Bertha Madras
Affiliations: | Harvard Medical School, Boston, MA, United States |
Area:
PsychobiologyWebsite:
http://www.hms.harvard.edu/Academy/academy/members.html#mGoogle:
"Bertha Madras"Bio:
http://en.wikipedia.org/wiki/Bertha_Madras
http://connects.catalyst.harvard.edu/profiles/profile/person/2567
http://www.linkedin.com/pub/professor-bertha-k-madras/13/175/793
Mean distance: 14.13 (cluster 6) | S | N | B | C | P |
Parents
Sign in to add mentor| Theodore Lionel Sourkes | grad student | 1967 | McGill (Chemistry Tree) |
| Richard J. Wurtman | post-doc | MIT |
Children
Sign in to add trainee| Martin Goulet | post-doc | Harvard | |
| Marc J. Kaufman | post-doc | Harvard Medical School | |
| Gregory M. Miller | post-doc | Harvard Medical School | |
| Christopher D. Verrico | post-doc | Harvard Medical School | |
| Richard De La Garza, II | post-doc | 1996-1999 | Harvard Medical School |
| Amy Jassen Turncliff | post-doc | 2003-2005 | Harvard Medical School |
| Sarah L. Withey | post-doc | 2017-2019 | Harvard Medical School |
Collaborators
Sign in to add collaborator| Zhicheng Lin | collaborator | 2005-2006 | Harvard Medical School |
BETA: Related publications
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Publications
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| Di Raddo ME, Milenkovic M, Sivasubramanian M, et al. (2023) Δ9-Tetrahydrocannabinol does not upregulate an aversive dopamine receptor mechanism in adolescent brain unlike in adults. Current Research in Neurobiology. 5: 100107 |
| Withey SL, Kangas BD, Charles S, et al. (2021) Effects of daily Δ-Tetrahydrocannabinol (THC) alone or combined with cannabidiol (CBD) on cognition-based behavior and activity in adolescent nonhuman primates. Drug and Alcohol Dependence. 221: 108629 |
| Hasbi A, Sivasubramanian M, Milenkovic M, et al. (2020) Dopamine D1-D2 receptor heteromer expression in key brain regions of rat and higher species: Upregulation in rat striatum after cocaine administration. Neurobiology of Disease. 105017 |
| Withey SL, Bergman J, Huestis MA, et al. (2020) THC and CBD blood and brain concentrations following daily administration to adolescent primates. Drug and Alcohol Dependence. 213: 108129 |
| Withey SL, Eisold JE, Chelini G, et al. (2020) Behavioral and Molecular Effects of THC and CBD in Adolescent Nonhuman Primates The Faseb Journal. 34: 1-1 |
| Hasbi A, Madras BK, Bergman J, et al. (2019) Δ-Tetrahydrocannabinol Increases Dopamine D1-D2 Receptor Heteromer and Elicits Phenotypic Reprogramming in Adult Primate Striatal Neurons. Iscience. 23: 100794 |
| Madras BK, Fischman AJ, Meltzer PC, et al. (2015) Drug scheduling of stimulants: Dopamine transporter effects, brain occupancy and abuse liability Drug and Alcohol Dependence. 156: e138 |
| Madras BK, Zimmer J, Ogawa LM, et al. (2015) THC (Δ9-tetrahydrocannabinol) elicits persistent changes in expression of genes implicated in adolescent neurodevelopment Drug and Alcohol Dependence. 146: e190 |
| Madras BK, Vallender EJ, Walsh T, et al. (2014) Dopamine systems in adolescent and adult brain respond differently to methamphetamine Drug and Alcohol Dependence. 140: e131 |
| Miller GM, Madras BK, Xie Z. (2013) Trace Amine Associated Receptor 1 is a Catecholamine Receptor that Differentially Controls DAT and NET Internalization Catecholamine Research in the 21st Century: Abstracts and Graphical Abstracts, 10th International Catecholamine Symposium, 2012. 48 |