AnnaSlotosch

Dr.-Ing. Anna Daub

  • Doctoral Researcher
  • Institut für Strömungsmechanik
    Karlsruher Institut für Technologie
    Kaiserstraße 10, Geb. 10.23
    76131 Karlsruhe
    Tel.: +49 721 608 42368
    Fax: +49 721 608 45147

Journal Publications


2022
Sequential Coupling Shows Minor Effects of Fluid Dynamics on Myocardial Deformation in a Realistic Whole-Heart Model
Brenneisen, J.; Daub, A.; Gerach, T.; Kovacheva, E.; Huetter, L.; Frohnapfel, B.; Dössel, O.; Loewe, A.
2022. Frontiers in Cardiovascular Medicine, 8. doi:10.3389/fcvm.2021.768548
2020
Replication of left ventricular haemodynamics with a simple planar mitral valve model
Daub, A.; Kriegseis, J.; Frohnapfel, B.
2020. Biomedical engineering, 65 (5), 595–603. doi:10.1515/bmt-2019-0175
2018
Numerical Haemodynamics in the Human Heart. PhD dissertation
Daub, A. C.
2018. KIT Scientific Publishing. doi:10.5445/KSP/1000080044

Conference Contributions


2016
Sensitivity Analysis of a Three Plane Diode Type Mitral Valve Model
Daub, A.; Kriegseis, J.; Frohnapfel, B.
2016. 11th European Fluid Mechanics Conference EFMC, Seville, Spain, September 12-16, 2016
Left Ventricular Flow Field Evaluation - A Step Toward Generalization of Post-Processing Techniques
Daub, A.; Frohnapfel, B.; Kriegseis, J.
2016. 87th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM), Braunschweig, Germany, 7-11 March 2016
2015
Effect of Different Diode Type Mitral Valve Models on Left Ventricular Flow Pattern
Slotosch, A.; Kriegseis, J.; Frohnapfel, B.
2015. BMES Annual Meeting, Tampa, Florida, USA, October 7–10, 2015
Lagrangian Coherent Structures in Unsteady Flow Fields - Required Resolution of the Field Information = Lagrange’sche kohärente Strukturen in instationären Strömungsfeldern
Slotosch, A.; Gollub, M.; Kaiser, F.; Frohnapfel, B.; Kreigseis, J.
2015. Lasermethoden in der Strömungsmesstechnik : 23. Fachtagung, 8. - 10. September 2015, Dresden. Hrsg.: J. Czarske, 41.1–41.8, GALA
2014
Flow Simulation through Arterial Stenosis under Prescribed Power Input. 7th World Congress on Biomechanics
Slotosch, A.; Gollub, M.; Frohnapfel, B.
2014. World Congress of Biomechanics, Boston, MA, July 6-11 2014
Wirbel im Herzen - Anwendung von Techniken zur Strömungscharakterisierung = Heart Flow Vortices - An Application of Flow Characterization Techniques
Slotosch, A.; Schlanderer, J.; Kaiser, F.; Kriegseis, J.
2014. Lasermethoden in der Strömungsmesstechnik - 22. Fachtagung - Karlsruhe, Germany, 9. - 11. September 2014. Ed.: B. Ruck, 45, Dt. Ges. für Laser-Anemometrie GALA e.V
The Impact of Numerical Simulation Strategies on the Prediction of Hemodynamic Changes in an Artery Stenosis
Slotosch, A.; Frohnapfel, B.
2014. 10th European Fluid Mechanics Conference (EFMC 2014), Copenhagen, Denmark, September 14–18, 2014

Publications

Scientific Journals and Books:

  1. Brown, T.D., Slotosch A., Thibaudeau L., Taubenberger A., Loessner D., Vaquette C., Dalton P.D. and Hutmacher D.W. (2012): Design and fabrication of tubular scaffolds by direct writing in a melt electrospinning mode. Biointerphases, 7, 13, DOI 10.1007/s13758-011-0013-7.

Conference Contributions: *Presenter

  1. Daub*, A., Kriegseis, J. and Frohnapfel, B. (2016): Sensitivity Analysis of a Three Plane Diode Type Mitral Valve Model. 11th European Fluid Mechanics Conference EFMC, Seville, Spain
  2. Daub*, A., Frohnapfel, B. and Kriegseis, J. (2016): Left Ventricular Flow Field Evaluation - A Step Toward Generalization of Post-Processing Techniques. 87th Annual Meeting of the International Association of Applied Mathematics and Mechanics, Braunschweig, Germany
  3. Slotosch*, A., Kriegseis, J. and Frohnapfel, B. (2015): Effect of Different Diode Type Mitral Valve Models on Left Ventricular Flow Pattern. BMES Annual Meeting, Tampa, USA
  4. Slotosch, A., Gollub, M., Kaiser*, F., Frohnapfel, B. and Kriegseis, J. (2015): Lagrangian Coherent Structures in Unsteady Flow Fields – Required Resolution of the Field Information. 23. Fachtagung Lasermethoden in der Strömungsmesstechnik, Dresden, Germany
  5. Slotosch*, A. and Frohnapfel, B. (2014): The Impact of Numerical Simulation Strategies on the Prediction of Hemodynamic Changes in an Artery Stenosis, 10th European Fluid Mechanics Conference EFMC. Copenhagen, Denmark.
  6. Slotosch*, A., Schlanderer, J., Kaiser, F. and Kriegseis, J. (2014): Heart Flow Vortices - An Application of Flow Characterization Techniques. 22. Fachtagung Lasermethoden in der Strömungsmesstechnik, Karlsruhe, Germany.

Poster:

1. Slotosch, A., Gollub, M. and Frohnapfel, B. (2014): Flow Simulation through Arterial Stenosis under Prescribed Power Input. 7th World Congress on Biomechanics WCB, Boston, USA

Supervised Student Theses

Available Projects at ISTM

Enquiris are welcomeat any time!

  1. Bachelorarbeit by Fenja Alkemper (2017): "Untersuchung von Wandbewegungsmodellen zur Simulation von Herzströmungen"

  2. Masterarbeit by Katharina Vellguth (2017): "Numerical Simulation of the Early Diastolic Left Ventricle Blood Flow"

  3. Masterarbeit by Jonas Brakhage (2016): "Examination of criteria to characterize an FTLE calculation"

  4. Bachelorarbeit by Larissa Hütter (2016): "Untersuchung eines Herstellungsverfahrens für ein elastisches Modell des Aortenbogens für Particle Image Velocimetry (PIV) Messungen"

  5. Bachelorproject by Afiqah Bakar (2015): "Mitral Valve Simulation in Computational Fluid Dynamics"

  6. Master project by Maren Gollub (2015): "Charakterisierung eines Wirbelidentifikationstools zur effizienten FTLE-Berechnung"

  7. Master project by Jan-Niklas Klatt (2015): "Verification and Validation of a Three-Equation Transition Model for Application to Internal Flows"
  8. Master project by Frieder Kaiser (2014): „Heart Flow Vortices – an FTLE Approach“

  9. Bachelorproject by Judith Schlanderer (2014): „Heart Flow Vortices – Comparison of Vortex Detection Methods”

  10. Bachelorproject by Arno Göpfert (2014): „Untersuchung eines Transitionsmodells zur Anwendung im Bereich der Bioströmungsmechanik“

  11. Diplomaproject by Daniel Meyer (2014): „Weiterentwicklung der Fluid-Struktur-Interaktion in OpenFOAM“

  12. Bachelorproject by Maren Gollub (2013): „Weiterentwicklung der Fluid-Struktur-Interaktion in OpenFOAM um nichtnewtonsche Fluide und hyperelastische Materialien“

  13. Bachelorproject by Tobias Stark (2013): „Konzeptentwicklung zur Fluid-Struktur-Interaktion mit der Immersed Boundary Methode in OpenFOAM“