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基于单板计算机的低成本宫颈癌预防即时检测技术的开发

Development of Low-Cost Point-of-Care Technologies for Cervical Cancer Prevention Based on a Single-Board Computer.

作者信息

Parra Sonia, Carranza Eduardo, Coole Jackson, Hunt Brady, Smith Chelsey, Keahey Pelham, Maza Mauricio, Schmeler Kathleen, Richards-Kortum Rebecca

机构信息

1Department of BioengineeringRice UniversityHoustonTX77005USA.

2Wellman Center for PhotomedicineHarvard Medical School and Massachusetts General HospitalBostonMA02114USA.

出版信息

IEEE J Transl Eng Health Med. 2020 Feb 3;8:4300210. doi: 10.1109/JTEHM.2020.2970694. eCollection 2020.

DOI:10.1109/JTEHM.2020.2970694
PMID:32190430
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7062146/
Abstract

Cervical cancer disproportionally affects women in low- and middle-income countries, in part due to the difficulty of implementing existing cervical cancer screening and diagnostic technologies in low-resource settings. Single-board computers offer a low-cost alternative to provide computational support for automated point-of-care technologies. Here we demonstrate two new devices for cervical cancer prevention that use a single-board computer: 1) a low-cost imaging system for real-time detection of cervical precancer and 2) a low-cost reader for real-time interpretation of lateral flow-based molecular tests to detect cervical cancer biomarkers. Using a Raspberry Pi computer to provide real-time image collection and processing, we developed: 1) a low-cost, portable high-resolution microendoscope system (PiHRME); and 2) a low-cost automatic lateral flow test reader (PiReader). The PiHRME acquired high-resolution ([Formula: see text]) images of the cervix at half the cost of existing high-resolution microendoscope systems; image analysis algorithms based on convolutional neural networks were implemented to provide real-time image interpretation. The PiReader acquired and analyzed images of a point-of-care human papillomavirus (HPV) serology test with the same contrast and accuracy as a standard flatbed high-resolution scanner coupled to a laptop computer, for less than one-fifth of the cost. Raspberry Pi single-board computers provide a low-cost means to implement point-of-care tools with automatic image analysis. This work demonstrates the promise of single-board computers to develop and translate low-cost, point-of-care technologies for use in low-resource settings.

摘要

宫颈癌对低收入和中等收入国家的女性影响尤为严重,部分原因是在资源匮乏地区难以实施现有的宫颈癌筛查和诊断技术。单板计算机为自动化即时医疗技术提供计算支持提供了一种低成本的替代方案。在此,我们展示了两种使用单板计算机预防宫颈癌的新设备:1)一种用于实时检测宫颈癌前病变的低成本成像系统;2)一种用于实时解读基于侧向流动的分子检测以检测宫颈癌生物标志物的低成本阅读器。利用树莓派计算机提供实时图像采集和处理功能,我们开发了:1)一种低成本、便携式高分辨率微型内窥镜系统(PiHRME);2)一种低成本自动侧向流动检测阅读器(PiReader)。PiHRME以现有高分辨率微型内窥镜系统一半的成本获取了宫颈的高分辨率([公式:见原文])图像;基于卷积神经网络的图像分析算法得以实现,以提供实时图像解读。PiReader获取并分析了即时医疗人乳头瘤病毒(HPV)血清学检测的图像,其对比度和准确性与连接到笔记本电脑的标准平板高分辨率扫描仪相同,而成本不到其五分之一。树莓派单板计算机为实现具有自动图像分析功能的即时医疗工具提供了一种低成本手段。这项工作展示了单板计算机在开发和转化低成本即时医疗技术以用于资源匮乏地区方面的前景。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f5b5/7062146/82a043135637/richa9ab-2970694.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f5b5/7062146/15054bbd8da4/richa4-2970694.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f5b5/7062146/023ef3e971ff/richa5abc-2970694.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f5b5/7062146/1bb587b9a176/richa10-2970694.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f5b5/7062146/75cd6bfee65c/richa6ab-2970694.jpg
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