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Researcher Profile

DI Dr. Christopher Mayer

DI Dr. Christopher Mayer

Function

Scientist

Center

Health & Bioresources

Competence Unit

Biomedical Systems

E-Mail

Christopher.Mayer(at)ait.ac.at

Phone

+43 50550 4833

Fax

+43 50550 4840

Address

Giefinggasse 4, 1210 Vienna

Career

Field: Preclinical and Clinical Diagnostics

Main Research: ECG analysis, pulse wave analysis, Active and Assisted Living

Experience: modelling and simulation; ecg analyis, pulse wave analysis; statistical analysis of hemodynamic parameters in different cohorts; user interaction; AAL systems

  • 2012-: University Lecturer
    Vienna University of Technology, Institut for Analysis and Scientific Computing / Austria
  • 2005-2008: PhD / Freelancer
    AIT Austrian Institute of Technology GmbH / Austria
  • 2009-: Scientist
    AIT Austrian Institute of Technology GmbH / Austria
  • 2015-ongoing: Member Artery Society (Association for Research into Arterial Structure and Physiology)
  • 2009: Artery Meeting Poster Prize
  • 2009: RIZ Genius Ideenpreis

Publications

  • A new oscillometric method for pulse wave analysis: comparison with a common tonometric method
    Author(s): S Wassertheurer, J Kropf, T Weber, M van der Giet, J Baulmann, M Ammer, B Hametner, CC Mayer, B Eber, D Magometschnigg
    Journal: Journal of human hypertension, 24 (2010) ; 498-504
  • Validation of a Brachial Cuff-Based Method for Estimating Central Systolic Blood Pressure
    Author(s): T Weber, S Wassertheurer, M Rammer, E Maurer, B Hametner, C Mayer, J Kropf, B Eber
    Journal: Hypertension, 58 (2011) ; 825-832
  • Wave reflection quantification based on pressure waveforms alone—Methods, comparison, and clinical covariates
    Author(s): B Hametner, S Wassertheurer, J Kropf, C Mayer, A Holzinger, B Eber, T Weber
    Journal: Computer Methods and Programs in Biomedicine, 109 (2013) ; 250–259
  • Oscillometric estimation of aortic pulse wave velocity: comparison with intra-aortic catheter measurements
    Author(s): B. Hametner, S. Wassertheurer, J Kropf, C Mayer, B Eber, T Weber
    Journal: Blood Pressure Monitoring, 18 (2013) ; 173-176
  • Selection of entropy-measure parameters for knowledge discovery in heart rate variability data
    Author(s): C Mayer, M Bachler, M Hörtenhuber, C Stocker, A Holzinger, S. Wassertheurer
    Journal: BMC Bioinformatics, 15(Suppl 6):S2 (2014)
  • Feasibility of oscillometric aortic pressure and stiffness assessment using the vasera vs-1500: comparison with a common tonometric method
    Author(s): S Endes, M Bachler, Y Li, C Mayer, H Hanssen, B Hametner, A Schmidt-Trucksäss, S Wassertheurer
    Journal: Blood Pressure Monitoring, 20 (2015) ; 273–279
  • Assessment of model based (input) impedance, pulse wave velocity, and wave reflection in the asklepios cohort
    Author(s): B Hametner, S Parragh, C Mayer, T Weber, L Van Bortel, M De Buyzere, P Segers, E Rietzschel, S Wassertheurer
    Journal: PloS one, 10 (2015) ; e0141656
  • Rationale and study design of the prospective, longitudinal, observational cohort study "rISk strAtification in end-stage renal disease" (ISAR) study
    Author(s): C Schmaderer, S Tholen, A-L Hasenau, C Hauser, Y Suttmann, S Wassertheurer, CC Mayer, A Bauer, KD Rizas, S Kemmner, K Kotliar, B Haller, J Mann, L Renders, U Heemann, M Baumann
    Journal: BMC Nephrology, 17 (2016) ; 161
  • The effect of threshold values and weighting factors on the association between entropy measures and mortality after myocardial infarction in the cardiac arrhythmia suppression trial (CAST).
    Author(s): C Mayer, M Bachler, A Holzinger, P K Stein, S Wassertheurer
    Journal: Entropy, 18 (2016) ; 129
  • A comparative study of systems for the design of flexible user interfaces
    Author(s): C Mayer, G Zimmermann, A Grguric, J Alexandersson, M Sili, C Strobbe
    Journal: Journal of Ambient Intelligence and Smart Environments, 8 (2016) ; 125–148
  • Long-term monitoring of cardiorespiratory patterns in drug-resistant epilepsy
    Author(s): D. Goldenholz, A. Kuhn, A. Austermuehle, M. Bachler, C. Mayer, S. Wassertheurer, S. Inati, W. Theodore
    Journal: Epilepsia, 58 (1) (2017) ; 77 - 84
  • Implementation and verification of an enhanced algorithm for the automatic computation of RR-interval series derived from 24?h 12-lead ECGs
    Author(s): S. Hagmair, M. Braunisch, M. Bachler, C. Schmaderer, A. Hasenau, A. Bauer, K. Rizas, S. Wassertheurer, C. Mayer
    Journal: Physiological Measurement, 38-1 (2017) ; 1-14
  • Modellbildung und Simulation des Herzkreislaufsystems (2014)
    Vienna University of Technology
  • Modellbildung für Ambient Assisted Living (AAL) (2014)
    Vienna University of Technology
  • Modellbildung und Simulation des Herzkreislaufsystems (2013)
    Vienna University of Technology
  • Modellbildung für Ambient Assisted Living (AAL) (2013)
    Vienna University of Technology
  • Modellbildung und Simulation des Herzkreislaufsystems (2012)
    Vienna University of Technology
  • Modellbildung für Ambient Assisted Living (AAL) (2012)
    Vienna University of Technology
  • Modellbildung und Simulation des Herzkreislaufsystems (2015)
    Vienna University of Technology
  • Modellbildung und Simulation des Herzkreislaufsystems (2016)
    Vienna University of Technology
  • Biosignalanalyse mittels Matlab (2016)
    Vienna University of Technology
  • Modellbildung und Simulation des Herzkreislaufsystems (2017)
    Vienna University of Technology
  • Verfahren zur Bestimmung des Herzzeitvolumens
    Inventor: Siegfried Wassertheurer, Christopher Mayer
    Submission Date: 08.11.2005
    Issue Date: 15.07.2011

Further Information

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