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  1. DÍAZ, M. F.; HERNÁNDEZ, F.; LEDEA, O.; SAZATORNIL, J. A. G.; MOLEIRO, J. H NMR Study of Methyl Linoleate Ozonation, Ozone Science & Engineering, Vol. 25, pp 121-126, 2003.

 

  1. DÍAZ, M. F.; GAVÍN, J. A. Characterization by NMR of Ozonized Methyl Linoleate, Braz. Chem. Soc., Vol. 18, No. 3, 513-518, 2007.

 

  1. DÍAZ, M. F.; HERNÁNDEZ, R.; MARTÍNEZ, G.; VIDAL, G.; GÓMEZ, M.; FERNÁNDEZ, H.; GARCÉS, R. Comparative Study of Ozonized Olive Oil and Ozonized Sunflower Oil, Braz. Chem. Soc., Vol. 17, No. 2, 403-407, 2006.

 

  1. DÍAZ, M. F.; ROMAY, C.; ROJAS, E.; GONZÁLEZ, R. Efecto del aceite de teobroma ozonizado sobre la respuesta inflamatoria inducida en el modelo de edema en la oreja del ratón, Vol. III, Nº 9, Septiembre 2008.

 

  1. SKALSKA, K.; LEDAKOWICZ, S.; PERKOWSKI, J.; SENCIO, B. Germicidal Properties of Ozonated Sunflower Oil, Ozone: Science & Engineering, 31: 232–237, 2009.

 

  1. KATAOKA, H.; SEMMA, M.; SAKAZAKI, H.; NAKAMURO, K.; YAMAMOTO, T.; HIROTA, S.; TAZUYA-MURAYAMA, K.; ICHIKAWA, A. Proinflammatory Event of Ozonized Olive Oil in Mice, Ozone: Science & Engineering, 31: 238–246, 2009.

 

  1. CATALDO, F. Ethyl Oleate and Ethyl Elaidate Ozonides: Thermal Decomposition and Photolysis, Ozone: Science & Engineering, 00: 1–10, 2015.

 

  1. GÓMEZ, M. F. D.; TÉLLEZ, G. M.; HERNÁNDEZ, R. I. M. Estudio analitico de especies oxigenadas en el aceite de teobroma ozonizado, Nova, Vol. 31, No. 3, 610-613, 2008.

 

  1. GÓMEZ, M. F. D. Usos y propiedades de los aceites vegetales ozonizados. La experiencia cubana, Centro de Investigaciones del Ozono, Centro Nacional de Investigaciones Científicas.

 

  1. KIRIŞ, S.; VELIOGLU, Y. S.; TEKIN, A. Effect of Ozonated Water Treatment on Fatty Acid Composition and Some Quality Parameters of Olive Oil, Ozone: Science & Engineering, Vol. 39, No. 2, 91–96, 2017.

 

  1. TORRES, I. F.; PIÑOL, V. C.; URRUTIA, E. S.; REGUEIFEROS, M. G. In vitro Antimicrobial Activity of Ozonized Theobroma Oil Against Candida albicans, Ozone: Science and Engineering, 28: 187–190, 2006.

 

  1. MOUREU, S.; VIOLLEAU, F.; HAIMOUD-LEKHAL, D. A.; CALMON, A. Influence of Storage Temperature on the Composition and the Antibacterial Activity of Ozonized Sunflower Oil, Ozone: Science & Engineering, Vol. 38, No. 2, 143–149, 2016.

 

  1. TELLEZ, G. M.; LOZANO, O. L.; GÓMEZ, M. F. D. Measurement of Peroxidic Species in Ozonized Sunflower Oil, Ozone: Science and Engineering, 28: 181–185, 2006.

 

  1. TRAVAGLI, V.; ZANARDI, I.; VALACCHI, G.; BOCCI, V. Ozone and Ozonated Oils in Skin Diseases: A Review, Hindawi Publishing Corporation, Mediators of Inflammation, 2010.

 

  1. IORIO, F. B. R. D.; LIBERATORE, A. M. A.; KOH, I. H. J.; OTANI, C.; CAMILO, F. F. Ozonated Mineral Oil: Preparation, Characterization and Evaluation of the Microbicidal Activity, Ozone: Science & Engineering, Vol. 38, No. 4, 253–260, 2016.

 

  1. GUERRA-BLANCO, P.; POZNYAK, T.; PÉREZ, A.; GÓMEZ Y GÓMEZ, Y. M.; BAUTISTA-RAMÍREZ, M. E.; CHAIREZ, I. Ozonation Degree of Vegetable Oils as the Factor of Their Anti-Inflammatory and Wound-Healing Effectiveness, Ozone: Science & Engineering, 2017.

 

  1. GÜNAYDIN, Y.; SEVIM, H.; TANYOLAÇ, D.; GÜRPINAR, Ö. A. Ozonated Olive Oil with a High Peroxide Value for Topical Applications: In-Vitro Cytotoxicity Analysis with L929 Cells, Ozone: Science & Engineering, 2017.

 

  1. CASADO, C.; GUTIÉRREZ, Y.; MIRANDA M.; GARCIA, G. Murraya paniculata, an alternative of the natural and traditional medicine to the doors of the phytotherapy, Revista Cubana de Farmacia vol. 40 (Suplemento Especial):72, 2006.

 

  1. DÍAZ, M. F.; SAZATORNIL, J. A. G.; LEDEA, O.; HERNÁNDEZ, F.; ALAIZ, M.; GARCÉS, R. Spectroscopic Characterization of Ozonated Sunflower Oil, Ozone: Science and Engineering, 27: 247–253, 2005.

 

  1. GEORGIEV, V. F.; BATAKLIEV, T. T.; ANACHKOV, M. P.; RAKOVSKI, S. K. Study of Ozonated Olive Oil: Monitoring of the Ozone Absorption and Analysis of the Obtained Functional Groups, Ozone: Science & Engineering, 37: 55–61, 2014.

 

  1. DÍAZ, M. F.; GAVÍN, J. A.; GÓMEZ, M.; CURTIELLES, V.; HERNÁNDEZ, F. Study of Ozonated Sunflower Oil Using 1H NMR and Microbiological Analysis, Ozone: Science & Engineering, 28: 59–63, 2006.

 

  1. DÍAZ, M. F.; NÚÑEZ, N.; QUINCOSE, D.; DÍAZ, W.; HERNÁNDEZ, F. Study of Three Systems of Ozonized Coconut Oil, Ozone: Science & Engineering, 27: 153–157, 2005.

 

  1. WASMI, B.; AL-AMIERY, A. A.; KADHUM, A. A. H.; TAKRIFF, M. S.; MOHAMAD, A. B. Synthesis of Vanadium Pentoxide Nanoparticles as Catalysts for the Ozonation of Palm Oil, Ozone: Science & Engineering, VOL. 38, NO. 1, 36–41, 2016.

 

  1. GÓMEZ, M. F. D.; LOZANO, O. E. L.; REGÜEIFERIO, M. G. Estudio comparativo de la ozonización de aceites de girasol modificados genéticamente y sin modificar, Nova, Vol. 32, No. 9, 2467-2472, 2009.

 

  1. LEDEA, O.; CORREA, T.; ESCOBAR, M.; ROSADO, A.; MOLERIO, J.; HERNÁNDEZ, C.; JARDINES, D. Volatile Components of Ozonized Sunflower Oil “OLEOZON ®”, Ozone: Science & Engineering, vol. 23, 121-126, 2016.

 

  1. CIRLINI; A. CALIGIANI; G. PALLA; A. DE ASCENTIIS; P. TORTINI. Stability Studies of Ozonized Sunflower Oil and Enriched Cosmetics with a Dedicated Peroxide Value Determination, Ozone: Science & Engineering, 34: 293–299, 2012.

 

  1. GUINESI, A. S.; ANDOLFATTO, C.; BONETTI FILHO, I.; CARDOSO, A. A.; PASSARETTI FILHO, J.; FARAC, R. V. Ozonized Oils: A Qualitative and Quantitative Analysis, Braz Dent J, 22(1): 37-40, 2011.

 

  1. ZANARDI, I.; BURGASSI, S.; PACCAGNINI, E.; GENTILE, M.; BOCCI, V.; TRAVAGLI, V. What is the best strategy for enhancing the effects of topically applied ozonated oils in cutaneous infections? BioMed Research International, 2013.