Label-free and Multi-parametric Monitoring of Cell-based Assays with Substrate-embedded Sensors - Maximilian Oberleitner

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Label-free and Multi-parametric Monitoring of Cell-based Assays with Substrate-embedded Sensors (eBook)

Maximilian Oberleitner (Autor)

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2017 | 1st ed. 2018
XXVI, 370 Seiten
Springer International Publishing (Verlag)
978-3-319-45384-2 (ISBN)

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This thesis describes novel substrate embedded physical sensors that can be used to monitor different types of cell-based assays non-invasively and label-free. The sensors described provide integrative information of the cells under study with an adaptable time resolution (ranging from milliseconds to days). This information about the dynamic cell response to chemical, physical or biological stimuli defines a new paradigm in fundamental biomedical research.

The author, Maximilian Oberleitner, describes approaches in which the cells are directly grown on different sensor surfaces (gold-film electrodes, shear wave resonators or dye-doped polymer films). This approach, with the reacting cells in particularly close proximity and contact with the sensor surface, is key to a remarkable sensitivity, opening the way for a variety of new applications. This thesis not only introduces the fundamentals of each approach, but it also describes in great detail the design

principles and elucidates the boundary conditions of the new sensors.

Maximilian Oberleitner was born in 1983 in Bavaria, Germany and graduated from the University of Regensburg with a Diploma in Chemistry in 2008. Based on this doctoral thesis 'Label-free and Multi-parametric Monitoring of Cell-based Assays with Substrate-embedded Sensors' he obtained his PhD in Analytical Chemistry in 2016 in the Institute of Analytical Chemistry, Chemo- and Biosensors at the University of Regensburg under the supervision of Prof. Dr. Joachim Wegener. His research work was focused on the development and improvement of substrate-integrated sensors for the analysis of living cells. These sensors enable the monitoring of cell-substrate interactions and the real-time analysis of assays with adherently grown cells in a non-invasive, label-free and - by combinations of the different types of sensors - even in a multi-parametric manner. Since 2015 he works at a global healthcare company in Austria. As project leader in the quality unit he is responsible for stability studies and quality evaluations of antibiotics.

Maximilian Oberleitner was born in 1983 in Bavaria, Germany and graduated from the University of Regensburg with a Diploma in Chemistry in 2008. Based on this doctoral thesis “Label-free and Multi-parametric Monitoring of Cell-based Assays with Substrate-embedded Sensors” he obtained his PhD in Analytical Chemistry in 2016 in the Institute of Analytical Chemistry, Chemo- and Biosensors at the University of Regensburg under the supervision of Prof. Dr. Joachim Wegener. His research work was focused on the development and improvement of substrate-integrated sensors for the analysis of living cells. These sensors enable the monitoring of cell-substrate interactions and the real-time analysis of assays with adherently grown cells in a non-invasive, label-free and – by combinations of the different types of sensors – even in a multi-parametric manner. Since 2015 he works at a global healthcare company in Austria. As project leader in the quality unit he is responsible for stability studies and quality evaluations of antibiotics.

Introduction.- Objectives.- Methods & Instrumentation.- MQCM: Multiple Cytomechanic Sensing.- QCM-ECIS: Combined Viscoelastic and Dielectric Sensing of Cells.- QCM-OCS: Optochemical Sensing of Temperature and pO2 in the Cell Surface Junction.- Summary.- Appendix.

Erscheint lt. Verlag	26.9.2017
Reihe/Serie	Springer Theses
Reihe/Serie	Springer Theses
Zusatzinfo	XXVI, 370 p. 138 illus., 122 illus. in color.
Verlagsort	Cham
Sprache	englisch
Themenwelt	Studium ► 1. Studienabschnitt (Vorklinik) ► Biochemie / Molekularbiologie
	Naturwissenschaften ► Biologie
	Naturwissenschaften ► Chemie
Schlagworte	Biological recognition unit • Cell-based assays • Cell Culture • Confocal laser scanning microscopy • Cytomechanic sensing • Dynamic cell response • Electric cell-substrate impedance sensing • Fluorescence lifetime imaging • Impedance spectroscopy • Label-free high-content sensing • Mulitparametric whole-cell biosensing • Optical temperature and oxygen imaging • Quartz crystal microbalance
ISBN-10	3-319-45384-X / 331945384X
ISBN-13	978-3-319-45384-2 / 9783319453842

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