Your search keyword '"Alphonso Nguyen"' showing total 2 results

1. Engineering of a miniaturized, robotic clinical laboratory

Author

Pradeep L. Ramachandran, Elizabeth A. Holmes, Chinmay Pangarkar, Karthik Jayasurya, Jared O'Leary, Chandan Shee, Alphonso Nguyen, Lucie S. Lee, Laura Hyland, Marilyn B. Nourse, Kevin D. Ha, Steven Chow, Samartha Anekal, Pradeep Bhatta, Steven F. Gessert, Ran Hu, Kate Engel, Renuka Shenoy, Yang Lily Liu, Bernardo Sosa-Padilla, Ushati Das, Amy Yuan, Jerald F. Sapida, Joy Roy, Peter Zhao, Lorraine Tran, Dariusz Wodziak, Amanda Trent, Daniel L. Young, Shekar Chandrasekaran, Amy R. Rappaport, Ken Quon, Andrew N. Kim, Yutao Chen, Timothy Michael Kemp, Arvind Jammalamadaka, Thomas C. Waggoner, Jocelyn A. Bailey, Channing R. Robertson, Xinwei Gong, Erez Galil, Nikolay V. Sergeev, Devayani Bhave, Sharada Sivaraman, and Paul Patel

Subjects

0301 basic medicine, Analyte, Spectrum analyzer, business.industry, Computer science, Small footprint, Biomedical Engineering, Pharmaceutical Science, 030204 cardiovascular system & hematology, Molecular diagnostics, Laboratory testing, Automation, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Virus type, Minilab, business, Computer hardware, Biotechnology

Abstract

The ability to perform laboratory testing near the patient and with smaller blood volumes would benefit patients and physicians alike. We describe our design of a miniaturized clinical laboratory system with three components: a hardware platform (ie, the miniLab) that performs preanalytical and analytical processing steps using miniaturized sample manipulation and detection modules, an assay-configurable cartridge that provides consumable materials and assay reagents, and a server that communicates bidirectionally with the miniLab to manage assay-specific protocols and analyze, store, and report results (i.e., the virtual analyzer). The miniLab can detect analytes in blood using multiple methods, including molecular diagnostics, immunoassays, clinical chemistry, and hematology. Analytical performance results show that our qualitative Zika virus assay has a limit of detection of 55 genomic copies/ml. For our anti-herpes simplex virus type 2 immunoglobulin G, lipid panel, and lymphocyte subset panel assays, the miniLab has low imprecision, and method comparison results agree well with those from the United States Food and Drug Administration-cleared devices. With its small footprint and versatility, the miniLab has the potential to provide testing of a range of analytes in decentralized locations.

Published

2018

2. Engineering of a miniaturized, robotic clinical laboratory

Author

Marilyn B, Nourse, Kate, Engel, Samartha G, Anekal, Jocelyn A, Bailey, Pradeep, Bhatta, Devayani P, Bhave, Shekar, Chandrasekaran, Yutao, Chen, Steven, Chow, Ushati, Das, Erez, Galil, Xinwei, Gong, Steven F, Gessert, Kevin D, Ha, Ran, Hu, Laura, Hyland, Arvind, Jammalamadaka, Karthik, Jayasurya, Timothy M, Kemp, Andrew N, Kim, Lucie S, Lee, Yang Lily, Liu, Alphonso, Nguyen, Jared, O'Leary, Chinmay H, Pangarkar, Paul J, Patel, Ken, Quon, Pradeep L, Ramachandran, Amy R, Rappaport, Joy, Roy, Jerald F, Sapida, Nikolay V, Sergeev, Chandan, Shee, Renuka, Shenoy, Sharada, Sivaraman, Bernardo, Sosa-Padilla, Lorraine, Tran, Amanda, Trent, Thomas C, Waggoner, Dariusz, Wodziak, Amy, Yuan, Peter, Zhao, Daniel L, Young, Channing R, Robertson, and Elizabeth A, Holmes

Subjects

Research Report, molecular diagnostics, hematology, laboratory testing, diagnostics, Research Reports, immunoassay, clinical chemistry, automation

Abstract

The ability to perform laboratory testing near the patient and with smaller blood volumes would benefit patients and physicians alike. We describe our design of a miniaturized clinical laboratory system with three components: a hardware platform (ie, the miniLab) that performs preanalytical and analytical processing steps using miniaturized sample manipulation and detection modules, an assay‐configurable cartridge that provides consumable materials and assay reagents, and a server that communicates bidirectionally with the miniLab to manage assay‐specific protocols and analyze, store, and report results (i.e., the virtual analyzer). The miniLab can detect analytes in blood using multiple methods, including molecular diagnostics, immunoassays, clinical chemistry, and hematology. Analytical performance results show that our qualitative Zika virus assay has a limit of detection of 55 genomic copies/ml. For our anti‐herpes simplex virus type 2 immunoglobulin G, lipid panel, and lymphocyte subset panel assays, the miniLab has low imprecision, and method comparison results agree well with those from the United States Food and Drug Administration‐cleared devices. With its small footprint and versatility, the miniLab has the potential to provide testing of a range of analytes in decentralized locations.

Published

2017