五角大楼发现,对新型生物气溶胶威胁的日常元基因组检测成本高昂:虚拟化和人工智能能否实现成本效益?

IF 2.1 4区 医学 Q3 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH Health Security Pub Date : 2024-04-01 DOI:10.1089/hs.2023.0048
D. Srikrishna
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引用次数: 1

摘要

2022 年,五角大楼部队保护局发现,由于元基因组学所用试剂的成本、测序仪器的成本以及主题专家分析生物信息的人力成本,对新型生物气溶胶威胁的不可知威胁检测 "在日常操作中不可行"。美国国防部 5000 个安全军事基地的 280,000 座建筑(总面积达 23 亿平方英尺)、250 艘海军舰船以及许多民用建筑也可能面临类似的运营困难。这些经济障碍仍然可以通过动态汇集来自干式过滤装置的样本(称为 "尖峰触发虚拟化")来解决,即根据测序输出中的新生物威胁自动调节汇集和测序深度。通过以较高的平均汇集因子运行,每个干式过滤器单元的日成本和年成本可降低 10 到 100 倍,具体取决于所选的触发阈值。人工智能可进一步提高尖峰触发虚拟化的灵敏度。在生物气溶胶事件与检测之间的 12 到 24 小时内,感染风险依然存在,但在某些情况下,通过每小时超过 12 次换气的高速室内空气清洁,可以将感染风险降低 80% 或更多,这与客机飞行中的空气清洁速度类似。如果使用中央供暖通风和空调系统,这种每小时换气次数或更高的换气次数可能会导致成本过高,但如果在天花板高度一般低于 10 英尺的房间内使用便携式空气过滤器,则可以经济地实现这一目标,DIY 设备的成本约为每平方英尺 0.5 美元至 1 美元,高效微粒空气过滤器的成本约为每平方英尺 2 美元至 5 美元。
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Pentagon Found Daily, Metagenomic Detection of Novel Bioaerosol Threats to Be Cost-Prohibitive: Can Virtualization and AI Make It Cost-Effective?
In 2022, the Pentagon Force Protection Agency found threat agnostic detection of novel bioaerosol threats to be "not feasible for daily operations" due to the cost of reagents used for metagenomics, cost of sequencing instruments, and cost of labor for subject matter experts to analyze bioinformatics. Similar operational difficulties might extend to many of the 280,000 buildings (totaling 2.3 billion square feet) at 5,000 secure US Department of Defense military sites, 250 Navy ships, as well as many civilian buildings. These economic barriers can still be addressed in a threat agnostic manner by dynamically pooling samples from dry filter units, called spike-triggered virtualization, whereby pooling and sequencing depth are automatically modulated based on novel biothreats in the sequencing output. By running at a high average pooling factor, the daily and annual cost per dry filter unit can be reduced by 10 to 100 times depending on the chosen trigger thresholds. Artificial intelligence can further enhance the sensitivity of spike-triggered virtualization. The risk of infection during the 12- to 24-hour window between a bioaerosol incident and its detection remains, but in some cases it can be reduced by 80% or more with high-speed indoor air cleaning exceeding 12 air changes per hour, which is similar to the rate of air cleaning in passenger airplanes in flight. That level of air changes per hour or higher is likely to be cost-prohibitive using central heating ventilation and air conditioning systems, but it can be achieved economically by using portable air filtration in rooms with typical ceiling heights (less than 10 feet) for a cost of approximately $0.50 to $1 per square foot for do-it-yourself units and $2 to $5 per square foot for high-efficiency particulate air filters.
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来源期刊
Health Security
Health Security PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-
CiteScore
4.80
自引率
6.10%
发文量
70
期刊介绍: Health Security is a peer-reviewed journal providing research and essential guidance for the protection of people’s health before and after epidemics or disasters and for ensuring that communities are resilient to major challenges. The Journal explores the issues posed by disease outbreaks and epidemics; natural disasters; biological, chemical, and nuclear accidents or deliberate threats; foodborne outbreaks; and other health emergencies. It offers important insight into how to develop the systems needed to meet these challenges. Taking an interdisciplinary approach, Health Security covers research, innovations, methods, challenges, and ethical and legal dilemmas facing scientific, military, and health organizations. The Journal is a key resource for practitioners in these fields, policymakers, scientific experts, and government officials.
期刊最新文献
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