Use of drones in clinical microbiology and infectious diseases: current status, challenges and barriers

Poljak, Mario; Šterbenc, Anja

doi:10.1016/j.cmi.2019.09.014

Cited by 95 publications

(63 citation statements)

References 26 publications

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“…The latter may generate logistical issues because of the need for rapid and secure specimen transport. As previously demonstrated in Switzerland and more recently in WakeMed Health & Hospitals (Raleigh, North Carolina), drones represent useful vehicles for such transport (17).…”

Section: Central Laboratory Structurementioning

confidence: 84%

Consolidation of Clinical Microbiology Laboratories and Introduction of Transformative Technologies

et al. 2020

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SUMMARY Clinical microbiology is experiencing revolutionary advances in the deployment of molecular, genome sequencing-based, and mass spectrometry-driven detection, identification, and characterization assays. Laboratory automation and the linkage of information systems for big(ger) data management, including artificial intelligence (AI) approaches, also are being introduced. The initial optimism associated with these developments has now entered a more reality-driven phase of reflection on the significant challenges, complexities, and health care benefits posed by these innovations. With this in mind, the ongoing process of clinical laboratory consolidation, covering large geographical regions, represents an opportunity for the efficient and cost-effective introduction of new laboratory technologies and improvements in translational research and development. This will further define and generate the mandatory infrastructure used in validation and implementation of newer high-throughput diagnostic approaches. Effective, structured access to large numbers of well-documented biobanked biological materials from networked laboratories will release countless opportunities for clinical and scientific infectious disease research and will generate positive health care impacts. We describe why consolidation of clinical microbiology laboratories will generate quality benefits for many, if not most, aspects of the services separate institutions already provided individually. We also define the important role of innovative and large-scale diagnostic platforms. Such platforms lend themselves particularly well to computational (AI)-driven genomics and bioinformatics applications. These and other diagnostic innovations will allow for better infectious disease detection, surveillance, and prevention with novel translational research and optimized (diagnostic) product and service development opportunities as key results.

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Section: Central Laboratory Structurementioning

confidence: 84%

Consolidation of Clinical Microbiology Laboratories and Introduction of Transformative Technologies

et al. 2020

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“…This can be viewed from two perspectives: delivering medicines, goods, samples to the health care system from the local hub (Poljak and Sterbenc, 2019). Another aspect includes delivering basic needs such as food items and medicines.…”

Section: Delivery Of Goodsmentioning

confidence: 99%

Restructured society and environment: A review on potential technological strategies to control the COVID-19 pandemic

Elavarasan¹,

Pugazhendhi

2020

Science of The Total Environment

257

209

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The technology shift occurred in society during the COVID-19 pandemic and its influence. • Technology-based strategies in controlling the pandemic and to support the society. • Key technologies include Artificial Intelligence and Machine learning, supply chain, communication and surveillance. • Potential roles of IoT, Drone &Robotic technologies and mobile applications. • Influence of existing technologies, challenges and future impacts on society.

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“…The delivery approach can be classified in two perspectives, first is supply of food items/basic needs and second is delivering health care facilities, which include test samples to labs, medicines and personal protective equipment (PPE) kit, etc. (Poljak and Šterbenc 2020). To reduce the load on the healthcare system, drones are applied for collecting test samples from localized/remote areas and transport them to the nearest testing lab.…”

Section: Deliverymentioning

confidence: 99%

Smart technologies driven approaches to tackle COVID-19 pandemic: a review

Khan

Kushwah²,

Singh³

et al. 2021

3 Biotech

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Use of drones in clinical microbiology and infectious diseases: current status, challenges and barriers

Cited by 95 publications

References 26 publications

Consolidation of Clinical Microbiology Laboratories and Introduction of Transformative Technologies

Consolidation of Clinical Microbiology Laboratories and Introduction of Transformative Technologies

Restructured society and environment: A review on potential technological strategies to control the COVID-19 pandemic

Smart technologies driven approaches to tackle COVID-19 pandemic: a review

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