Blar i NTNU Open på forfatter "Bauer, Ulrich Stefan"
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Advanced cellular models for the recapitulation and study of neuropathology
Bauer, Ulrich Stefan (Doctoral theses at NTNU;2022:225, Doctoral thesis, 2022) -
Isolation and comparison of neural stem cells from the adult rat brain and spinal cord canonical neurogenic niches
Schiro, Lars Erik; Bauer, Ulrich Stefan; Sandvig, Axel; Sandvig, Ioanna (Peer reviewed; Journal article, 2022)Here, we present a unified protocol for the extraction, culture, and basic characterization of rat neural stem cells (NSCs) from all three canonical neurogenic niches in the brain and spinal cord. We describe tissue ... -
Structuring a multi-nodal neural network in vitro within a novel design microfluidic chip
van de Wijdeven, Rosanne; Huse Ramstad, Ola; Bauer, Ulrich Stefan; Halaas, Øyvind; Sandvig, Axel; Sandvig, Ioanna (Journal article; Peer reviewed, 2018)Neural network formation is a complex process involving axon outgrowth and guidance. Axon guidance is facilitated by structural and molecular cues from the surrounding microenvironment. Micro-fabrication techniques can be ... -
Towards Making a Cyborg: A Closed-Loop Reservoir-Neuro System
Aaser, Peter; Knudsen, Martinius; Huse Ramstad, Ola; van de Wijdeven, Rosanne; Nichele, Stefano; Sandvig, Ioanna; Tufte, Gunnar; Bauer, Ulrich Stefan; Halaas, Øyvind; Hendseth, Sverre; Sandvig, Axel; Valderhaug, Vibeke Devold (Chapter; Peer reviewed, 2017)The human brain is a remarkable computing machine, i.e. vastly parallel, self-organizing, robust, and energy efficient. To gain a better understanding into how the brain works, a cyborg (cybernetic organism, a combination ... -
Validation of Functional Connectivity of Engineered Neuromuscular Junction With Recombinant Monosynaptic Pseudotyped ΔG-Rabies Virus Tracing
Bauer, Ulrich Stefan; Fiskum, Vegard; Nair Raveendran, Rajeevkumar; Wijdeven, Rosanne Francisca van de; Kentros, Clifford; Sandvig, Ioanna; Sandvig, Axel (Peer reviewed; Journal article, 2022)Current preclinical models of neurodegenerative disease, such as amyotrophic lateral sclerosis (ALS), can significantly benefit from in vitro neuroengineering approaches that enable the selective study and manipulation of ...