Dieses Bild zeigt Sven Weidner

Sven Weidner

Herr

wissenschaftlicher Mitarbeiter

Kontakt

Allmandring 5b - Verfügungsgebäude
70569 Stuttgart
Deutschland
Raum: 0.09

Peer-Review articles

2024

  • Tomalka, A., Weidner, S., Hahn, D., Seiberl, W., & Siebert, T. (2024). Force re-development after shortening reveals a role for titin in stretch-shortening performance enhancement in skinned muscle fibres. J Exp Biol. Aug 9:jeb.247377. doi: 10.1242/jeb.247377. [link]
  • Weidner, S., Tomalka, A., Rode, C., & Siebert, T. (2024). Impact of lengthening velocity on the generation of eccentric force by slow-twitch muscle fibers in long stretches. doi10.1007/s00424-024-02991-4 Pflugers Arch. European Journal of Physiology.[Link]

2023

  • Araz M, Weidner S, Izzi F, Badri-Spröwitz A, Siebert T and Haeufle DFB (2023). Muscle preflex response to perturbations in locomotion: In vitro experiments and simulations with realistic boundary conditions. Front. Bioeng. Biotechnol. 11:1150170. [link]

2022/2021/2020

  • Weidner, S., Tomalka, A., Rode, C., Siebert, T., 2022. How velocity impacts eccentric force generation of fully activated skinned skeletal muscle fibers in long stretches. J Appl Physiol [ link]
  • Tomalka, A, Weidner S, Hahn D, Seiberl W, Siebert T, 2021. Power amplification increases with increasing contraction velocity during stretch-shortening cycles of skinned muscles fibers. Front. Physiol., doi: 10.3389/fphys.2021.644981 [link]
  • Tomalka, A., Weidner S., Hahn D., Seiberl W., Siebert T., 2020. Cross-bridges and sarcomeric non-cross-bridge structures contribute to increased work in stretch-shortening cycles. Front. Physiol., doi: 10.3389/fphys.2020.00921 [link]
Zum Seitenanfang