Computational Tissue Volume Reconstruction of a Peripheral Nerve Using High-Resolution Light-Microscopy and Reconstruct

@inproceedings{Gierthmuehlen2013ComputationalTV,
  title={Computational Tissue Volume Reconstruction of a Peripheral Nerve Using High-Resolution Light-Microscopy and Reconstruct},
  author={Mortimer Gierthmuehlen and Thomas M. Freiman and Kirsten Haastert-Talini and Alexandra Mueller and Jan Kaminsky and Thomas Stieglitz and Dennis T. T. Plachta},
  booktitle={PloS one},
  year={2013}
}
The development of neural cuff-electrodes requires several in vivo studies and revisions of the electrode design before the electrode is completely adapted to its target nerve. It is therefore favorable to simulate many of the steps involved in this process to reduce costs and animal testing. As the restoration of motor function is one of the most interesting applications of cuff-electrodes, the position and trajectories of myelinated fibers in the simulated nerve are important. In this paper… CONTINUE READING
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References

Publications referenced by this paper.
Showing 1-10 of 44 references

A virtual workbench for peripheral electrode design

  • Plachta DTT, J Sonnenfeld, O Cota, T Stieglitz
  • Fortschritt - Berichte VDI : Automatisierungstech…
  • 2012

A virtual workbench for peripheral electrode design. Fortschritt-Berichte VDI: Automatisierungstechnische Verfahren für die Medizin

  • DTT Plachta, J Sonnenfeld, O Cota, T Stieglitz
  • 2012
1 Excerpt

Miniaturized neural interfaces and implants

  • T Stieglitz, T Boretius, J Ordonez, C Hassler, C Henle
  • Proc SPIE
  • 2012
1 Excerpt

Selective Stimulation of the Vagal Nerve Reduces Blood Pressure without Side Effects

  • DTT Plachta, M Gierthmuehlen, T Stieglitz
  • Biomedizinische Technik Biomedical engineering
  • 2012
1 Excerpt

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