Spinal Cord Injury

Investigation of regenerative effects of CRISPR/Cas9 functionalized piezoelectric nerve conduits on in vitro and in vivo spinal cord injury models. Principal investigator: M-ERA-NET PIESCRISCI Project funded by the European Union, 2022- Present. Project coordinator: Assoc. Prof. Aylin Sendemir.

Functional stimulation system for rehabilitation of gait and driving neural plasticity after spinal cord injury using graphene-based nerve electrodes. Co-investigator: FLAG-ERA Joint Transnational Call (JTC) 2021 Project funded by the European Union, 2021- Present. In collaboration with Prof. Burak Güçlü, Boğaziçi University.

Demonstration of propriospinal connections and their neurochemical properties following spinal cord injury using a 3D visualization technique. Principal investigator: The Scientific and Technological Research Council of Turkey (TUBITAK-1001) Grant. SBAG 114S405. 2015-2018.

The role of nitric oxide following spinal cord injury in rats with and without embryonic neuronal stem cell transplantation. Co-investigator: The Scientific and Technological Research Council of Turkey (TUBITAK) Grant, 2006- 2009.

The role of nitric oxide following spinal cord injury in rats with and without embryonic neuronal stem cell transplantation. Principal Investigator: The Scientific and Technological Research Council of Turkey (TUBITAK) Grant. 2006-2009.

The role of nitric oxide following spinal cord injury in rats. Principal Investigator: Ege University Center for Science and Technology (EBILTEM) Grant. 2006-2008.

The effect of hyperbaric oxygen therapy on fos expression in rat spinal cord neurons following spinal cord injury.
Keser A, Ertürk M, Dağcı T, Aydın F, Şengül G. Journal of Neurological Sciences [Turkish] 32(4): 680-689, 2015. [Link to paper]

The effect of hyperbaric oxygen on neuroregeneration following acute thoracic spinal cord injury.
Dayan K, Keser A, Konyalioglu S, Erturk M, Aydin F, Sengul G, Dagci T. Life Sci Feb 27;90(9-10):360-4, 2012. [Link to paper]

NADPH-d and Fos reactivity in the rat spinal cord following experimental spinal cord injury and embryonic neural stem cell transplantation.
Dagci T, Sengul G, Keser A, Onal A. Life Sciences 88; 746-52, 2011. [Link to paper]

Effects of embryonic neural stem cell transplantation on DNA damage on the brain and spinal cord following spinal cord injury.
Dagci T, Konyalioglu S, Keser A, Kayalioglu G. Neurophysiology 41; 409-415, 2009. [Link to paper]