Microbial laden mobile phones from international conference attendees pose potential risks to public health and biosecurity.

Matthew Olsen, Adrian Goldsworthy, Mark Morgan, John Leggett, Thibaut Demaneuf, Natalia Van Der Bruggen, Gobinddeep Singh, Rose Ghemrawi, Abiola Senok, Reem Almheiri, Simon McKirdy, Rashed Alghafri, Lotti Tajouri
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Abstract

Introduction: Mobile phones, contaminated with pathogenic microorganisms, have the potential to act as "trojan horses". The microbial signatures present on their surfaces most probably vary across different geographical regions. As a result, mobile phones belonging to international conference attendees may serve as a model for global microbial dissemination, posing potential risks to public health and biosecurity.

Aim: This study aimed to profile the microbes present on mobile phones belonging to delegates attending an international scientific conference through use of metagenomic shotgun DNA sequencing.

Methods: Twenty mobile phones, representing ten different geographical zones from around the world, were swabbed and pooled together into ten geographical-specific samples for high definition next-generation DNA sequencing. WONCA council members were invited to participate and provided verbal consent. Following DNA extraction, next generation sequencing, to a depth of approximately 10Gbp per sample, was undertaken on a v1.5 Illumina NovaSeq6000 system. Bioinformatic analysis was performed via the CosmosID platform.

Results: A total of 2204 microbial hits were accumulated across 20 mobile phones inclusive of 882 bacteria, 1229 viruses, 88 fungi and 5 protozoa. Of particular concern was the identification of 65 distinct antibiotic resistance genes and 86 virulence genes. Plant, animal and human pathogens, including ESKAPE and HACEK bacteria were found on mobile phones.

Discussion/conclusion: Mobile phones of international attendees are contaminated with many & varied microorganisms. Further research is required to characterize the risks these devices pose for biosecurity and public health. Development of new policies which appropriately address and prevent such risks maybe warranted.

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国际会议与会者携带微生物的手机对公共卫生和生物安全构成潜在风险。
导言:受到病原微生物污染的手机有可能成为 "特洛伊木马"。在不同的地理区域,手机表面的微生物特征很可能各不相同。因此,国际会议与会者的手机可能成为全球微生物传播的典范,给公共卫生和生物安全带来潜在风险。目的:本研究旨在通过使用元基因组枪式 DNA 测序,对参加国际科学会议的代表手机上的微生物进行分析:方法:对代表全球 10 个不同地理区域的 20 部手机进行拭抹,并将其汇集成 10 个特定地理区域的样本,用于高清下一代 DNA 测序。WONCA理事会成员应邀参加并口头表示同意。提取DNA后,在Illumina NovaSeq6000系统v1.5版本上进行下一代测序,每个样本的测序深度约为10Gbp。生物信息分析通过 CosmosID 平台进行:结果:在 20 部手机上共发现了 2204 种微生物,包括 882 种细菌、1229 种病毒、88 种真菌和 5 种原生动物。其中特别值得关注的是鉴定出了 65 个不同的抗生素抗性基因和 86 个毒力基因。在手机上发现了植物、动物和人类病原体,包括 ESKAPE 和 HACEK 细菌:讨论/结论:国际与会者的手机受到多种微生物的污染。需要进一步研究这些设备对生物安全和公共卫生造成的风险。也许有必要制定新的政策来适当处理和预防这些风险。
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