Abstract: Described are compositions and methods of manufacturing extracellular vesicles comprising sticky imaging particles. In one aspect, methods include associating a sticky element to imaging particles forming sticky imaging particles. The sticky imaging particles are associated with extracellular vesicles (EV) to form a mixture comprising extracellular vesicles (EV) that comprise sticky imaging particles. The method also include separating the sticky imaging particles associated with EVs from sticky imaging particle that are not associated with EVs.

Abstract: A method for magnetic resonance (MR) imaging or spectroscopy on a MR scanner to detect tissue physiological parameters in one or more tissue areas in a human or non-human subject includes administering to the subject a contrast enhancing physiologically tolerable amount of a sugar that is non-labeled, subjecting the subject to an MR procedure capable of generating MR signals encoding at least one tissue area in the subject in which the sugar either passes or is taken up, detecting a temporal variation in the MR signals in the at least one tissue area after the administering the sugar, determining at least one tissue-related parameter from the temporal variation, and ascertaining whether the at least one tissue-related parameter is abnormal.

Abstract: A method of assessing tissue vascular permeability for nanotherapeutics using non-labeled dextran can include: receiving a non-labeled, physiologically-tolerable dextran solution by a subject; acquiring a plurality of magnetic resonance images of a distribution of the dextran solution within at least one region of interest of the subject for a corresponding plurality of times; and assessing a tissue vascular permeability of the at least one region of interest to dextran particles in the dextran solution based on differences between the plurality of magnetic resonance images, wherein the dextran solution is a substantially mono-disperse solution of dextran particles of one size.

Abstract: An embodiment in accordance with the present invention provides a method of non-invasively detecting and imaging temperature or temperature changes by assessing the temperature induced shifts in the saturation spectrum of water using MRI, namely saturation shift referencing. This procedure includes the MRI procedures to assess water saturation spectrum and the data processing steps to determine the temperature induced shifts of water resonance frequency and consequently to estimate the temperature change. This procedure also includes the procedure of assessing fat saturation spectrum and estimating fat resonance frequency. This method can be used as a clinical procedure for temperature mapping in multiple applications, especially where a significant amount of fat is present. One application is to monitor the temperature of the targeted tumor and its surrounding tissues during the procedure of hyperthermia.

Abstract: A method, computer-readable medium and system of planning, guiding and/or monitoring a therapeutic procedure, can include: receiving a non-labeled therapeutic agent by a subject, said non-labeled therapeutic agent comprises at least one type of water-exchangeable proton that is exchangeable with protons in surrounding water molecules so as to enhance detection by a chemical exchange saturation transfer (CEST) process; acquiring a plurality of CEST magnetic resonance images of said non-labeled therapeutic agent within a region of interest of said subject for a corresponding plurality of times; and assessing at least one of a therapeutic plan or therapeutic effect of said non-labeled therapeutic agent in tissue of said subject based on said plurality of magnetic resonance images

Abstract: A method of assessing tissue vascular permeability for nanotherapeutics using non-labeled dextran can include: receiving a non-labeled, physiologically-tolerable dextran solution by a subject; acquiring a plurality of magnetic resonance images of a distribution of the dextran solution within at least one region of interest of the subject for a corresponding plurality of times; and assessing a tissue vascular permeability of the at least one region of interest to dextran particles in the dextran solution based on differences between the plurality of magnetic resonance images, wherein the dextran solution is a substantially mono-disperse solution of dextran particles of one size.

Abstract: A method for magnetic resonance (MR) imaging or spectroscopy on a MR scanner to detect tissue physiological parameters in one or more tissue areas in a human or non-human subject includes administering to the subject a contrast enhancing physiologically tolerable amount of a sugar that is non-labeled, subjecting the subject to an MR procedure capable of generating MR signals encoding at least one tissue area in the subject in which the sugar either passes or is taken up, detecting a temporal variation in the MR signals in the at least one tissue area after the administering the sugar, determining at least one tissue-related parameter from the temporal variation, and ascertaining whether the at least one tissue-related parameter is abnormal.

Abstract: The present invention features polypeptide or protein based reporters, wherein the MRI contrast is generated by the protein itself, and methods, MRI systems and MRI imaging kits related thereto. The present invention also features enzyme based reporters, wherein the contrast is generated by the substrate/product of an enzyme, and methods, MRI systems and MRI imaging kits related thereto.

Abstract: A method for magnetic resonance (MR) imaging or spectroscopy on a MR scanner to detect tissue physiological parameters in one or more tissue areas in a human or non-human subject includes administering to the subject a contrast enhancing physiologically tolerable amount of a sugar that is non-labeled, subjecting the subject to an MR procedure capable of generating MR signals encoding at least one tissue area in the subject in which the sugar either passes or is taken up, detecting a temporal variation in the MR signals in the at least one tissue area after the administering the sugar, determining at least one tissue-related parameter from the temporal variation, and ascertaining whether the at least one tissue-related parameter is abnormal.

Abstract: An embodiment in accordance with the present invention provides a method of non-invasively detecting and imaging temperature or temperature changes by assessing the temperature induced shifts in the saturation spectrum of water using MRI, namely saturation shift referencing. This procedure includes the MRI procedures to assess water saturation spectrum and the data processing steps to determine the temperature induced shifts of water resonance frequency and consequently to estimate the temperature change. This procedure also includes the procedure of assessing fat saturation spectrum and estimating fat resonance frequency. This method can be used as a clinical procedure for temperature mapping in multiple applications, especially where a significant amount of fat is present. One application is to monitor the temperature of the targeted tumor and its surrounding tissues during the procedure of hyperthermia.

Abstract: The present invention includes drug-loaded, polymer nanoparticles and liposomes further incorporating a non-paramagnetic, bioorganic CEST agent. The CEST agent allows for an alternative approach to accomplish MR-compatible in vivo tracking of drug-loaded polymer nanoparticles and liposomes, including simultaneous multi-color mapping of more than one particle type, or of the same particle type delivered via two different routes (e.g., systemic versus local). Additionally, the present invention can include a library of biodegradable diamagnetic (DIA)CEST agents. These DIACEST agents can be incorporated into nanoparticle-based delivery systems, such as stealth liposomes loaded with doxorubicin and stealth polymer nanoparticles loaded with paclitaxel. These systems can be tracked, according to an embodiment of the present invention using CEST-based MRI (compared to SPECT/CT) as a method to monitor the efficiency with which the nanoparticles reach the targeted tumors and how long they persist.

Abstract: A method for magnetic resonance (MR) imaging or spectroscopy on a MR scanner to detect tissue physiological parameters in one or more tissue areas in a human or non-human subject includes administering to the subject a contrast enhancing physiologically tolerable amount of a sugar that is non-labeled, subjecting the subject to an MR procedure capable of generating MR signals encoding at least one tissue area in the subject in which the sugar either passes or is taken up, detecting a temporal variation in the MR signals in the at least one tissue area after the administering the sugar, determining at least one tissue-related parameter from the temporal variation, and ascertaining whether the at least one tissue-related parameter is abnormal.

Abstract: A chemical exchange saturation transfer (CEST) contrast agent is provided. One embodiment includes a ligand and a functional group linked to the ligand. The functional group has a hydrogen exchange site and is capable of undergoing a change in chemical functionality by enzyme catalysis or reaction with a metabolite to change the chemical exchange rate or the MR frequency of the hydrogen exchange site.