The present disclosure provides methods of determining A-beta in a mammal before and after treatment of an amyloid disorder, comprising obtaining a first blood sample from the mammal; administering to the mammal a treatment for an amyloid disorder; obtaining a second blood sample from the mammal; quantifying a level of A-beta in the first blood sample and in the second blood sample; and determining the level of A-beta in the mammal before and after treatment of the amyloid disorder.

The present invention relates to methods of treating chemotherapy-induced peripheral neuropathy. In particular, the methods provide a new way of reducing neuropathic pain associated with chemotherapy-induced peripheral neuropathy by administering a nucleic acid construct encoding human HGF proteins. This application further provides nucleic acid constructs, pharmacological compositions, and methods of administration of the nucleic acid constructs that are effective in treating the neuropathic pain.

Methods of expressing a neuropeptide in a neuron of a subject are described. Methods of altering a behavior in a subject in need thereof are described. Kits are described. Vectors are described.

Provided is RNA encoding an immunogen is delivered to a large mammal at a dose of from 5 μg to 100 μg or at a dose between 0.1 μg per kilogram body mass of the large mammal and 1.5 μg per kilogram body mass of the large mammal. Provided is a method of raising an immune response in a large mammal, comprising administering to the large mammal a dose of from 5 μg to 100 μg or a dose of between 0.1 μg of RNA encoding the immunogen per kilogram body mass of the large mammal and 1.5 μg of RNA encoding the immunogen per kilogram body mass of the large mammal. The delivered RNA can elicit an immune response in the large mammal.

The invention relates to the field of andeno-associated virus (AAV) based gene therapy, in particular to the use of a combination of recombinant AAV-transgene vectors with an immunosuppressant and/or empty-AAV capsids. The invention further provides a composition and a kit of parts based on this combination.

The present disclosure describes the role for miR-322(424)/503 in the differentiation of cardiac precursor cells. Thus, the use of these molecules in the programming of resident stem/progenitor cells into cardiomyocytes, both in vitro and in vivo. Such methods find particular use in the treatment of patients post-myocardial infarction to prevent or limit scarring and to promote myocardial repair.

Disclosed herein are recombinant adenoviruses with one or more nucleotide sequences inserted between two viral transcription units, formulations comprising the recombinant adenoviruses, and methods of treatment using the recombinant adenoviruses. In some embodiments, the one or more nucleotide sequences are inserted in an IX-E2 insertion site and/or an L5-E4 insertion site.

Compositions are described for direct protein delivery into multiple cell types in the mammalian inner ear. The compositions are used to deliver protein(s) (such as gene editing factors) editing of genetic mutations associated with deafness or associated disorders thereof. The delivery of genome editing proteins for gene editing and correction of genetic mutations protect or restore hearing from genetic deafness. Methods of treatment include the intracellular delivery of these molecules to a specific therapeutic target.

A method and system that is directed to the local delivery of growth factors to the mammalian CNS to treat CNS disorders associated with neuronal death and/or dysfunction is described.

The present invention relates to means and method for AAV based gene therapies in humans. In particular, the present invention relates to the treatment of human patients that may be suspected to have antibodies directed against the AAV intended for use in the treatment.