Bret A. Morrow
Yale University School of Medicine
New Haven
CT 06511
USA
Name/email consistency: high
- Repeated phencyclidine in monkeys results in loss of parvalbumin-containing axo-axonic projections in the prefrontal cortex. Morrow, B.A., Elsworth, J.D., Roth, R.H. Psychopharmacology (Berl.) (2007)
- Prenatal exposure to cocaine is associated with increased number of spine synapses in rat prelimbic cortex. Morrow, B.A., Hajszan, T., Leranth, C., Elsworth, J.D., Roth, R.H. Synapse (2007)
- Prenatal exposure to cocaine selectively disrupts the development of parvalbumin containing local circuit neurons in the medial prefrontal cortex of the rat. Morrow, B.A., Elsworth, J.D., Roth, R.H. Synapse (2005)
- Axo-axonic structures in the medial prefrontal cortex of the rat: reduction by prenatal exposure to cocaine. Morrow, B.A., Elsworth, J.D., Roth, R.H. J. Neurosci. (2003)
- Prenatal cocaine exposure disrupts non-spatial, short-term memory in adolescent and adult male rats. Morrow, B.A., Elsworth, J.D., Roth, R.H. Behav. Brain Res. (2002)
- Male rats exposed to cocaine in utero demonstrate elevated expression of Fos in the prefrontal cortex in response to environment. Morrow, B.A., Elsworth, J.D., Roth, R.H. Neuropsychopharmacology (2002)
- Fear-like biochemical and behavioral responses in rats to the predator odor, TMT, are dependent on the exposure environment. Morrow, B.A., Elsworth, J.D., Roth, R.H. Synapse (2002)
- Prenatal exposure to cocaine reduces the number and enhances reactivity of A10 dopaminergic neurons to environmental stress. Morrow, B.A., Elsworth, J.D., Roth, R.H. Synapse (2001)
- Divergent effects of putative anxiolytics on stress-induced fos expression in the mesoprefrontal system of the rat. Morrow, B.A., Elsworth, J.D., Lee, E.J., Roth, R.H. Synapse (2000)
- The predator odor, TMT, displays a unique, stress-like pattern of dopaminergic and endocrinological activation in the rat. Morrow, B.A., Redmond, A.J., Roth, R.H., Elsworth, J.D. Brain Res. (2000)
- TMT, a predator odor, elevates mesoprefrontal dopamine metabolic activity and disrupts short-term working memory in the rat. Morrow, B.A., Roth, R.H., Elsworth, J.D. Brain Res. Bull. (2000)