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The use of neuromodulation techniques for the treatment of alcohol use disorder is receiving increasing attention, especially non-invasive approaches, such as repetitive transcranial magnetic stimulation or transcranial direct current stimulation, while the hypothetical use of electroconvulsive therapy remains unexplored. Given our experience inducing electroconvulsive seizures (ECS) for therapeutic purposes in psychopathology rodent models, we evaluated the role of ECS on reducing the increased voluntary ethanol consumption caused by adolescent ethanol exposure in our validated preclinical model. Rats were treated in adolescence with a binge paradigm of ethanol (2 g/kg, i.p.; 3 rounds of 2 days at 48-h intervals; post-natal day, PND 29-30, PND 33-34 and PND 37-38) or saline. Following persistent withdrawal until adulthood, rats were allowed to: voluntarily drink ethanol (20%) by a two-bottle choice test, for 3 days (PND 80-82); treated with ECS (95 mA for 0.6 s, 100 Hz, pulse width 0.6 ms; ear-clip electrodes) or SHAM for 5 days (PND 86-90); re-exposed to voluntarily ethanol exposure (PND 94-96). Brains were collected on PND 97 to evaluate hippocampal markers of ethanol toxicity and/or treatment response (e.g., NeuroD, NF-L, BDNF and NF-L/BDNF ratio). Our results reproduced the increased voluntary ethanol consumption in adult rats induced by adolescent ethanol exposure and demonstrated that ECS could improve this abuse-prone response. Moreover, we suggested a possible role for BDNF in the beneficial effects induced by ECS, especially reducing the neurotoxic ratio NF-L/BDNF. Overall, we provide preclinical evidence for the potential use of ECS as an efficacious treatment for alcohol use disorder.