Lab-on-a-Drone: Toward Pinpoint Deployment of Smartphone-Enabled Nucleic Acid-Based Diagnostics for Mobile Health Care

Priye, Aashish; Wong, Season; Bi, Yuanpeng; Carpio, Miguel Ángel; Chang, Jamison; Coen, Mauricio; Cope, Danielle; Harris, Jacob; Johnson, James H.; Keller, Alexandra; Lim, Richard; Lu, Shi‐En; Millard, Alex; Pangelinan, Adriano B.; Patel, Neal; Smith, Luke; Chan, Kamfai; Ugaz, Victor M.

doi:10.1021/acs.analchem.5b04153

Cited by 136 publications

(83 citation statements)

References 35 publications

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“…A final example of a POC device that would be useful for deployment in a government or military setting is the “lab-on-a-drone” device 53 . The ability to send a laboratory test to many different locations via a drone holds intriguing applications in both military and defense testing, where the setting may be remote with few traditional resources.…”

Section: Recent Developments In Poc Diagnosticsmentioning

confidence: 99%

Point-of-Care Diagnostics: Recent Developments in a Connected Age

et al. 2016

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Section: Recent Developments In Poc Diagnosticsmentioning

confidence: 99%

Point-of-Care Diagnostics: Recent Developments in a Connected Age

et al. 2016

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“…[15][16][17][18][19] With thermal convection, convective PCR thus eliminates the need for controlled time-domain temperature cycling and external pumps or other fluid actuation or flow control. [20][21][22][23][24] However, most of existed capillary convective PCR (CCPCR) systems are unavailable for commercial application because of those unresolved issues related to repeatability, reliability, convenience, and sensitivity.…”

Section: Introductionmentioning

confidence: 99%

Characterization and analysis of real-time capillary convective PCR toward commercialization

et al. 2017

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Almost all the reported capillary convective polymerase chain reaction (CCPCR) systems to date are still limited to research use stemming from unresolved issues related to repeatability, reliability, convenience, and sensitivity. To move CCPCR technology forward toward commercialization, a couple of critical strategies and innovations are discussed here. First, single-and dual-end heating strategies are analyzed and compared between each other. Especially, different solutions for dual-end heating are proposed and discussed, and the heat transfer and fluid flow inside the capillary tube with an optimized dual-end heating strategy are analyzed and modeled. Second, real-time CCPCR is implemented with light-emitting diode and photodiode, and the real-time fluorescence detection method is compared with the postamplification end-point detection method based on a dipstick assay. Thirdly, to reduce the system complexity, e.g., to simplify parameter tuning of the feedback control, an internal-model-control-based proportional-integral-derivative controller is adopted for accurate temperature control. Fourth, as a proof of concept, CCPCR with pre-loaded dry storage of reagent inside the capillary PCR tube is evaluated to better accommodate to point-of-care diagnosis. The critical performances of improved CCPCR, especially with sensitivity, repeatability, and reliability, have been thoroughly analyzed with different experiments using influenza A (H1N1) virus as the detection sample. Published by AIP Publishing. [http://dx

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“…RPA reactions commercialized by TwistDx (Cambridge, UK) can give positive results in 5 to 10 min. The progress of amplification reactions using an exo-probe can be monitored with a lab-based fluorescence detector262728. A low-cost approach using blue LEDs as excitation light source and a smartphone camera with a colored filter can also be used to capture fluorescent emission signals2829.…”

mentioning

confidence: 99%

“…The progress of amplification reactions using an exo-probe can be monitored with a lab-based fluorescence detector262728. A low-cost approach using blue LEDs as excitation light source and a smartphone camera with a colored filter can also be used to capture fluorescent emission signals2829. For the detection of RNA, reverse-transcriptase is added so “one-step” RT-RPA can be used303132333435.…”

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confidence: 99%

Rapid, Affordable and Portable Medium-Throughput Molecular Device for Zika Virus

Chan

Weaver

Wong

et al. 2016

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Zika virus (ZIKV) has gained global attention as an etiologic agent of fetal microcephaly and Guillain-Barré syndrome. Existing immuno-based rapid tests often fail to distinguish between Zika and related flaviviruses that are common in affected regions of Central and South Americas and the Caribbean. The US CDC and qualified state health department laboratories can perform the reverse transcription polymerase chain reaction (RT-PCR) ZIKV test using highly sophisticated instruments with long turnaround times. The preliminary results of a portable and low-cost molecular diagnostics system for ZIKV infection are reported here. In less than 15 minutes, this low-cost platform can automatically perform high quality RNA extraction from up to 12 ZIKV-spiked urine samples simultaneously. It can also perform reverse transcription recombinase polymerase amplification reaction (RT-RPA) in ≤15 minutes. The fluorescent signal produced from probe-based RT-RPA or RT-PCR assays can be monitored using LEDs and a smartphone camera. In addition, the RT-RPA and RT-PCR assays do not cross-react with dengue and chikungunya viral RNA. This low-cost system lacks complicated, sensitive and high cost components, making it suitable for resource-limited settings. It has the potential to offer simple sample-to-answer molecular diagnostics and can inform healthcare workers of patients’ diagnosis promptly.

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Lab-on-a-Drone: Toward Pinpoint Deployment of Smartphone-Enabled Nucleic Acid-Based Diagnostics for Mobile Health Care

Cited by 136 publications

References 35 publications

Point-of-Care Diagnostics: Recent Developments in a Connected Age

Point-of-Care Diagnostics: Recent Developments in a Connected Age

Characterization and analysis of real-time capillary convective PCR toward commercialization

Rapid, Affordable and Portable Medium-Throughput Molecular Device for Zika Virus

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