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Ahuja, Karan ; Rather, Gulam M. ; Lin, Zhongtian ; Sui, Jianye ; Xie, Pengfei ; Le, Tuan ; Bertino, Joseph R. ; Javanmard, Mehdi ( , Microsystems & Nanoengineering)
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Ahuja, Karan ; Agarwal, Yuvraj ; Kim, Dohyun ; Xhakaj, Franceska ; Varga, Virag ; Xie, Anne ; Zhang, Stanley ; Townsend, Jay Eric ; Harrison, Chris ; Ogan, Amy ( , Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies)
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Furniturewalla, Abbas ; Chan, Matthew ; Sui, Jianye ; Ahuja, Karan ; Javanmard, Mehdi ( , Microsystems & Nanoengineering)
Abstract We present a wearable microfluidic impedance cytometer implemented on a flexible circuit wristband with on-line smartphone readout for portable biomarker counting and analysis. The platform contains a standard polydimethylsiloxane (PDMS) microfluidic channel integrated on a wristband, and the circuitry on the wristband is composed of a custom analog lock-in amplification system, a microcontroller with an 8-bit analog-to-digital converter (ADC), and a Bluetooth module wirelessly paired with a smartphone. The lock-in amplification (LIA) system is implemented with a novel architecture which consists of the lock-in amplifier followed by a high-pass filter stage with DC offset subtraction, and a post-subtraction high gain stage enabling detection of particles as small as 2.8 μm using the 8-bit ADC. The Android smartphone application was used to initiate the system and for offline data-plotting and peak counting, and supports online data readout, analysis, and file management. The data is exportable to researchers and medical professionals for in-depth analysis and remote health monitoring. The system, including the microfluidic sensor, microcontroller, and Bluetooth module all fit on the wristband with a footprint of less than 80 cm2. We demonstrate the ability of the system to obtain generalized blood cell counts; however the system can be applied to a wide variety of biomarkers by interchanging the standard microfluidic channel with microfluidic channels designed for biomarker isolation.