WebAug 18, 2024 · A novel promising technology in the field of tissue regeneration is 3D-bioprinting, a technology for precise 3D construction of complex tissues and organs. 3D-bioprinting technology allows the position of cells and biocompatible materials layer by layer, with spatial control of each component location. 3D-bioprinting allows the use of a wide … WebMar 7, 2016 · The gasket design is created using custom MATLAB software and the structures are printed onto 50 × 75-mm glass slides. After printing, the chips are cured at 80 °C in an oven for >1 h and stored at room temperature. ... Bitplane Scientific Software, and ImageJ software. Cell counting is performed using semiautomated native algorithms …
Porous Silicon-Based Biosensors: Towards Real-Time Optical
WebBitplane produces interactive microscopy image-analysis software for the medical and life sciences--a product lineup that goes together well with Andor's high-performance … WebNov 30, 2016 · The fluorescence was quantified by image analysis (performed by Imaris Bitplane scientific software). Figure S1 (Supplementary Information) summarizes the results of these experiments, ... city of magnolia tx etj
Immunofluorescent Staining and High-Resolution Microscopy …
WebSep 10, 2014 · Statistical analysis was performed using a commercially available statistical software package (JMP, version 10.0, USA). The results were expressed as mean ± SD. Statistical differences were assessed using one-way analysis of variance (ANOVA); p<0.05 was considered statistically significant. As confocal microscopes were first becoming commercially available, the founders of Bitplane, Marius Messerli, Karl-Hermann Fuchs, and Jürgen Holm, realised that there was no suitable way to visualize and analyze the images provided by this more modern equipment. While pursuing their research at the Institute for cell Biology at the ETH in Zurich the first productive version of Bitplane's core product, Imaris, was developed. A small community of users developed among t… WebDec 8, 2024 · Acidic organelles, fluorescent bacteria, and galectin-8 puncta were identified using the three-dimensional (3D) surface rendering feature of Imaris (Bitplane Scientific Software). Bacteria were scored as galectin-8 positive if they were located within 2 μm of a galectin-8 surface and as acidified if they were located within a LysoTracker surface. city of magnolia texas fire marshal