Abstract: The invention provides expression vectors, nucleic acids, vector particles and methods of treatment involving these vector particles, comprising an engineered KCNA1 gene encoding an edited Kv1.1 potassium channel, as well as methods of confirming the presence of engineered KCNA1 mRNA in a cell. The features of the engineered KCNA1 gene combine to advantageously enhance the translation and activity of the Kv1.1 protein and improve detection of KCNA1 gene expression in a cell and can be used for example in the treatment of epilepsy and similar neurological disorders.

Abstract: The invention provides expression vectors or vector systems comprising a polynucleotide sequence encoding a polypeptide, wherein the gene is operably linked to a neuronal activity-dependent promoter suitable to drive expression of the gene product in a subject’s neural cells. The features of the expression vectors combine to advantageously improve the treatment of a neurological disorder associated with neuronal hyperexcitability in a subject. The invention also provides the expression vectors or vector systems for use in related methods of treatment, as well as viral particles, cells, kits and methods using the expression vectors or vector systems.

Abstract: Implant delivery devices, methods of device assembly and methods of using those devices are presented where the delivery device uses an automatic implant delivery mechanism that eliminates variability in pusher wire speeds by providing a needle assembly having one or more implants positioned within a proximal end of a needle cannula, a dampener assembly and a shuttle assembly located within a housing along with the activation member which holds the shuttle assembly in cocked or pre-tensioned state. A lock can be engaged with the activation member to prevent premature firing or triggering of the device.

Abstract: The invention provides expression vectors, nucleic acids, vector particles and methods of treatment involving these vector particles, comprising an engineered KCNA1 gene encoding an edited Kv1.1 potassium channel, as well as methods of confirming the presence of engineered KCNA1 mRNA in a cell. The features of the engineered KCNA1 gene combine to advantageously enhance the translation and activity of the Kv1.1 protein and improve detection of KCNA1 gene expression in a cell and can be used for example in the treatment of epilepsy and similar neurological disorders.

Abstract: The invention provides methods and materials for treating a seizure disorder such as epilepsy in a patient which employ a vector encoding a modified receptor, the so-called “DREADD” receptor being characterised by (i) a decreased responsiveness to its endogenous activating ligand (ii) a retained or enhanced responsiveness to an exogenous agonist. The modified receptor is expressed in neurons of a seizure focus in brain of the patient, and an exogenous agonist is administered which activates the modified receptor to reversibly alters the excitability of the neurons in the seizure focus leading to synaptic silencing or other inhibition.

Abstract: The invention provides methods and materials for treating a seizure disorder such as epilepsy in a patient which employ a vector encoding a modified receptor, the so-called “DREADD” receptor being characterised by (i) a decreased responsiveness to its endogenous activating ligand (ii) a retained or enhanced responsiveness to an exogenous agonist. The modified receptor is expressed in neurons of a seizure focus in brain of the patient, and an exogenous agonist is administered which activates the modified receptor to reversibly alters the excitability of the neurons in the seizure focus leading to synaptic silencing or other inhibition.

Abstract: The invention provides methods and materials for treating a seizure disorder such as epilepsy in a patient which employ a vector encoding a modified receptor, the so-called “DREADD” receptor being characterised by (i) a decreased responsiveness to its endogenous activating ligand (ii) a retained or enhanced responsiveness to an exogenous agonist. The modified receptor is expressed in neurons of a seizure focus in brain of the patient, and an exogenous agonist is administered which activates the modified receptor to reversibly alters the excitability of the neurons in the seizure focus leading to synaptic silencing or other inhibition.

Abstract: The invention provides methods and materials for treating a seizure disorder such as epilepsy in a patient which employ a vector encoding a modified receptor, the so-called “DREADD” receptor being characterised by (i) a decreased responsiveness to its endogenous activating ligand (ii) a retained or enhanced responsiveness to an exogenous agonist. The modified receptor is expressed in neurons of a seizure focus in brain of the patient, and an exogenous agonist is administered which activates the modified receptor to reversibly alters the excitability of the neurons in the seizure focus leading to synaptic silencing or other inhibition.