Abstract: A delivery device for and method of modulating a condition relating to social cognition and/or behaviour in a human subject using oxytocin, non-peptide agonists thereof and/or antagonists thereof, comprising: providing a nosepiece to a first nasal cavity of the subject; and providing a supply unit for administering less than 24 IU of oxytocin, non-peptide agonists thereof and/or antagonists thereof through the nosepiece to an upper region posterior of the nasal valve which is innervated by the trigeminal nerve.

Abstract: A delivery device for and method of modulating a condition relating to social cognition and/or behaviour in a human subject using oxytocin, non-peptide agonists thereof and/or antagonists thereof, comprising: providing a nosepiece to a first nasal cavity of the subject; and providing a supply unit for administering less than 24 IU of oxytocin, non-peptide agonists thereof and/or antagonists thereof through the nosepiece to an upper region posterior of the nasal valve which is innervated by the trigeminal nerve.

Abstract: A delivery device for and method of modulating a condition relating to sodal cognition and/or behaviour in a human subject using oxytocin, non-peptide agonists thereof and/or antagonists thereof, comprising: providing a nosepiece to a first nasal cavity of the subject; and providing a supply unit for administering less than 24 IU of oxytocin, non-peptide agonists thereof and/or antagonists thereof through the nosepiece to an upper region posterior of the nasal valve which is innervated by the trigeminal nerve.

Abstract: A delivery device for and method of modulating a condition relating to sodal cognition and/or behaviour in a human subject using oxytocin, non-peptide agonists thereof and/or antagonists thereof, comprising: providing a nosepiece to a first nasal cavity of the subject; and providing a supply unit for administering less than 24 IU of oxytocin, non-peptide agonists thereof and/or antagonists thereof through the nosepiece to an upper region posterior of the nasal valve which is innervated by the trigeminal nerve.

Abstract: The present invention relates to processes, systems and methods for estimating the effects of genetic polymorphisms associated with traits and diseases, based on distributions of observed effects across multiple loci. In particular, the present invention provides systems and methods for analyzing genetic variant data including estimating the proportion of polymorphisms truly associated with the phenotypes of interest, the probability that a given polymorphism has a true association with the phenotypes of interest, and the predicted effect size of a given genetic variant in independent de novo samples given effect size distributions in observed samples. The present invention also relates to using the described systems and methods and use of genetic polymorphisms across a plurality of loci and a plurality of phenotypes to diagnose, characterize, optimize treatment and predict diseases and traits.