An impedance flow cytometry with integrated dual microneedle for electrical properties characterization of single cell
Electrical characteristics of living cells have been proven to reveal important details about their internal structure, charge distribution and composition changes in the cell membrane, as well as the extracellular context. An impedance flow cytometry is a common approach to determine the electrical...
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Taylor and Francis Ltd.
2023
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| Online Access: | http://eprints.utm.my/105274/1/MohdRidzuanAhmad2023_AnImpedanceFlowCytometrywithIntegratedDual.pdf http://eprints.utm.my/105274/ http://dx.doi.org/10.1080/21691401.2023.2239274 |
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my.utm.1052742024-04-24T06:05:44Z http://eprints.utm.my/105274/ An impedance flow cytometry with integrated dual microneedle for electrical properties characterization of single cell Mansor, Muhammad Asraf Ahmad, Mohd. Ridzuan TK Electrical engineering. Electronics Nuclear engineering Electrical characteristics of living cells have been proven to reveal important details about their internal structure, charge distribution and composition changes in the cell membrane, as well as the extracellular context. An impedance flow cytometry is a common approach to determine the electrical properties of a cell, having the advantage of label-free and high throughput. However, the current techniques are complex and costly for the fabrication process. For that reason, we introduce an integrated dual microneedle-microchannel for single-cell detection and electrical properties extraction. The dual microneedles utilized a commercially available tungsten needle coated with parylene. When a single cell flows through the parallel-facing electrode configuration of the dual microneedle, the electrical impedance at multiple frequencies is measured. The impedance measurement demonstrated the differential of normal red blood cells (RBCs) with three different sizes of microbeads at low and high frequencies, 100 kHz and 2 MHz, respectively. An electrical equivalent circuit model (ECM) was used to determine the unique membrane capacitance of individual cells. The proposed technique demonstrated that the specific membrane capacitance of an RBC is 9.42 mF/m-2, with the regression coefficients, (Formula presented.) at 0.9895. As a result, this device may potentially be used in developing countries for low-cost single-cell screening and detection. Taylor and Francis Ltd. 2023 Article PeerReviewed application/pdf en http://eprints.utm.my/105274/1/MohdRidzuanAhmad2023_AnImpedanceFlowCytometrywithIntegratedDual.pdf Mansor, Muhammad Asraf and Ahmad, Mohd. Ridzuan (2023) An impedance flow cytometry with integrated dual microneedle for electrical properties characterization of single cell. Artificial Cells, Nanomedicine and Biotechnology, 51 (1). pp. 371-383. ISSN 2169-1401 http://dx.doi.org/10.1080/21691401.2023.2239274 DOI : 10.1080/21691401.2023.2239274 |
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TK Electrical engineering. Electronics Nuclear engineering Mansor, Muhammad Asraf Ahmad, Mohd. Ridzuan An impedance flow cytometry with integrated dual microneedle for electrical properties characterization of single cell |
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Electrical characteristics of living cells have been proven to reveal important details about their internal structure, charge distribution and composition changes in the cell membrane, as well as the extracellular context. An impedance flow cytometry is a common approach to determine the electrical properties of a cell, having the advantage of label-free and high throughput. However, the current techniques are complex and costly for the fabrication process. For that reason, we introduce an integrated dual microneedle-microchannel for single-cell detection and electrical properties extraction. The dual microneedles utilized a commercially available tungsten needle coated with parylene. When a single cell flows through the parallel-facing electrode configuration of the dual microneedle, the electrical impedance at multiple frequencies is measured. The impedance measurement demonstrated the differential of normal red blood cells (RBCs) with three different sizes of microbeads at low and high frequencies, 100 kHz and 2 MHz, respectively. An electrical equivalent circuit model (ECM) was used to determine the unique membrane capacitance of individual cells. The proposed technique demonstrated that the specific membrane capacitance of an RBC is 9.42 mF/m-2, with the regression coefficients, (Formula presented.) at 0.9895. As a result, this device may potentially be used in developing countries for low-cost single-cell screening and detection. |
| format |
Article |
| author |
Mansor, Muhammad Asraf Ahmad, Mohd. Ridzuan |
| author_facet |
Mansor, Muhammad Asraf Ahmad, Mohd. Ridzuan |
| author_sort |
Mansor, Muhammad Asraf |
| title |
An impedance flow cytometry with integrated dual microneedle for electrical properties characterization of single cell |
| title_short |
An impedance flow cytometry with integrated dual microneedle for electrical properties characterization of single cell |
| title_full |
An impedance flow cytometry with integrated dual microneedle for electrical properties characterization of single cell |
| title_fullStr |
An impedance flow cytometry with integrated dual microneedle for electrical properties characterization of single cell |
| title_full_unstemmed |
An impedance flow cytometry with integrated dual microneedle for electrical properties characterization of single cell |
| title_sort |
impedance flow cytometry with integrated dual microneedle for electrical properties characterization of single cell |
| publisher |
Taylor and Francis Ltd. |
| publishDate |
2023 |
| url |
http://eprints.utm.my/105274/1/MohdRidzuanAhmad2023_AnImpedanceFlowCytometrywithIntegratedDual.pdf http://eprints.utm.my/105274/ http://dx.doi.org/10.1080/21691401.2023.2239274 |
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13.211869 |