4.6 Article

Dynamic pH and Thermal Analysis of Paper-Based Microchip Electrophoresis

期刊

MICROMACHINES
卷 12, 期 11, 页码 -

出版社

MDPI
DOI: 10.3390/mi12111433

关键词

paper-based electrophoresis; pH shifts; temperature shifts; hemoglobin separation

资金

  1. National Heart, Lung, and Blood Institute Small Business Innovation Research Program [R44HL140739, R41HL151015]
  2. National Center for Complementary and Integrative Health (NCCIH) [U54HL143541]
  3. National Institutes of Health Fogarty International Center [R21TW010610]
  4. National Institute of Health T32 Training Grant [T32HL134622]

向作者/读者索取更多资源

Paper-based microchip electrophoresis shows potential for bringing lab tests to the point of need, but issues with high electrical values causing pH and temperature changes can impact the accuracy and reproducibility of tests. The development of HemeChip aims to provide low-cost, rapid, and accurate electrophoresis tests for hemoglobin analysis. Through pH and temperature characterization, and acid pretreatment of cellulose acetate paper, researchers were able to mitigate shifts and create a stable environment for reproducible hemoglobin electrophoresis separation on HemeChip.
Paper-based microchip electrophoresis has the potential to bring laboratory electrophoresis tests to the point of need. However, high electric potential and current values induce pH and temperature shifts, which may affect biomolecule electrophoretic mobility thus decrease test reproducibility and accuracy of paper-based microfluidic electrophoresis. We have previously developed a microchip electrophoresis system, HemeChip, which has the capability of providing low-cost, rapid, reproducible, and accurate point-of-care (POC) electrophoresis tests for hemoglobin analysis. Here, we report the methodologies we implemented for characterizing HemeChip system pH and temperature during the development process, including utilizing commercially available universal pH indicator and digital camera pH shift characterization, and infrared camera characterizing temperature shift characterization. The characterization results demonstrated that pH shifts up to 1.1 units, a pH gradient up to 0.11 units/mm, temperature shifts up to 40 & DEG;C, and a temperature gradient up to 0.5 & DEG;C/mm existed in the system. Finally, we report an acid pre-treatment of the separation media, a cellulose acetate paper, mitigated both pH and temperature shifts and provided a stable environment for reproducible HemeChip hemoglobin electrophoresis separation.

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