The protective effects of natural polyphenolic complexes of grape wine on organisms exposed to oxidative and nitrosative stress under diabetes mellitus

Andrew R. Hnatush; Victor R. Drel; Natalia O. Hanay; Anatolij Ya Yalaneckyy; Volodymyr I. Mizin; Natalia O. Sybirna

doi:10.1007/978-94-007-6513-9_12

The protective effects of natural polyphenolic complexes of grape wine on organisms exposed to oxidative and nitrosative stress under diabetes mellitus

Andrew R. Hnatush
, Victor R. Drel
, Natalia O. Hanay
, Anatolij Ya Yalaneckyy
, Volodymyr I. Mizin
, Natalia O. Sybirna

Producción científica: Conference contribution

2 Citas (Scopus)

Resumen

Peripheral nerve damage is a significant complication of diabetes mellitus. The ingestion of polyphenols available naturally in a variety of plant products may provide impressive protection against such damage. The natural polyphenol complex of grape wine has a significant anti-diabetic effect. It can protect against dehydration at the level of the whole organism and deter free radical-induced damage to the sciatic nerve, the spinal cord, kidney and retina. The levels of nitrosylated and PARylated proteins can be restored to near control levels by the extract. The biochemical mechanisms of action of the natural polyphenol complex of grape wine require further research, but may be considered as a valuable therapeutic approach for the treatment of diabetic complications.

Idioma original	English (US)
Título de la publicación alojada	Advanced Bioactive Compounds Countering the Effects of Radiological, Chemical and Biological Agents
Subtítulo de la publicación alojada	Strategies to Counter Biological Damage
Editores	Grant Pierce, Volodymyr Mizin, Alexander Omelchenko
Páginas	145-162
Número de páginas	18
DOI	https://doi.org/10.1007/978-94-007-6513-9_12
Estado	Published - 2013
Publicado de forma externa	Sí

Serie de la publicación

Nombre	NATO Science for Peace and Security Series A: Chemistry and Biology
ISSN (versión impresa)	1874-6489

ASJC Scopus subject areas

General Chemistry
Biochemistry, Genetics and Molecular Biology (miscellaneous)
Safety, Risk, Reliability and Quality

Acceder al documento

10.1007/978-94-007-6513-9_12

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Hnatush, A. R., Drel, V. R., Hanay, N. O., Yalaneckyy, A. Y., Mizin, V. I., & Sybirna, N. O. (2013). The protective effects of natural polyphenolic complexes of grape wine on organisms exposed to oxidative and nitrosative stress under diabetes mellitus. En G. Pierce, V. Mizin, & A. Omelchenko (Eds.), Advanced Bioactive Compounds Countering the Effects of Radiological, Chemical and Biological Agents: Strategies to Counter Biological Damage (pp. 145-162). (NATO Science for Peace and Security Series A: Chemistry and Biology). https://doi.org/10.1007/978-94-007-6513-9_12

The protective effects of natural polyphenolic complexes of grape wine on organisms exposed to oxidative and nitrosative stress under diabetes mellitus. / Hnatush, Andrew R.; Drel, Victor R.; Hanay, Natalia O. et al.
Advanced Bioactive Compounds Countering the Effects of Radiological, Chemical and Biological Agents: Strategies to Counter Biological Damage. ed. / Grant Pierce; Volodymyr Mizin; Alexander Omelchenko. 2013. p. 145-162 (NATO Science for Peace and Security Series A: Chemistry and Biology).

Producción científica: Conference contribution

Hnatush, AR, Drel, VR, Hanay, NO, Yalaneckyy, AY, Mizin, VI & Sybirna, NO 2013, The protective effects of natural polyphenolic complexes of grape wine on organisms exposed to oxidative and nitrosative stress under diabetes mellitus. En G Pierce, V Mizin & A Omelchenko (eds.), Advanced Bioactive Compounds Countering the Effects of Radiological, Chemical and Biological Agents: Strategies to Counter Biological Damage. NATO Science for Peace and Security Series A: Chemistry and Biology, pp. 145-162. https://doi.org/10.1007/978-94-007-6513-9_12

Hnatush AR, Drel VR, Hanay NO, Yalaneckyy AY, Mizin VI, Sybirna NO. The protective effects of natural polyphenolic complexes of grape wine on organisms exposed to oxidative and nitrosative stress under diabetes mellitus. En Pierce G, Mizin V, Omelchenko A, editores, Advanced Bioactive Compounds Countering the Effects of Radiological, Chemical and Biological Agents: Strategies to Counter Biological Damage. 2013. p. 145-162. (NATO Science for Peace and Security Series A: Chemistry and Biology). doi: 10.1007/978-94-007-6513-9_12

Hnatush, Andrew R. ; Drel, Victor R. ; Hanay, Natalia O. et al. / The protective effects of natural polyphenolic complexes of grape wine on organisms exposed to oxidative and nitrosative stress under diabetes mellitus. Advanced Bioactive Compounds Countering the Effects of Radiological, Chemical and Biological Agents: Strategies to Counter Biological Damage. editor / Grant Pierce ; Volodymyr Mizin ; Alexander Omelchenko. 2013. pp. 145-162 (NATO Science for Peace and Security Series A: Chemistry and Biology).

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abstract = "Peripheral nerve damage is a significant complication of diabetes mellitus. The ingestion of polyphenols available naturally in a variety of plant products may provide impressive protection against such damage. The natural polyphenol complex of grape wine has a significant anti-diabetic effect. It can protect against dehydration at the level of the whole organism and deter free radical-induced damage to the sciatic nerve, the spinal cord, kidney and retina. The levels of nitrosylated and PARylated proteins can be restored to near control levels by the extract. The biochemical mechanisms of action of the natural polyphenol complex of grape wine require further research, but may be considered as a valuable therapeutic approach for the treatment of diabetic complications.",

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AU - Yalaneckyy, Anatolij Ya

AU - Mizin, Volodymyr I.

AU - Sybirna, Natalia O.

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AB - Peripheral nerve damage is a significant complication of diabetes mellitus. The ingestion of polyphenols available naturally in a variety of plant products may provide impressive protection against such damage. The natural polyphenol complex of grape wine has a significant anti-diabetic effect. It can protect against dehydration at the level of the whole organism and deter free radical-induced damage to the sciatic nerve, the spinal cord, kidney and retina. The levels of nitrosylated and PARylated proteins can be restored to near control levels by the extract. The biochemical mechanisms of action of the natural polyphenol complex of grape wine require further research, but may be considered as a valuable therapeutic approach for the treatment of diabetic complications.

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The protective effects of natural polyphenolic complexes of grape wine on organisms exposed to oxidative and nitrosative stress under diabetes mellitus

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