Open Organoid Interface
Project Overview
Year
About
Open Organoid Interface is an affordable, open-source system for recording neural signals from brain organoids, the 3D stem cell-derived models used to study disorders such as Alzheimer’s. It features flexible electrode arrays, custom-designed wells, and a plug-and-play headstage compatible with standard amplifier chips. By enabling high-resolution monitoring of neuronal activity and network formation, it offers researchers a powerful tool for modelling disease progression, testing therapeutics, and accelerating discoveries, at up to 1,000 times lower cost than existing commercial systems
Team
Weeratouch Pongruengkiat
Pongsakorn Weechakarn
Mr. Pornlert Tantipanitkoon
Supervising Professor
Dr. Henry Tan
Supervising Professor
Tanis Phongphisantham
Tanis Ming is an interdisciplinary researcher and technologist working at the intersection of neuroscience, artificial intelligence, and cybersecurity. His work spans brain–machine interfaces, organoid-based neural models, and bioelectronic sensing, where he combines experimental biology with data-driven analysis to advance understanding of complex systems. Beyond research, he develops AI-driven tools and secure infrastructures, building cybersecurity labs and adaptive computing frameworks that bridge theory with practice. Tanis focuses on creating solutions that connect scientific exploration with real-world application, aiming to push boundaries across biology, engineering, and digital systems while fostering innovation that is both impactful and resilient.
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