Cocaine Addiction Clinical Trial
Official title:
Neurobiological Adaptations and Pharmacological Interventions in Cocaine Addiction: The Role of Glutamate
This study aims at testing for the impact of glutamatergic changes on drug craving in cocaine addiction, and to evaluate the effects of n-acetylcysteine (n-AC) on both glutamate homeostasis and craving using a randomized, double-blind, placebo controlled cross-over design.
Cocaine addiction is a devastating disorder with potentially harmful psychological, physical
and social consequences. Despite its clinical importance, there is currently no approved
pharmacological treatment available for cocaine addiction. However, preclinical research has
recently identified potentially promising targets for pharmacotherapeutic approaches mainly
based on advances in the understanding of neuroplastic alterations associated with repeated
cocaine administration in animals.
Preclinical animal models revealed that chronic administration of cocaine leads to decreased
basal levels of glutamate within the nucleus accumbens a key region of the neural reward
circuitry; in turn, the reinstatement of drug seeking results in enhanced glutamatergic
transmission. However, little is known about similar changes in humans, and about their
functional role for addictive behavior, mainly due to methodological restrictions. The
investigators thus aim to examine the changes associated with chronic cocaine use on
glutamate homeostasis in humans using a newly developed proton magnetic resonance
spectroscopy (1H-MRS) protocol. This method allows for the quantification of brain
metabolites such as glutamate in specific regions of the human brain even within small
subcortical volumes of interest such as the nucleus accumbens that have been hitherto
difficult to assess.
Interestingly, the administration of n-AC restored the glutamate homeostasis in rats and
reduced their drug reinstatement behavior. Therefore, the present study aims at
investigating if a pharmacological challenge of n-AC influences glutamate homeostasis in
humans and whether these possible modulations are linked to cocaine craving.
Power analyses to identify the sample size of this study, were done with a focus on 1H-MRS,
the most critical procedure in this context within our project. Assuming a mean conservative
effect size of d=0.80, an α-error probability of 5%, and a conservative power estimation of
80% and considering a drop-out rate of about 30%, investigators plan to measure 30 cocaine
dependent patients and 30 healthy controls.
Imaging data of low quality (e.g. due to movement artifacts) will be excluded. If imaging
data has to be excluded or if participants do not finish the experiment, the investigators
will additionally recruit more participants in order to assess the planned sample size.
Throughout the duration of the entire study, the conductance of pre-defined key processes
will constantly be monitored by an independent monitor in specified visit intervals to
ensure that the study is conducted in accordance with the approved protocol, good clinical
practice, and the applicable regulatory requirement in order to protect the rights and
well-being of study participants and integrity of data.
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