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Vardit Rubovitch

Department of Anatomy and Anthropology, Tel-Aviv University Sackler Faculty of Medicine, Israel.

2 papers in the library · 66 citations · publishing 2011-2019

Papers

The intriguing effects of ecstasy (MDMA) on cognitive function in mice subjected to a minimal traumatic brain injury (mTBI).

Psychopharmacology April 1, 2011 Shahaf Edut, Vardit Rubovitch, Shaul Schreiber et al. 36 citations

A single dose of MDMA given to mice before a mild traumatic brain injury did not worsen cognitive deficits and instead appeared to improve visual and spatial memory. Mice that received MDMA before injury performed better on cognitive tests than injured mice without the drug. The drug reversed injury-related decreases in tyrosine hydroxylase, an enzyme important for dopamine production, which may explain the cognitive improvements. The IGF-1R signaling pathway was activated but was not the main cause of the benefit.

Functional effects of synthetic cannabinoids versus Δ9 -THC in mice on body temperature, nociceptive threshold, anxiety, cognition, locomotor/exploratory parameters and depression.

Addiction biology May 1, 2019 Shaul Schreiber, Miaad Bader, Tatiana Lenchinski et al. 30 citations

Three synthetic cannabinoids (AB-FUBINACA, AB-CHMINACA, PB-22) and Δ9-THC all caused hypothermia and reduced anxiety, spatial memory, and exploratory behavior in adult ICR mice. Only Δ9-THC produced clear pain relief. Unlike Δ9-THC, all synthetic cannabinoids decreased locomotor activity. AB-FUBINACA and Δ9-THC impaired balance and grip strength. PB-22 increased depression-like behavior, while AB-FUBINACA reduced it. The findings indicate varied effects among synthetic cannabinoids and Δ9-THC.