Polymer Lab-on-a-chips from Micro Blood Sampling to Immunoassay for Point-of-care testing of Neonates and Pediatrics in Intensive Care Unit

Jung, Wooseok

25 October 2013

No description available.

Electrical Engineering

Polymer

Lab-on-a-chip

Point-of-care Testing

Micro Blood Sampling

Immunoassay

Sample-to-answer

Innovative qPCR using interfacial effects to enable low threshold cycle detection and inhibition relief

Harshman, D. K., Rao, B. M., McLain, J. E., Watts, G. S., Yoon, J.-Y.

04 September 2015

UA Open Access Publishing Fund / Molecular diagnostics offers quick access to information but fails to operate at a speed required for clinical decision-making. Our novel methodology, droplet-on-thermocouple silhouette real-time polymerase chain reaction (DOTS qPCR), uses interfacial effects for droplet actuation, inhibition relief, and amplification sensing. DOTS qPCR has sample-to-answer times as short as 3 min 30 s. In infective endocarditis diagnosis, DOTS qPCR demonstrates reproducibility, differentiation of antibiotic susceptibility, subpicogram limit of detection, and thermocycling speeds of up to 28 s/cycle in the presence of tissue contaminants. Langmuir and Gibbs adsorption isotherms are used to describe the decreasing interfacial tension upon amplification. Moreover, a log-linear relationship with low threshold cycles is presented for real-time quantification by imaging the droplet-on-thermocouple silhouette with a smartphone. DOTS qPCR resolves several limitations of commercially available real-time PCR systems, which rely on fluorescence detection, have substantially higher threshold cycles, and require expensive optical components and extensive sample preparation. Due to the advantages of low threshold cycle detection, we anticipate extending this technology to biological research applications such as single cell, single nucleus, and single DNA molecule analyses. Our work is the first demonstrated use of interfacial effects for sensing reaction progress, and it will enable point-of-care molecular diagnosis of infections.

antibiotic resistance

infective endocarditis

real-time PCR

interfacial tension

inhibition relief

emulsification

rapid molecular diagnostics

point-of-care

sample-to-answer

A Sample-to-Answer Polymer Lab-on-a-Chip with Superhydrophilic Surfaces using a Spray Layer-by-Layer Nano-Assembly Method

Lee, Kang Kug

January 2013

No description available.

Engineering

Sample to Answer Polymer Lab on a Chip

Superhydrophilic Surfaces

On chip Whole Blood Plamsa Separator

Asymmetric Capillary Force

Point of Care Clinical Testing