-transparent.png){kind=logo}
A multi-microelectrode culture chamber system was constructed for monitoring simultaneously morphological and electrophysiological development of neural cells in vitro. The setup consisted of a pattern of gold conductor lines evaporated onto a glass substrate and insulated with polyamide. The width of each electrode was 10 microns, and the distance between the electrodes was 60 microns. The electrode patterns were constructed and the uncovering of the electrode tips were carried out by photo-etching. This system allowed us to record spontaneous activities in both explant- and primary monolayer cultures of either rat or mouse spinal cords and forebrains, during neuronal regeneration and maturation.
V Jánossy, and
A Tóth, and
L Bodocs, and
P Imrik, and
E Madarász, and
A Gyévai
April 1994,
Journal of neuroscience methods,
V Jánossy, and
A Tóth, and
L Bodocs, and
P Imrik, and
E Madarász, and
A Gyévai
September 1974,
Medical & biological engineering,
V Jánossy, and
A Tóth, and
L Bodocs, and
P Imrik, and
E Madarász, and
A Gyévai
February 1999,
Journal of neuroscience methods,
V Jánossy, and
A Tóth, and
L Bodocs, and
P Imrik, and
E Madarász, and
A Gyévai
April 2019,
The American journal of tropical medicine and hygiene,
V Jánossy, and
A Tóth, and
L Bodocs, and
P Imrik, and
E Madarász, and
A Gyévai
June 2003,
Journal of neuroscience methods,
V Jánossy, and
A Tóth, and
L Bodocs, and
P Imrik, and
E Madarász, and
A Gyévai
August 2017,
Biomedical microdevices,
V Jánossy, and
A Tóth, and
L Bodocs, and
P Imrik, and
E Madarász, and
A Gyévai
January 2011,
Journal of neuroscience methods,
V Jánossy, and
A Tóth, and
L Bodocs, and
P Imrik, and
E Madarász, and
A Gyévai
June 1998,
Brain research. Brain research protocols,
V Jánossy, and
A Tóth, and
L Bodocs, and
P Imrik, and
E Madarász, and
A Gyévai
January 1970,
Clinical science,
V Jánossy, and
A Tóth, and
L Bodocs, and
P Imrik, and
E Madarász, and
A Gyévai
January 2017,
3D printing in medicine,
