and the sample is diagnosed using the image data.

Abstract: This invention is generally in the field of improved methods for the localized delivery of heat and the use thereof for the repair of tissue. The method involves localized induction of hyperthermia in tissue or materials by delivering nanoparticles to the tissue or materials and exposing the nanoparticles to an excitation source under conditions wherein they emit heat. The generation of heat effects the joining of the tissue or materials.

Abstract: Methods and apparatus for assessing the size of a scattering element of a sample. Primary radiation is generated from a source. The primary radiation is polarized to produce polarized primary radiation. The polarized primary radiation is directed to the sample to generate reflected radiation. The reflected radiation is directed through a polarizer to produce filtered reflected radiation, the polarizer being configured to select reflected radiation parallel and perpendicular to the polarization of the polarized primary radiation. The filtered radiation is detected, and a depolarization ratio is calculated using the detected filtered radiation. The size of the scattering element is calculated using the depolarization ratio.

Abstract: Methods for enhancing contrast during imaging to assess cell and nuclear morphology of a sample. A contrast agent such as acetic acid, toluidine blue, hypertonic saline, hypotonic saline, Lugol's iodine, an absorbing dye, a liposome, or a contrast agent linked to a marker are applied to a sample. The sample is analyzed with an imaging device to create image data, and the sample is diagnosed using the image data.

Abstract: A method for using acetic acid as a contrast agent during reflectance confocal imaging of normal and neoplastic tissue, particularly epithelium. In one aspect, the invention includes a method of using acetic acid as a contrast agent for confocal imaging of cells, including applying acetic acid to the diagnostic tissue sample in sufficient concentration to induce a small scale alteration of the index of refraction of nuclei in the cells; and imaging such cells using a reflectance confocal imaging system.