The use of nanotechnologies (titanium nano scaffolds) for the delivery of drugs and stem cells in the treatment of spinal cord injury offers greater effectiveness compared to traditional methods of administration. Nanotechnologies can be applied directly to the lesion or delivered intravenously. The drug effects have a longer duration and greater neuroprotection (recovery of neurons and glial cells, in addition to the formation of a protective microenvironment).
The use of nanotechnologies (titanium nano scaffolds) for the delivery of drugs and stem cells in the treatment of spinal cord injury offers greater effectiveness compared to traditional methods of administration. Nanotechnologies can be applied directly to the lesion or delivered intravenously. The drug effects have a longer duration and greater neuroprotection (recovery of neurons and glial cells, in addition to the formation of a protective microenvironment).
9th International Symposium on Experimental and Clinical Spinal Cord Repair and Regeneration
Stato della ricerca sul trattamento delle lesioni del midollo spinale
Fondazione Brunelli: finalità e attività operative
Capabilities of the human lumbar cord and "spinal brain"
Nanodelivery of drugs in spinal cord injury and neuroprotection
Music and the Mind
I contenuti del IX Simposio Internazionale sulle neuroscienze
Epigenetic drugs: any chance of success in neuro-rehabilitation?
Farmaci epigenetici anti-neurodegenerativi: quale uso nella riabilitazione?
External modulation of electrical stimulated spinal reflexes
An experimental study on nerve grafting of the cauda equina
Microsurgical by-pass in traumatic spinal cord injuries
Spinal cord plasticity induced by peripheral nerve grafting in rats
Creating mind networks for knowledge and action
Connettere le menti in rete per la conoscenza e la progettazione
