ScreenNeuroPharm
ScreenNeuroPharm is dedicated to designing, manufacturing, validating, and marketing devices for the engineering of in vitro cell cultures that emulate in vivo physiology. Their mission is to improve the reliability and efficiency of laboratory and pharmaceutical tests, explore innovative therapeutic approaches, and reduce animal testing. They develop 3D cultures with modular connectivity and heterogeneity, especially for nervous system models, and offer software for data analysis.
Industries
Nr. of Employees
small (1-50)
ScreenNeuroPharm
Via All'Opera Pia 13, Genova, 16145, Italy
Products
Organ/brain-on-chip culture devices
Hardware platforms that enable three-dimensional, modular, and heterogeneous neuronal cultures with provisions for compartmentalization and integration with electrophysiological sensors.
Automated electrophysiology analysis software
A software package for automatic, fast, and reliable statistical analysis of electrophysiological data acquired from in vitro experiments.
Organ/brain-on-chip culture devices
Hardware platforms that enable three-dimensional, modular, and heterogeneous neuronal cultures with provisions for compartmentalization and integration with electrophysiological sensors.
Automated electrophysiology analysis software
A software package for automatic, fast, and reliable statistical analysis of electrophysiological data acquired from in vitro experiments.
Services
Design, production, and commercialization of devices for engineering in vitro cell cultures that emulate in vivo physiology for research and pharmaceutical testing.
Provision of engineered in vitro models and associated support to perform pharmacological tests with improved reliability and throughput, aimed at reducing time, cost, and animal use.
User-friendly software tools for automatic and reliable analysis of electrophysiological data acquired from in vitro experiments.
Validation and testing services to demonstrate device suitability for electrophysiological recordings and pharmacological applications.
Design, production, and commercialization of devices for engineering in vitro cell cultures that emulate in vivo physiology for research and pharmaceutical testing.
Provision of engineered in vitro models and associated support to perform pharmacological tests with improved reliability and throughput, aimed at reducing time, cost, and animal use.
User-friendly software tools for automatic and reliable analysis of electrophysiological data acquired from in vitro experiments.
Validation and testing services to demonstrate device suitability for electrophysiological recordings and pharmacological applications.
Expertise Areas
- Organ-on-chip development
- In vitro neuronal network modeling
- Electrophysiology and MEA recordings
- 3D cell culture engineering
Key Technologies
- Micro-electrode arrays (MEAs)
- Polymeric microfabrication for compartmentalization
- 3D microbead scaffolds
- Electrophysiological recording and spike/network analysis
News & Updates
ScreenNeuropharm wins the Giovedì Scienza Futuro award.
ScreenNeuroPharm presented its entrepreneurial idea to FIDAPA BPW Italy-Genova Due.
Recognition for their project on in vitro cell culture engineering to emulate in vivo physiology, emphasizing the role of women in the team.
A study on the electrophysiological activity of interconnected neuronal networks using innovative polymeric structures and Micro-Electrode Arrays.
A review discussing the state of the art of brain-on-a-chip models, highlighting structural and biological features needed for realistic in vitro brain models.
Research on how thalamic and hippocampal neurons modulate cortical dynamics in interconnected brain-region models.
ScreenNeuropharm wins the Giovedì Scienza Futuro award.
ScreenNeuroPharm presented its entrepreneurial idea to FIDAPA BPW Italy-Genova Due.
Recognition for their project on in vitro cell culture engineering to emulate in vivo physiology, emphasizing the role of women in the team.
A study on the electrophysiological activity of interconnected neuronal networks using innovative polymeric structures and Micro-Electrode Arrays.
A review discussing the state of the art of brain-on-a-chip models, highlighting structural and biological features needed for realistic in vitro brain models.
Research on how thalamic and hippocampal neurons modulate cortical dynamics in interconnected brain-region models.