Glycine 1.5% / Ethanol 1% irrigation solution 3litre bottles
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SNOMED CT and dm+d codes from NHS TRUD (Technology Reference data Update Distribution), licensed under the Open Government Licence v3.0. BNF code shown is the factual mapping value distributed by NHS Business Services Authority (NHSBSA) in the dm+d supplementary file under OGL v3.0; it is not affiliated with, nor licensed from, the publishers of the British National Formulary.
Active and completed clinical studies from ClinicalTrials.gov
Source: ClinicalTrials.gov, a database of the U.S. National Library of Medicine (NLM), National Institutes of Health (NIH). Data accessed via ClinicalTrials.gov API v2. Trial information is provided for research purposes and does not constitute medical advice.
Academic studies and reviews for this medicine's active substance
Showing all 22 studies.
Reviews & meta-analyses: 2 · 1971–2026
Showing all 22 studies, sorted by most relevant.
Y. Nozaki, C. Tanford
The Journal of biological chemistry, 1971
James J. Celentano, Terrell T. Gibbs, David H. Farb
Brain Research, 1988
- Ethanol
- Azides
- Benzodiazepines
B. Söderpalm, H. Lidö, M. Ericson
Alcoholism, clinical and experimental research, 2017
- Acamprosate
- Alcohol Drinking
- Ethanol
S.John Mihic
Neurochemistry International, 1999
- Ethanol
- Neurons
- Receptors, GABA-A
T. Usacheva, L. Pham Thi, K. Kuzmina, et al.
Journal of Thermal Analysis and Calorimetry, 2017
T. Mirshahi, J.J. Woodward
Neuropharmacology, 1995
- Ethanol
- Calcium
- Electrophysiology
Yangping Zhang, Fei Gao, Pingping Song, et al.
ACS Sustainable Chemistry & Engineering, 2019
F. Amin, S. Shah, M. Kim
Neurochemistry international, 2016
- Ethanol
- Animals, Newborn
- Brain
A. Loftén, L. Adermark, M. Ericson, et al.
Addiction Biology, 2023
- Strychnine
- Receptors, Glycine
- Ethanol
Alcohol use disorder is one of the major psychiatric disorders worldwide, and there are many factors and effects contributing to the disorder, for example, the experience of ethanol reward. The rewarding and reinforcing properties of ethanol have been linked to activation of the mesolimbic dopamine system, an effect that appears to involve glycine receptors (GlyRs) in the nucleus accumbens. On which neuronal subtypes these receptors are located is, however, not known. The aim of this study was to explore the role of GlyRs on cholinergic interneurons (CIN) in sustaining extracellular dopamine levels and in ethanol-induced dopamine release. To this end, CIN were ablated by anti-choline acetyltransferase-saporin administered locally in the nucleus accumbens of male Wistar rats. Changes in dopamine levels induced by ablation, ethanol and/or a GlyR antagonist were monitored using in vivo microdialysis. The GlyRs antagonist strychnine depressed extracellular dopamine in a similar manner independent on local ablation, suggesting that GlyRs on CIN are not important for sustaining the extracellular dopamine tone. However, a low concentration of strychnine hampered ethanol-induced dopamine release in sham-treated animals, whilst no reduction was seen in ablated animals, suggesting that GlyRs located on CIN are involved in ethanol-induced dopamine release. Further, in ablated rats, ethanol-induced increases of the extracellular levels of the GlyR agonists glycine and taurine were attenuated. In conclusion, this study suggests that CIN are not important for GlyR-mediated regulation of basal dopamine output, but that CIN ablation blunts the ethanol-induced dopamine release, putatively by reducing the release of GlyR agonists.
Abstract licence: CC BY-NC
Ju-Hyeon Park, Gyo-Nam Kim
Journal of the East Asian Society of Dietary Life, 2023
Sources: aggregated from Europe PMC (EMBL-EBI), OpenAlex, Crossref, PubMed and other open scholarly databases. Retracted articles are excluded. Study information is provided for research purposes and does not constitute medical advice.
Scientific data (pharmacology, interactions, ADME) is not yet available for this medicine. Clinical sections are sourced from the NHS dm+d database.