More than one billion people worldwide suffer from diseases of the central nervous system. Treating brain diseases costs annually € 1.4T in EU and US .
Despite efforts and increasing budgets dedicated by multinational pharmaceutical companies for developing new drugs to cure diseases of the nervous system, brain drugs are 45% less likely to succeed and progress than non-brain drugs.
There is a widening gap between the increasing demand for brain therapeutics and the decreasing success rate of new drug.
Neurons connect and communicate by electrical signals.
Neural connectivity is altered through brain diseases (e.g. Alzheimer’s disease, Schizophrenia, Autism, etc.).
In order to accurately measure neural connectivity, it is necessary to access neurons’ intracellular electrical signals.
The overall objectives of In-Cytes project include the development of a prototype in vitro electrophysiology platform providing a connectivity bioassay.
In-Cytes assay aims to reliably recording intracellular electrical signals from thousands of neurons, in order to assess drug effects on neuronal connectivity in human brain disease models, in vitro.