Experimental study of the effect of dimethylaminoethanol derivatives on the endurance of laboratory animals

This article presents the results of assessing the effect of course administration of dimethylaminoethanol derivatives in various modes on the static and dynamic endurance of small laboratory animals during training loads. It was found that ketoglutarate has the greatest effect on the static physical endurance of animals, while malate — on the dynamic physical endurance. 

1. Okovitij S.V., Rad’ko S.V. Vliyanie razlichnykh farmakologicheskikh veshchestv na vosstanovlenie fizicheskoy rabotosposobnosti posle nagruzok v eksperimente [The influence of various pharmacological substances on the restoration of physical performance after exercise in the experiment]. Experimental and Clinical Pharmacology. 2018;4:28–32. (In Russian).

2. Sysoev Ju.I., Titovich I.A., Okovitij S.V. Proizvodnye etanolamina kak neyroprotektornye sredstva [Ethanolamine derivatives as neuroprotective agents]. Pharmacy. 2019;1:48–55. (In Russian).

3. Shustov E.B., Karkischenko V.N., Semjonov H.H., et al. Poisk zakonomernostey, opredelyayushchikh antigipoksicheskuyu aktivnost’ soedineniy s nootropnym i neyroprotektornym deystviem [Search for patterns that determine the antihypoxic activity of compounds with nootropic and neuroprotective effects]. Biomeditsina [Journal Biomed]. 2015;1:18–23. (In Russian).

4. He W., Miao F., Lin D., et al. Citric acid cycle intermediates as ligands for orphan G-protein-coupled receptors. Nature. 2004;429:188–193. DOI: 10.1038/nature02488.

5. Malanga G. New insights on dimethylaminoethanol (DMAE) features as a free radical scavenger. Drug Metabolism Letters. 2012;6(1):54–59. DOI: 10.2174/187231212800229282.

6. Oh S., Oliynyk S., Actoprotectors. New class of pharmacological agents. Seoul: Aprerio Publ., 2015:150.

7. Shipkowski K.A., Sanders J.M., McDonald J.D., et al. Comparative disposition of dimethylaminoethanol and choline in rats and mice following oral or intravenous administration. Toxicology and Applied Pharmacology. 2019:51. DOI: 10.1016/j.taap.2019.05.011.