Development of a Smartphone-Integrated Reflective Scatterometer for Bacterial Identification

Doh, Iyll‐Joon; Dowden, Brianna; Patsekin, Valery; Rajwa, Bartek; Robinson, J. Paul; Bae, Euiwon

doi:10.3390/s22072646

Cited by 5 publications

(5 citation statements)

References 28 publications

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“…Recent research focuses on enhancing biosensor sensitivity, often employing nanomaterials and novel techniques for signal amplification [13,14]. Furthermore, smartphone-based biosensors, leveraging optical features, have emerged as cost-effective and portable solutions for pathogen detection, promising advances in food safety [15][16][17][18].…”

Section: Introductionmentioning

confidence: 99%

Detection and confirmation of Salmonella Typhimurium by smartphone-enabled optomechanical platform

Min,

Mina,

Shin

et al. 2024

Sensing for Agriculture and Food Quality and Safety XVI

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Salmonella ser. Typhimurium is notorious for causing serious foodborne illnesses and presenting considerable public health risks. The study introduces an innovative system based on a quartz crystal microbalance, designed to detect the target pathogen by integrating the system around a smartphone. The system operates through a dual-mode approach, relying on two distinct mechanisms: measuring frequency changes due to variations in bacterial mass and quantifying fluorescence intensities resulting from bacteria captured by FITC-labeled antibodies. Incorporating FITC-labeled antibodies not only enhances the resonance frequency shift but also offers visual confirmation through the fluorescence signal. The integration of the quartz crystal microbalance system with a smartphone enables real-time monitoring. This system displays both frequency and temperature data, while also capturing fluorescence intensities to estimate the concentration of the target analyte. The smartphone-based system successfully detected Salmonella Typhimurium within a concentration range of 10 5 CFU/mL after the application of FITC-labeled antibodies. This portable QCM system represents a promising advancement in pathogen detection, holding significant potential to improve food safety protocols and strengthen public health safeguards.

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Section: Introductionmentioning

confidence: 99%

Detection and confirmation of Salmonella Typhimurium by smartphone-enabled optomechanical platform

Min,

Mina,

Shin

et al. 2024

Sensing for Agriculture and Food Quality and Safety XVI

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“…Many portable instruments were proposed to reduce time-to-detection period and provide rapid detection results [6][7][8][9][10]. In particular, smartphone has been used as a main controller and detection device in many applications [11,12]. Here we are presenting an on-site detection platform that incorporates the loop-medicated isothermal amplification (LAMP) into a portable battery-operated fluorescence detection system.…”

Section: Introductionmentioning

confidence: 99%

Design of a portable fluorescence imaging platform for on-site detection target analyte by loop-medicated isothermal amplification

Boursier,

Jang,

Ghatge

et al. 2024

Sensing for Agriculture and Food Quality and Safety XVI

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With the development and expansion of the internet of things, many scientific and engineering instruments are leaving the benchtop restriction and moving on to provide on-site detection. On-site detection requires a complete miniaturization of a benchtop system while maintaining a similar performance with respect to the analyte detection sensitivity. In addition, due to the mobile nature, utilizing a battery source is required. Here we present a portable loop-medicated isothermal amplification detection system for on-site detection and amplification of target analyte via fluorescence detection. The digital twin design incorporates three major components: an isothermal heating chamber, light-tight enclosure for sample insert, and fluorescence imaging system via micro-controllers. The isothermal heating chamber was designed with Peltier heater to provide small form factor accurate temperature control. For light-tight enclosure is a 3D printed device that allows DNA samples to be inserted and fluorescent images to be taken within the chamber. Lastly, fluorescent imaging system operates with a stand-alone camera connected to an Arduino micro-controller. Excitation is provided by blue colored LED and emission is detected via long-pass filter that matches the emission spectrum.

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“…Portable sensors and detection system is becoming popular in food safety areas due to the user-friendly operation, lower cost per test, and integration of internet of things (IOT) to provide broader understanding in terms of food safety concerns in the manufacturing plant. Some example include utilizing smartphone-based sensors to provide quantitative concentration of pathogens from lateral flow strips [11] and bacterial colonies [12], portable sensors that can provide ATP-based or bioluminescence phase-based pathogen detection [13][14][15][16], IOT based temperature monitoring for potential risk assessment in food safety [17,18].…”

Section: Introductionmentioning

confidence: 99%

Design of real-time pathogen monitoring device for sampled food products during shipment

Boursier,

Holder,

Applegate

et al. 2024

Sensing for Agriculture and Food Quality and Safety XVI

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Development of a Smartphone-Integrated Reflective Scatterometer for Bacterial Identification

Cited by 5 publications

References 28 publications

Detection and confirmation of Salmonella Typhimurium by smartphone-enabled optomechanical platform

Detection and confirmation of Salmonella Typhimurium by smartphone-enabled optomechanical platform

Design of a portable fluorescence imaging platform for on-site detection target analyte by loop-medicated isothermal amplification

Design of real-time pathogen monitoring device for sampled food products during shipment

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