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Difference between revisions of "Ozola Melita"

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{{Person
{{Person
|lastname=Videja
|lastname=Ozola


|firstname=Melita
|firstname=Melita


|title=
|title=
|institution=
|institution=[[File:Melita.jpg|180px|right|Meliat Ozola]] Latvian Institute of Organic Synthesis, LV
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Latvian Institute of Organic Synthesis, LV




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|city=Riga
|city=Riga
|country=Latvia
|country=Latvia
|mailaddress=smelita[email protected]
|mailaddress=melita[email protected]
}}
}}


__TOC__
__TOC__


== Participated at ==
== Participated at ==
::::* [[FAT4BRAIN 2023 Riga LV]]
::::* [[MiPNet28.04 FAT4BRAIN IOC159 Riga LV|FAT4BRAIN IOC159 Riga LV]]
::::* [[MiPNet28.05 IOC158 Innsbruck AT|IOC158 Innsbruck AT]]
::::* [[MiPNet28.05 IOC158 Innsbruck AT|IOC158 Innsbruck AT]]
::::* [[FAT4BRAIN Symposium Jena DE]]
::::* [[FAT4BRAIN Symposium Jena DE]]

Latest revision as of 10:18, 19 May 2023

Name Ozola Melita,
Institution
Meliat Ozola
Latvian Institute of Organic Synthesis, LV
Address Aizkraukles Str 21, LV-1006
City Riga
State/Province
Country Latvia
Email [email protected]
Weblink
O2k-Network Lab LV Riga Liepins E


Participated at


Labels:



Publications

 PublishedReference
Zvejniece 2023 Biomed Pharmacother2023Zvejniece L, Svalbe B, Vavers E, Ozola M, Grinberga S, Gukalova B, Sevostjanovs E, Liepinsh E, Dambrova M (2023) Decreased long-chain acylcarnitine content increases mitochondrial coupling efficiency and prevents ischemia-induced brain damage in rats.
Cecatto 2023 MitoFit2023Cecatto C, Cardoso LHD, Ozola M, Korzh S, Zvejniece L, Gukalova B, Doerrier C, Dambrova M, Gnaiger E, Makrecka-Kuka M, Liepinsh E (2023) Fatty acid Ξ²-oxidation in brain mitochondria: Insights from high-resolution respirometry in mouse, rat and Drosophila brain, ischemia and aging models. MitoFit Preprints 2023.10. https://doi.org/10.26124/mitofit:2023-0010
Makrecka-Kuka 2020 Cardiovasc Drugs Ther2020Makrecka-Kuka Marina, Korzh Stanislava, Videja Melita, Vilks Karlis, Cirule Helena, Kuka Janis, Dambrova Maija, Liepinsh Edgars (2020) Empagliflozin protects cardiac mitochondrial fatty acid metabolism in a mouse model of diet-induced lipid overload. Cardiovasc Drugs Ther 34:791-97.
Liepinsh 2020 Physiol Rep2020Liepinsh E, Makarova E, Plakane L, Konrade I, Liepins K, Videja M, Sevostjanovs E, Grinberga S, Makrecka-Kuka M, Dambrova M (2020) Low-intensity exercise stimulates bioenergetics and increases fat oxidation in mitochondria of blood mononuclear cells from sedentary adults. Physiol Rep 8:e14489.

Abstracts

 PublishedReference
Cecatto 2023 BPS2023 San Diego2023
Sabine Schmitt
Cecatto C, Schmitt Sabine, Cardoso L, Videja M, Dambrova M, Makrecka-Kuka M, Liepinsh E, Gnaiger E (2023) Contribution of fatty acid oxidation to respiratory control in brain mitochondria. 67th Annual Meeting of the Biophysical Society.
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