Julia Herold

TL;DR: The software approach presented in this study provides a reliable basis for high throughput quantification of synapses in neural tissue and works with high accuracy for fully automated synapse detection in new sample images.

TL;DR: This paper presents a system that combines image segmentation and information visualization principles for an integrated analysis of fluorescence micrographs of tissue samples and shows that using this system the images can be evaluated with high accuracy which allows a considerable speed up of the time-consuming evaluation process.

TL;DR: A machine learning based method is proposed that allows a direct integration of the experts' visual expertise who tag a low number of referential synapses according to their degree of synapse likeness and can provide an intuitively tunable tool for neural tissue slide evaluation.

TL;DR: It is demonstrated that beta cell regeneration in adult mice depends on re-expression of IGF-II, and supports the utility of using such ablation-recovery models for identifying other potential factors critical for underpinning successful beta cell Regeneration in vivo.