Abstract
Background
Clinical neurosurgery deals with surgical procedures and intensive care of illnesses in the human central and peripheral nervous system. Neurosurgery should be looked upon as a high-tech specialty and very much dependent on new technological innovations aiming at improvements of patient's treatment and outcome. During the last decades neurosurgery has improved substantially thanks to the introduction of applied imaging technologies such as computerized tomography and magnetic resonance tomography, and new surgical modalities such as the microscope, brain navigation and neuroanesthesiology.
Neurosurgical disorders, which should have the potential to benefit from conductive organic bioelectrodes, include traumatic brain and spinal cord injury and peripheral nerve injuries due to external violence in the restoration of healthy communication. This holds true also for cerebral nerves altered in their functions due to benign and malignant brain and spinal cord tumors. Further, new innovative devices in the field of functional nervous tissue disorders make the use of organic conductive electrodes attractive by considering the electrical neurochemical properties of neural interfaces.