A system and method are provided for tracking magnetically-labeled substances, such as transplanted cells, in subjects using magnetic resonance imaging (MRI). The method includes obtaining a quantity of a substance that comprises an MRI contrast compound or is otherwise magnetically-labeled for purposes of an MRI scan, administering the substance into a region of interest of a subject, performing an imaging scan of a portion of the subject comprising the region of interest, obtaining an imaging data set from the scan, reducing the dataset into pixel groupings based on intensity profiles, where the pixel groupings have a pixel size larger than the expected pixel size of a unit of the MRI contrast compound or magnetically-labeled substance, extracting candidate pixel matrices from the imaging data, training a machine learning (ML) module by using the candidate pixel matrices, quantifying the presence, number and/or location of units of the substance within the subject by using the ML module, and displaying a visual representation of an identification of the substances within the subject as a result of using the ML module.

The disclosure relates to compositions comprising isolated mitochondria or combined mitochondrial agents, and methods of treating disorders using such compositions.

A marker for imaging includes a bio-dissolvable material and a contrast agent configured to provide contrast during an imaging procedure. A method can include forming a marker for imaging from a bio-dissolvable material and impregnating the bio-dissolvable material with a contrast agent. A method can include implanting a bio-dissolvable marker for imaging into a patient.

The present invention relates generally to the field of endosymbiosis, eukaryotic cells engineered with artificial endosymbionts, and magnetotactic bacteria. In particular, the invention provides single-celled organisms such as artificial endosymbionts, including magnetotactic bacteria, eukaryotic cells to host those single-celled organisms, and methods of using eukaryotic cells containing single-celled organisms. The invention also provides eukaryotic cells engineered with intracellular single-celled organisms which eukaryotic cells can be tracked in an animal and monitored for viability. The invention also provides for multimodal detection of a eukaryotic cell in an animal to monitor the location and viability of the eukaryotic cell.

Synthetic nanocarrier constructs and related compositions comprising a lipid-based bilayer membrane infused with one or more NK-92 cell membrane proteins, which encapsulates a liquid receiving interior space or coats at least a portion of a solid core. Methods of targeted delivery of an active/diagnostic/imaging agent to a specific cell type or a region of a patient by administering a plurality of nanocarrier constructs to the patient. MRI imaging methods and novel MRI contrast agent constructs are also disclosed.

A marker for imaging includes a bio-dissolvable material and a contrast agent configured to provide contrast during an imaging procedure. A method can include forming a marker for imaging from a bio-dissolvable material and impregnating the bio-dissolvable material with a contrast agent. A method can include implanting a bio-dissolvable marker for imaging into a patient.

The invention is directed to the field of gene therapy, i.e. gene delivery into target cells, tissue, organ and organism, and more particularly to gene delivery via viral vectors. The inventors showed that it is possible by chemical coupling to modulate the coupling of a ligand in the surface of the capsid of AAV, for example AAV2 and AAV3b. In particular, the present invention relates to a recombinant Adeno-Associated Virus (rAAV) vector particle having at least one primary amino group contained in the capsid proteins, chemically coupled with at least one ligand L wherein coupling of said ligand L is implemented through a bond comprising a —CSNH— bond and an optionally substituted aromatic moiety.

Particularly, the inventors tested the chemical coupling of mannose ligand on AAV2 for subretinally injection to rats. The present invention further relates to a method for chemically coupling an Adeno-Associated Virus (AAV) vector particle with at least one ligand L and to a Recombinant Adeno-Associated Virus (rAAV) vector particle obtained by said method as well as a pharmaceutical composition comprising it and their corresponding medical use.

An imaging nanoparticle comprising a plant virus particle having an interior surface and an exterior surface, an imaging agent that is linked to the interior and/or exterior surface, and a layer of biocompatible mineral such as silica coated over the exterior surface, is described. The imaging nanoparticle can be used in method of generating an image of a tissue region of a subject, by administering to the subject a diagnostically effective amount of an imaging nanoparticle and generating an image of the tissue region of the subject to which the imaging nanoparticle has been distributed.

Disclosed herein are gelatin particles including gelatin, wherein when a major-axis length of dried gelatin particles is defined as a and a major-axis length of gelatin particles after swelling treatment obtained by immersing the dried gelatin particles in water at 40° C. under an atmospheric pressure for 60 minutes is defined as b, swelling degree represented by b/a is 1.0 or more but 10.0 or less, and wherein the gelatin particles after swelling treatment have a particle diameter of 1.0 nm or more but 5.0 μm or less. The gelatin particles are easily taken up by cells themselves.

Surface-modified cell containing a cell and a conformal coating on the extracellular surface of the cell are described. The conformal coating contains two or more layers containing particles (e.g. nanoparticles) or macromolecules. The cell is an islet cell, a B cell, or a T cell. The macromolecules or particles are formed from zwitterionic polymers. Covalent linkages are employed to link the particles or macromolecules to a cell surface molecule containing an abiotic functional group, or between macromolecules and/or particles in adjacent layers. Also described are methods of making and using a surface-modified cell.