Abstract: The present provides methods for treating spinal muscular atrophy using a self-complementary recombinant adeno-associated virus (rAAV) viral particle comprising a transgene expressing SMN. In one aspect, the viral particles are administered in the spinal column or cisterna magna in a human subject; for example, a pediatric human subject. Viral particles comprising AAV9 capsids are contemplated.

Abstract: Provided herein are novel methods for delivering recombinant adeno-associated viral (rAAV) particles to the central nervous system of a mammal (e.g., a human). In aspects, the methods involve administering rAAV particles containing a heterologous nucleic acid to the striatum and causing expression of the heterologous nucleic acid in at least the cerebral cortex and the striatum of the mammal.

Abstract: Neurological diseases, including lysosomal storage diseases, can be successfully treated using intraventricular delivery of the therapeutic agents to bypass the blood-brain barrier. Similarly, diagnostic agents and anesthetic agents can be delivered to the brain in this manner. The administration can be performed slowly to achieve maximum effect. Such administration permits greater penetration of distal portions of the brain.

Abstract: Neurological diseases, including lysosomal storage diseases, can be successfully treated using intraventricular delivery of the therapeutic agents to bypass the blood-brain barrier. Similarly, diagnostic agents and anesthetic agents can be delivered to the brain in this manner. The administration can be performed slowly to achieve maximum effect. Such administration permits greater penetration of distal portions of the brain.

Abstract: Provided herein are improved rAAV (e.g., rAAV2, rAAVrh8R, etc.) for enhanced gene therapy of ocular disorders or CNS disorders wherein the rAAV comprise one or more substitutions of amino acids that interact with heparan sulfate proteoglycan. The invention provides methods for improved transduction of retinal cells and methods for treating ocular diseases with improved compositions of rAAV particles. Further provided herein are improved recombinant adeno-associated virus (rAAV) (e.g., rAAV2, rAAVrh8R, etc.) for enhanced gene therapy of disorders of the CNS. The invention provides methods for delivering the rAAV to the CNS, methods for treating disorders of the CNS with improved compositions of rAAV particles, and kits for delivering the rAAV to the CNS and/or treating a CNS disorder.

Abstract: The present provides methods for treating spinal muscular atrophy using a self-complementary recombinant adeno-associated virus (rAAV) viral particle comprising a transgene expressing SMN. In one aspect, the viral particles are administered in the spinal column or cisterna magna in a human subject; for example, a pediatric human subject. Viral particles comprising AAV9 capsids are contemplated.

Abstract: This disclosure provides methods and compositions for treating disorders or injuries that affect motor function and control in a subject. In one aspect, the invention provides a method to deliver a transgene to a subject's spinal cord by administering a recombinant neurotropic viral vector containing the transgene. The viral vector delivers the transgene to a region of the deep cerebellar nuclei region of the brain. Also provided are compositions and methods to deliver a transgene to a subject's spinal cord by administering a recombinant neurotropic viral vector containing the transgene to the motor cortex region of the subject's brain.

Abstract: The present provides methods for treating spinal muscular atrophy using a self-complementary recombinant adeno-associated virus (rAAV) viral particle comprising a transgene expressing SMN. In one aspect, the viral particles are administered the spinal column or cisterna magna in a human subject; for example, a pediatric human subject. Viral particles comprising AAV9 capsids are contemplated.

Abstract: Neurological diseases, including lysosomal storage diseases, can be successfully treated using intraventricular delivery of the therapeutic agents to bypass the blood-brain barrier. Similarly, diagnostic agents and anesthetic agents can be delivered to the brain in this manner. The administration can be performed slowly to achieve maximum effect. Such administration permits greater penetration of distal portions of the brain.

Abstract: The present provides methods for treating spinal muscular atrophy using a self-complementary recombinant adeno-associated virus (rAAV) viral particle comprising a transgene expressing SMN. In one aspect, the viral particles are administered the spinal column or cisterna magna in a human subject; for example, a pediatric human subject. Viral particles comprising AAV9 capsids are contemplated.