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The focus of the Norman Laboratory is translational research to develop medications for the treatment of cocaine abuse.
Drug self-administration by animals is a valid model of human addictive behavior. It has long been considered axiomatic that drugs of abuse are self-administered because of their pleasurable (hedonic or euphoric) effects, which in turn makes these drugs positively reinforcing. Unfortunately, these assumptions result in well-known paradoxes and the idea that reinforcement plays any significant role in maintained self-administration behavior is of limited utility.
The Norman laboratory has developed a quantitative pharmacological theory of self-administration behavior in which cocaine-induced responding occurs only while drug concentrations are within a specific range. The core of our model of the maintenance phase of drug self-administration is the equation: T=ln(1+DU/DST)·t1/2/ln2, which defines the inter-injection intervals (T) in terms of only three parameters: the unit dose of cocaine (DU), the elimination half-life of cocaine (t1/2) and the satiety threshold (DST). This latter parameter is defined as the highest concentration of drug at which self-administration occurs. This simple model is the first to successfully define a seemingly complex behavior in terms of purely physical parameters.
This pharmacological paradigm represents a scientifically rigorous foundation for generating testable hypotheses about the biological basis of addictive behavior. More importantly, it provides a rational basis for the development of medications for drug addiction. To this end an active collaboration with Dr. Jim Ball, in the Department of Pharmacology, has developed a human anti-cocaine monoclonal antibody as a pharmacokinetic antagonist of cocaine, which is intended as an immunotherapy to prevent relapse in cocaine abusers.
The Norman lab is also using drug self-administration behavior as a bioassay system to measure the absolute pharmacodynamic and pharmacokinetic potencies of receptor antagonists as a basis for developing antagonist based pharmacotherapies.
Principal Investigator
Andrew B. Norman, Ph.D
Current Research Associates
Chris Crutchfield, Ph.D, HCLD(ABB), DABCC
Terry Kirley, PhD
Vladimir Tsibulsky, Ph.D
Rose Webster, Ph.D
Staff
Julie Baker Nolan (Senior Research Clinical Professional)
Richa Mishra, MS (Program Coordinator)
Hanna Wetzel, Ph.D (Visiting Scholar)
Current Pharmacology Ph.D Graduate Students
Jordan A. Marckel (2016-current)
Dakota B. Zinani (2018-current)
Current Pharmacology Masters Students
Brian Johns
Student Workers
Zhen-Hin E. Chan (Undergraduate Research Assistant)
MacKenzie Turner (Undergraduate Research Assistant)
Ph.D
2017. Hanna N Wetzel
1991. Lindy M. Wyatt, MD
1990. Sunny Y. Lu, MD
Masters
2019. Daniel Antwi
2019. Akesa M-Ariba
2018. Celeste Dourson
2017. Andrew Ray
2017. Nikita Mungali
2017. Sean Dibert
2016. Rithvik Venna
2015. Emily Sparks
2013. Felicia CT Gooden
1999. James Hall
Vladimir L. Tsibulsky, Ph.D (1997-2002)
Asad D. Dalia, MD,Ph.D (1996-1999)
Sunny Y. Lu, MD, Ph.D (1990-1993)
Ellen M. Weissman, MD (1988)
Stephen F. Calderon, MD (186-1987)
2016. Brianna L. Bauer. ASPET SURF Fellowship. ASPET Travel Award
2015. Randy Verduguez. ASPET SURF Fellowship. ASPET Travel Award
2014. Thao M. Nguyen. STARS program
2013. Danielle Zajac. UC College of Medicine RGE SURF Fellowship
2013. Kellie Edwards. ASPET SURF Fellowship. ASPET Travel Award
2012. Hanna Dasenbrock. ASPET SURF Fellowship. ASPET Travel Award
2009. Brittney Fey. ASPET SURF Fellowship
2007. Douglas Laurain. SURF Fellowship
1994. John Gannum
1993. Jennifer M. Klug
1991. Michelle Huber
1991. Karl J. Bertram
1989. Elizabeth Shurte
1988. Ali Moayed
1988. Thomas J. Wachendorf
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College of Medicine231 Albert Sabin WayCincinnati, OH 45267-0575