电子鼻
嗅觉系统
计算机科学
嗅觉感受器
嗅球
接口(物质)
灵敏度(控制系统)
电极阵列
神经科学
人工智能
生物
化学
电极
中枢神经系统
工程类
最大气泡压力法
物理化学
气泡
并行计算
电子工程
作者
Erez Shor,Pedro Herrero-Vidal,Adam Dewan,Ilke Uguz,Vincenzo F. Curto,George G. Malliaras,Cristina Savin,Thomas Bozza,Dmitry Rinberg
标识
DOI:10.1016/j.bios.2021.113664
摘要
When it comes to detecting volatile chemicals, biological olfactory systems far outperform all artificial chemical detection devices in their versatility, speed, and specificity. Consequently, the use of trained animals for chemical detection in security, defense, healthcare, agriculture, and other applications has grown astronomically. However, the use of animals in this capacity requires extensive training and behavior-based communication. Here we propose an alternative strategy, a bio-electronic nose, that capitalizes on the superior capability of the mammalian olfactory system, but bypasses behavioral output by reading olfactory information directly from the brain. We engineered a brain-computer interface that captures neuronal signals from an early stage of olfactory processing in awake mice combined with machine learning techniques to form a sensitive and selective chemical detector. We chronically implanted a grid electrode array on the surface of the mouse olfactory bulb and systematically recorded responses to a large battery of odorants and odorant mixtures across a wide range of concentrations. The bio-electronic nose has a comparable sensitivity to the trained animal and can detect odors on a variable background. We also introduce a novel genetic engineering approach that modifies the relative abundance of particular olfactory receptors in order to improve the sensitivity of our bio-electronic nose for specific chemical targets. Our recordings were stable over months, providing evidence for robust and stable decoding over time. The system also works in freely moving animals, allowing chemical detection to occur in real-world environments. Our bio-electronic nose outperforms current methods in terms of its stability, specificity, and versatility, setting a new standard for chemical detection.
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