David Holz

David Holz, M. Sc.

doctoral candidate

Department of Mechanical Engineering
Institute of Applied Dynamics (LTD, Prof. Leyendecker)

Room: Room 01.016
Immerwahrstrasse 1
91058 Erlangen
Germany

curriculum vitae

  • 2013 B.Eng. in Mechanical Engineering, DHBW Ravensburg – Campus Friedrichshafen
  • 2013 – 2015 Development Engineer, Mechatronic Systems, Brose Fahrzeugteile GmbH & Co. KG, Würzburg, Germany
  • 2017 M.Sc. in Computational Engineering, Friedrich-Alexander-Universität Erlangen-Nürnberg
  • 2018 – doctoral candidate, Institute of Applied Dynamics, Friedrich-Alexander-Universität Erlangen-Nürnberg

publications

theses

 

reviewed journal publications

2023

2022

2021

2019

 

conferences and proceedings

2023

2022

2021

2019

2018

2017

 

further publications

 

research

  • Establishment of a heart support system as a contractile membrane based on the pericardium

    (Third Party Funds Single)

    Term: 2016-05-01 - 2022-07-15
    Funding source: Stiftungen

    This projectcontains the establishment of a heart support system as a contractile membrane based on the pericardium to minimize theconsequences of severe heart disease and to maintain proper cardiacfunction. The project is a research cooperation between the Institute ofApplied Dynamics and the Pediatric Cardiology at the Friedrich-Alexander-Universität Erlangen-Nürnberg and is funded by the Klaus Tschira Foundation.

    The project includes the study ofcardiac function under pathological and normal conditions by developing computer models of the heart, which are validated with experimental data ofpediatric cardiology of the University of Erlangen Nuremberg. The clinicalmeasurements and experimental data, as well as the simulation model are basedon rat hearts. Subsequently, a cardiac support system based on a membrane is to be designed to improve or at least maintain heart function under pathological conditions.

    In particular at the Institute of Applied Dynamics, we are focusing on the development of theunderlying computational heart model including the anatomy, morphology,electrophysiology and also the fluid-structure interaction to be able to buildup the optimized heart support system but also to better understand thefunction of the heart and thus to predict or early detect cardiac dysfunctions andbring new treatments to the clinic. 

teaching

Exercise (UE)

Date and Time Start date – End date Cancellation date Lecturer(s) Comment Room
wöchentlich Wed, 18:15 – 19:45 18.10.2023 – 07.02.2024 27.12.2023
01.11.2023
03.01.2024
  • Eduard Sebastian Scheiterer
  • David Holz
  • Dr.-Ing. Giuseppe Capobianco
12801.01.210
wöchentlich Wed, 18:15 – 19:45 18.10.2023 – 07.02.2024 27.12.2023
01.11.2023
03.01.2024
  • Eduard Sebastian Scheiterer
  • David Holz
  • Dr.-Ing. Giuseppe Capobianco
11501.01.104
wöchentlich Wed, 14:15 – 15:45 18.10.2023 – 07.02.2024 01.11.2023
27.12.2023
03.01.2024
  • Eduard Sebastian Scheiterer
  • David Holz
  • Dr.-Ing. Giuseppe Capobianco
11901.00.222

Tutorium (TUT)

Date and Time Start date – End date Cancellation date Lecturer(s) Comment Room
wöchentlich Mon, 18:15 – 19:45 16.10.2023 – 05.02.2024 25.12.2023
01.01.2024
  • Eduard Sebastian Scheiterer
  • Dr.-Ing. Giuseppe Capobianco
  • David Holz
  • Xiyu Chen
12801.01.210

Praktikum (PR)

Date and Time Start date – End date Cancellation date Lecturer(s) Comment Room
wöchentlich Thu, 14:00 – 18:00 19.10.2023 – 08.02.2024 04.01.2024
28.12.2023
  • Dr. Rodrigo Sato Martin de Almagro
  • Xiyu Chen
  • David Holz
  • Eduard Sebastian Scheiterer
11002.00.020