Evaluation of cellophane as platform for colorimetric assays on microfluidic analytical devices.
Hiroki ShigemoriKento MaejimaHiroyuki ShibataYuki TokuraDaniel CitterioPublished in: Mikrochimica acta (2023)
Due to their low cost, simplicity, and pump-free liquid transport properties, colorimetric assays on paper spots and microfluidic paper-based analytical devices (µPADs) are regarded as useful tools for point-of-care testing (POCT). However, for certain types of colorimetric assays, the "non-transparent" and "white" characters of paper can be a disadvantage. In this work, the possibilities of using cellophane as an alternative platform for colorimetric assays have been investigated. Cellophane is a low cost and easy-to-handle transparent film made of regenerated cellulose. Owing to its hydrophilic character, cellophane-based microfluidic channels fabricated through a print-cut-laminate approach enabled pump-free liquid transport into multiple detection areas, similar to µPADs. In addition, the water absorption characteristics of cellophane allowed the stable immobilization of water-soluble colorimetric indicators without any surface modification or additional reagents. The transparency of cellophane provides possibilities for simple background coloring of the substrates, increasing the dynamic signal range for hue-based colorimetric assays, as demonstrated for two model assays targeting H 2 O 2 (46-fold increase) and creatinine (3.6-fold increase). Finally, a turbidity detection-based protein assay was realized on black background cellophane spots. The lowest limits of detection achieved with the cellophane-based devices were calculated as 7 µM for H 2 O 2 , 2.7 mg dL -1 for creatinine, and 3.5 mg dL -1 for protein (human serum albumin).
Keyphrases
- high throughput
- gold nanoparticles
- low cost
- label free
- hydrogen peroxide
- sensitive detection
- fluorescent probe
- single cell
- living cells
- loop mediated isothermal amplification
- aqueous solution
- water soluble
- reduced graphene oxide
- human serum albumin
- liquid chromatography
- nitric oxide
- circulating tumor cells
- uric acid
- protein protein
- mass spectrometry
- small molecule
- drug delivery