Litcius/Paper detail

Flexible high-density microelectrode arrays for closed-loop brain–machine interfaces: a review

Xiang Liu, Yan Gong, Zebin Jiang, Trevor Stevens, Wen Li

2024Frontiers in Neuroscience33 citationsDOIOpen Access PDF

Abstract

Flexible high-density microelectrode arrays (HDMEAs) are emerging as a key component in closed-loop brain-machine interfaces (BMIs), providing high-resolution functionality for recording, stimulation, or both. The flexibility of these arrays provides advantages over rigid ones, such as reduced mismatch between interface and tissue, resilience to micromotion, and sustained long-term performance. This review summarizes the recent developments and applications of flexible HDMEAs in closed-loop BMI systems. It delves into the various challenges encountered in the development of ideal flexible HDMEAs for closed-loop BMI systems and highlights the latest methodologies and breakthroughs to address these challenges. These insights could be instrumental in guiding the creation of future generations of flexible HDMEAs, specifically tailored for use in closed-loop BMIs. The review thoroughly explores both the current state and prospects of these advanced arrays, emphasizing their potential in enhancing BMI technology.

Topics & Concepts

Brain–computer interfaceFlexibility (engineering)Computer scienceClosed loopKey (lock)Interface (matter)High resolutionMicroelectrodeComponent (thermodynamics)Human–computer interactionControl engineeringNeuroscienceEngineeringPhysicsOperating systemMaximum bubble pressure methodRemote sensingElectroencephalographyThermodynamicsMathematicsStatisticsElectrodeBubbleGeologyQuantum mechanicsBiologyNeuroscience and Neural EngineeringEEG and Brain-Computer InterfacesAdvanced Memory and Neural Computing