Christian Wende scite author profile

Epidural electrical stimulation (EES) targeting the dorsal roots of lumbosacral segments restored walking in people with spinal cord injury (SCI). However, EES was delivered with multielectrode paddle leads that were originally designed to target the dorsal column of the spinal cord. Here, we hypothesized that an arrangement of electrodes targeting the ensemble of dorsal roots involved in leg and trunk movements would result in superior efficacy, restoring more diverse motor activities after the most severe SCI. To test this hypothesis, we established a computational framework that informed the optimal arrangement of electrodes on a new paddle lead and guided its neurosurgical positioning. We also developed a software supporting the rapid configuration of activity-specific stimulation programs that reproduced the natural activation of motor neurons underlying each activity. We tested these neurotechnologies in three individuals with complete sensorimotor paralysis, as part of an ongoing clinical trial (clinicaltrials.gov, NCT02936453). Within a single day, activity-specific stimulation programs enabled the three individuals to stand, walk, cycle, swim, and control trunk movements. Neurorehabilitation mediated sufficient improvement to restore these activities in community settings, opening a realistic path to support everyday mobility with EES in people with SCI.

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Derivation and Refinement of Textual Syntax for Models

Heidenreich

Johannes

Karol

et al. 2009

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Copper Complexes of N‐Donor Ligands as Artificial Nucleases

2014

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This microreview summarizes recent research in the field of artificial nucleases, in particular those based on copper(II) in an N‐donating ligand environment. This review is divided into three parts describing different ligand classes that have shown promising results in DNA cleavage chemistry: aromatic N‐donors, aliphatic N‐donors, and peptide ligands. Whereas nature has created very efficient nucleases, artificial nucleases aim at different selectivities and higher stability under various conditions. Artificial nucleases based on metal complexes comprise Lewis acidic or redox‐active metal centers allowing for either hydrolytic or oxidative DNA cleavage. The focus of our research and thus also of this microreview is copper, whose CuII ion combines both properties. Depending on the ligand scaffold and reaction conditions, either pathway or even both are thus conceivable. Those different pathways lead to molecular biological and medicinal applications.

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Closing the Gap between Modelling and Java

Heidenreich

Johannes

Seifert

et al. 2010

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The influence of starting particle size and Pt/Ce addition on the microstructure of melt processed bulks

Diko

Wende

Litzkendorf

et al. 1998

Supercond. Sci. Technol.

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Y-Ba-Cu-O melt processed samples were prepared from mixtures of powders (starting average particle size ranging from to ) with and 1 wt% or 1 wt% . The resulting microstructure of the samples was composed of network and low concentration regions with size and morphology correlating with the starting powder size independently of the holding time in the melted state. The 211 particle size was smaller for Ce doped samples than for Pt doped samples. The differences in porosity of Pt and Ce doped samples were related to the changes in the interfacial energy of the constituent phases.

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Christian Wende

Activity-dependent spinal cord neuromodulation rapidly restores trunk and leg motor functions after complete paralysis

Derivation and Refinement of Textual Syntax for Models

Copper Complexes of N‐Donor Ligands as Artificial Nucleases

Closing the Gap between Modelling and Java

The influence of starting particle size and Pt/Ce addition on the microstructure of melt processed bulks

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