David Hercher

Ludwig Boltzmann Institute for Experimental and Clinical Traumatology

Affiliated withLudwig Boltzmann Institute for Experimental and Clinical Traumatology Austrian Cluster for Tissue Regeneration

Research Area

Neuroscience

Biography

David Hercher’s main research focus is the investigation of regenerative processes after injuries with special emphasis on the nervous system, the elucidation of modes of action of mechanical stimuli on Schwann cells and tissues as well as non-viral gene therapy and novel imaging modalities and their application in the field of regenerative medicine. His most important scientific findings are the phenotypical commitment of motor and sensory Schwann cells as well as the development of a novel contrast agent-enhanced µCT 3D histology method for application in peripheral nerve regeneration as well as novel findings of functional regeneration using automated gait analysis.

JoVE Journal Publications

ArticleTotal : 1	Year
Publication title Cited by 11	2020

Other Publications

Article	Year
Spatiotemporally limited BDNF and GDNF overexpression rescues motoneurons destined to die and induces elongative axon growth. Experimental neurology\| PubMed ID: 24873730	2014
Extracorporeal shockwave treatment: A novel tool to improve Schwann cell isolation and culture. Cytotherapy\| PubMed ID: 27068763	2016
A Noninvasive In Vitro Monitoring System Reporting Skeletal Muscle Differentiation. Tissue engineering. Part C, Methods\| PubMed ID: 27901409	2017
Pushing the Right Buttons: Improving Efficacy of Therapeutic DNA Vectors. Tissue engineering. Part B, Reviews\| PubMed ID: 29264951	2018
Iodine-Enhanced Micro-CT Imaging of Soft Tissue on the Example of Peripheral Nerve Regeneration. Contrast media & molecular imaging\| PubMed ID: 31049044	2019
Spatiotemporal Differences in Gene Expression Between Motor and Sensory Autografts and Their Effect on Femoral Nerve Regeneration in the Rat. Frontiers in cellular neuroscience\| PubMed ID: 31139050	2019
Substantial Biomechanical Improvement by Extracorporeal Shockwave Therapy After Surgical Repair of Rodent Chronic Rotator Cuff Tears. The American journal of sports medicine\| PubMed ID: 31206305	2019
Motor and sensory Schwann cell phenotype commitment is diminished by extracorporeal shockwave treatment in vitro. Journal of the peripheral nervous system : JPNS\| PubMed ID: 31983073	2020
The course of recovery of locomotor function over a 10-week observation period in a rat model of femoral nerve resection and autograft repair. Brain and behavior\| PubMed ID: 32097542	2020
Evaluation of BMP-2 Minicircle DNA for Enhanced Bone Engineering and Regeneration. Current gene therapy\| PubMed ID: 32338217	2020
Use of the CatWalk gait analysis system to assess functional recovery in rodent models of peripheral nerve injury - a systematic review. Journal of neuroscience methods\| PubMed ID: 32755615	2020
Shock waves promote spinal cord repair via TLR3. JCI insight\| PubMed ID: 32759498	2020