Design of real-time pathogen monitoring device for sampled food products during shipment

Defense + Commercial Sensing Pub Date : 2024-06-06 DOI:10.1117/12.3016191

Noah Boursier, Kal Holder, Bruce M. Applegate, Bartek Rajwa, J. P. Robinson, E. Bae

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Abstract

In the realm of food safety, the standard practice involves collecting food product samples and sending them to a central laboratory for microbiological testing. However, this process introduces delays in obtaining the microbiological testing results and subsequently affects the timely delivery of food products to consumers. To further reduce the time-to-detection issue, we propose the development of a self-contained, battery-operated, high-sensitivity optical sensor that can be affixed to the cap of the typical food sample collection container. This device, called MPACT, offers real-time and in-transit monitoring of the contamination status of the food sample, specifically targeting E. coli O157:H7, through a bioluminescence assay. The assay exclusively targets the target pathogen and, when detected, produces minimal luminescence. As the sample is transported in the container, the number of bacterial cells multiplies, and once the luminescent signal reaches a predefined threshold, the sensor reports the results via Bluetooth. This study focuses on the design of the bottle cap sensor and examines its sensitivity by subjecting it to bioluminescence samples.

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设计运输过程中食品采样的实时病原体监测装置

在食品安全领域，标准做法是收集食品样本并将其送往中心实验室进行微生物检测。然而，这一过程会延误微生物检测结果的获得，进而影响食品及时交付给消费者。为了进一步缩短检测时间，我们建议开发一种独立的、电池供电的高灵敏度光学传感器，可以安装在典型的食品样本收集容器的盖子上。这种名为 MPACT 的设备可通过生物发光检测法对食品样本的污染状况进行实时和在途监测，特别是针对大肠杆菌 O157:H7 的污染状况。该检测方法专门针对目标病原体，一旦检测到，就会产生最小的发光。当样品在容器中运输时，细菌细胞的数量会增加，一旦发光信号达到预定的阈值，传感器就会通过蓝牙报告结果。本研究的重点是瓶盖传感器的设计，并通过对生物发光样本的测试来检验其灵敏度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Defense + Commercial Sensing

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