Pawlisch B.A., and Remage-Healey, L. (2015) Neuroestrogen signaling in the songbird auditory cortex propagates into a sensorimotor network via an ‘interface’ nucleus. Neuroscience 284:522-35
Chao A.*, Paon, A.P.*, Remage-Healey, L. (2015) Dynamic variation in forebrain estradiol levels during song learning. Developmental Neurobiology 75(3):271-86
Ikeda, M., Rensel MA, Schlinger BA, and Remage-Healey L. (2014) In vivo detection of fluctuating brain steroid levels. Cold Spring Harbor Protocols. (12):1267-72
Remage-Healey, L. and Joshi, N.R.* (2012) Changing Neuroestrogens Within the Auditory Forebrain Rapidly Transform Stimulus Selectivity in a Downstream Sensorimotor Nucleus. Journal of Neuroscience, 32(24):8231-8241.
Remage-Healey, L., Dong, S.M.*, Chao, A., Schlinger, B.A. (2012) Sex-specific, rapid neuroestrogen fluctuations and neurophysiological actions in the songbird auditory forebrain. Journal of Neurophysiology 107(6):1621-31.
Remage-Healey, L. and Joshi, N.R.* (2012) Changing Neuroestrogens Within the Auditory Forebrain Rapidly Transform Stimulus Selectivity in a Downstream Sensorimotor Nucleus. Journal of Neuroscience, 32(24):8231-8241.
Remage-Healey, L., Dong, S.M.*, Chao, A., Schlinger, B.A. (2012) Sex-specific, rapid neuroestrogen fluctuations and neurophysiological actions in the songbird auditory forebrain. Journal of Neurophysiology 107(6):1621-31.
Remage-Healey, L., Maidment, N.T., Dong, S.M.*, and Schlinger, B.A. (2011) Presynaptic control of rapid estrogen fluctuations in the songbird auditory forebrain. Journal of Neuroscience 31(27):10034-8.
Remage-Healey, L., Coleman, M.E., Oyama, R.K.*, and Schlinger B.A. (2010) Brain estrogens rapidly strengthen auditory encoding and guide song preference in a songbird. Proc Natl Acad Sci USA 107(8):3852-7
Remage-Healey, L., Maidment N.T., and Schlinger B.A. (2008) Forebrain steroid levels fluctuate rapidly during social interactions. Nature Neurosci. 11(11):1327-1334
Remage-Healey, L. and Bass A.H. (2007) Plasticity in brain sexuality is revealed by the rapid actions of steroid hormones. J Neurosci. 27(5):1114-1122
*denotes undergraduate author