Seewoo, BJ, Etherington SJ, Feindel K, Rodger J. Frequency-specific effects of low-intensity rTMS can persist for up to 2 weeks post-stimulation: A longitudinal rs-fMRI/MRS study in rats. Brain Stimulation. 2019.

Wijeratne, D., Rodger, J., Stevenson, A., Wallace, H., Prêle, C.M. et al. ‘Ephrin-A2 affects wound healing and scarring in a murine model of excisional injury.’ 2018, Burns: journal of the International Society for Burn Injuries, doi:10.1016/j.burns.2018.10.002.

Poh, E.Z., Makowiecki, K., Harvey, A.R., Rodger, J. Engaging in a visual learning task during LI-rTMS does not induce beneficial reorganisation of visual circuitry and modulates behaviour in ephtin-A2A5-/- mice. 2018, eNeuro, 5(1): 0163-17

Seewoo, B.J., Etherington, S.J., Feindel, K.W., Rodger, J. Combined rTMS/fMRI studies: an overlooked resource in animal models. 2018, Frontiers in Neuroscience 12:180. doi: 10.3389/fnins.2018.00180

Beros, J., Rodger, J., Harvey, A.R. Developmental retinal ganglion cell death and retinotopicity of the murine retinocollicular projection. Dec. 2018, Neurobiol, 78:51-60

Downs, J., Rodger, J., Li, C., Tan, X., Hu, N., Wong, K., de Klerk, N., Leonard, H. Environmental enrichment intervention for Rett syndrome: an individually randomised stepped wedge trial. 2018, Orphanet Journal of Rare Diseases, 13(1):3.

Makowiecki, K., Garrett, A., Harvey, A.R., Rodger, J. Low-intensity repetitive transcranial magnetic stimulation requires concurrent visual system activity to modulate visual evoked potentials in adult mice. 2018, Sci. Rep 8: 5792

Seewoo, B.J., Feindel, K.W., Etherington, S.J., Rodger, J. Resting-state fMRI study of brain activation using low-intensity repetitive transcranial magnetic stimulation in rats. 2018, Scientific Reports 8(1):6706. doi: 10.1038/s41598-018-24951-6

Tang, A.D., Bennett, W., Hadrill, C., Collins, J., Fulopova, B., Wills, K., Bindoff, A., Puri, R., Garry, M.I., Hinder, M.R., Summers, J.J., Rodger, J., Canty, A.J. Low intensity repetitive transcranial magnetic stimulation modulates skilled motor learning in adult mice. 2018, Scientific Reports, doi:10.1038/s41598-018-22385-8.

Heath, E., Lindberg, D.R., Makowiecki, K., Gray, A., Asp, A.J., Rodger, J,*, Choi, D.S.*, Medium- and High-Intensity rTMS Reduces Psychomotor Agitation with Distinct Neurobiologic Mechanisms. Croarkin, P.E.*. 2018, Translational Psychiatry. 8(1):126. doi: 10.1038/s41398-018-0129-3. * indicates equal contribution.