Your search keyword '"Charli Kruse"' showing total 2 results

1. A simple implantation method for flexible, multisite microelectrodes into rat brains

Author

Andreas Moser, S. Löffler, Schumacher A, Anja Richter, Robert D. Kirch, Daniel H. Rapoport, Tronnier, Ulrich G. Hofmann, Sandra Danner, Yijing Xie, Al-Hasani J, Charli Kruse, and Publica

Subjects

microprobes, Flexibility (anatomy), business.industry, brain, Biomedical Engineering, Biophysics, Neuroscience (miscellaneous), Brain tissue, neuroelectrophysiology, Coupling (electronics), Subthalamic nucleus, Microelectrode, Brain implant, medicine.anatomical_structure, flexible device, Methods Article, Medicine, implantation, rat, Implant, deep brain, business, Neuroscience

Abstract

A long term functional and reliable coupling between neural tissue and implanted microelectrodes is the key issue in acquiring neural electrophysiological signals or therapeutically excite neural tissue. The currently often used rigid micro-electrodes are thought to cause a severe foreign body reaction resulting in a thick glial scar and consequently a poor tissue-electrode coupling in the chronic phase. We hypothesize, that this adverse effect might be remedied by probes compliant to the soft brain tissue, i.e., replacing rigid electrodes by flexible ones. Unfortunately, this flexibility comes at the price of a low stiffness, which makes targeted low trauma implantation very challenging. In this study, we demonstrate an adaptable and simple method to implant extremely flexible microprobes even to deep areas of rat's brain. Implantation of flexible probes is achieved by rod supported stereotactic insertion fostered by a hydrogel (2% agarose in PBS) cushion on the exposed skull. We were thus able to implant very flexible micro-probes in 70 rats as deep as the rodent's subthalamic nucleus. This work describes in detail the procedures and steps needed for minimal invasive, but reliable implantation of flexible probes.

Published

2013

2. Cellular modulation of polymeric device surfaces: promise of adult stem cells for neuroprosthetics

Author

Sandra Danner, Andreas Moser, Ulrich G. Hofmann, Charli Kruse, Anja Richter, and Publica

Subjects

Cell type, Fibrin, Biocompatibility, General Neuroscience, Neural Prosthesis, Context (language use), Germ layer, Biology, lcsh:RC321-571, stem cell, medicine.anatomical_structure, Neuropil, medicine, Implant, Gliosis, Foreign body response, Stem cell, Neuroscience, surface modification, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Adult stem cell, Biomedical engineering, Original Research, Polyimide

Abstract

Minimizing the foreign body response is seen as one critical research strategy for implants especially when designed for immune-privileged organs like the brain. The context of this work is to improve deep brain stimulating devices used in a consistently growing spectrum of psychomotor and psychiatric diseases mainly in form of stiff electrodes. Based on the compliance match hypothesis of biocompatibility we present another step forward using flexible implant materials covered with brain cell-mimicking layers. We covered two types of flexible polyimide films with glandular stem cells derived from pancreatic acini. Using real time-PCR and fluorescent immunocytochemistry we analyzed markers representing various cell types of all three germ layers and stemness. The results demonstrate an unchanged differentiation potential of the polyimide fixated cells as measured by mRNA and protein level. Additionally we developed a fibrinous hydrogel coating to protect them against she ar forces upon eventual implantation. By repeating previous analysis and additional metabolism tests for all stages we corroborate the validity of this improvement. Consequently we assume that a stem cell-containing cover may provide a native, fully and actively integrating brain-mimicking interface to the neuropil.

Published

2011