MIT researchers have developed a new biosensing technique using organic electro-scattering antennas (OCEANs) to wirelessly record cellular signals with unprecedented precision and detail.
Decoding cellular signals has long been a cornerstone of biomedical research , offering insights into how cells communicate and respond to environmental changes. This knowledge is vital for diagnosing and treating conditions like arrhythmia and Alzheimer’s disease. However, traditional methods of recording these signals are limited by their reliance on wired connections, restricting the number of data points researchers can collect.
A recent breakthrough by MIT researchers promises to revolutionize this process. The new biosensing technique eliminates the need for wires by employing wireless antennas. These organic electro-scattering antennas (OCEANs) are engineered to detect electrical signals using light, which researchers can use to decode cellular signals. Tiny in size—just one-hundredth the width of a human hair—the antennas scatter light in response to small electrical changes in their liquid environment. This change in light intensity is captured through an optical microscope, allowing researchers to record cellular activity with extreme precision. Unlike traditional methods that pool data from multiple sensors, each OCEAN functions as an independent unit. This setup offers unmatched spatial resolution and sensitivity, enabling scientists to decode cellular signals in unprecedented detail. The antennas are made from PEDOT:PSS, a special polymer that reacts to electrical activity by altering its refractive index. Researchers fabricate OCEAN arrays with nanoscale precision using focused ion beams. This process creates tiny holes in a glass substrate, into which the antennas 'grow' via an electrochemical method. The result is a scalable chip capable of housing millions of antennas, all ready to decode cellular signals and durable enough for continuous recording over 10 hours. OCEANs are designed for in vitro studies, with cells cultured directly on the sensor array
Cellular Signals Biosensing Wireless Antennas Oceans Biomedical Research
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