Lisa Riedel

TL;DR: A minimalist serum-free defined system to co-culture rat mammalian nerve and muscle cells in order to form functional neuromuscular junctions provides a basic system that can be utilized for nerve-muscle tissue engineering, regenerative medicine and development of limb prosthetics.

TL;DR: An in vitro cell culture model consisting of a novel serum-free medium and a non-biological growth substrate, N-1[3 (trimethoxysilyl) propyl] diethylenetriamine (DETA), to enable functional myotube integration with cantilevers fabricated using MEMS technology is developed.

TL;DR: This study reports on the development of a defined system (artificial surface, serum-free medium combination, consistent cell preparation), which promotes the differentiation and long-term survival of rat embryonic cardiomyocytes, and provides a test-bed for the long- term evaluation of soluble compounds such as toxins and drug candidates in adefined system.

TL;DR: A culture system that promotes the growth and long-term survival of dissociated adult rat spinal cord neurons is documented and could be a useful tool for the study of adult mammalian spinal neurons in a functional in vitro system.