Zinc-enriched cookies improve immunity and decrease opportunistic diaseases in AIDS patients

Autores

  • Dalila Moter Benvegnú UFFS
  • Gabriela Suthovski
  • Gabriela Sandri
  • Deisi Tonel
  • Angela Khetly Lazarotto
  • Thaiane da Silva Rios
  • Diane Aparecida Muller
  • Leidiane De Lucca
  • Josana Aparecida Dranka Horvarth
  • Paulo Rogério Pinto Rodrigues
  • Thissiane De Lima Gonçalves
  • André Lazarin Gallina
  • Fabiana Elias
  • Jucieli Weber

DOI:

https://doi.org/10.53660/CONJ-165-303

Palavras-chave:

minerals, food supplement, biscuits, HIV, immune system

Resumo

Introduction: Acquired Immunodeficiency Syndrome (AIDS) is a disease of the human immune system resulting from infection by the Human Immunodeficiency Virus (HIV) virus. Methods: The study was carried out between 2015 and 2016 with patients who attended a Specialized Center for Parasitic Infectious Diseases in Paraná. The research was divided into two stages, where the effects of supplementation on TC4 + cells, viral load (LV) and number of opportunistic diseases were verified. 20mg / day of zinc was added to the cookies for 3 months. Results: Data analysis does not show statistical differences in VL and Zinc supplementation; however, supplementation shows that it is able to promote an increase in the TCD4 + count. Patients reported an improvement in their well-being and a decrease in the incidence of opportunistic diseases. Conclusion: Thus, it was observed that zinc supplementation was highly effective in increasing TCD4 + positively improving the immune response and quality of life. In addition, the supplementation in the form of biscuits proved to be innovative and very effective. 

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Referências

ASDAMONGKOL, N.; PHANACHET, P.; SUNGKANUPARPH, S. Low plasma zinc levels and immunological responses to zinc supplementation in HIV-infected patients with immunological discordance after antiretroviral therapy. Jpn J Infect Dis. 2013.

BAUM, M. K.; LAI, S.; SALES, S.; PAGE, J. B.; CAMPA, A. Randomized, Controlled Clinical Trial of Zinc Supplementation to Prevent Immunological Failure in HIV‐Infected Adults. Clin Infect Dis. 2010.

BELOUKAS, A.; PSARRIS, A.; GIANNELOU, P.; KOSTAKI, E.; HATZAKIS, A.; PARASKEVIS, D. Molecular epidemiology of HIV-1 infection in Europ: An overview. Infect Genet Evol. 2016.

BRITO, A. M. de; CASTILHO, E. A. de; SZWARCWALD, C. L. AIDS e infecção pelo HIV no Brasil: uma epidemia multifacetada. Rev Soc Bras Med Trop. 2001.

CAZA M.; HU, G.; PRICE, M.; PERFECT, J. R.; KRONSTAD, J. W. The Zinc Finger Protein Mig1 Regulates Mitochondrial Function and Azole Drug Susceptibility in the Pathogenic Fungus Cryptococcus neoformans. mSphere. 2016.

DIRAJLAL-FARGO, S.; YU, J.; KULKARNI, M.; SATTAR, A.; FUNDERBUG, N.; BARKOUKIS, H. et al. Brief Report: Zinc Supplementation and Inflammation in Treated HIV. J Acquir Immune Defic Syndr. 2019.

GNATIENKO, N.; FREIBERG, M. S.; BLOKHINA, E., et al. Desenho de um ensaio clínico randomizado de suplementação de zinco para melhorar os marcadores de mortalidade e progressão da doença pelo HIV em bebedores HIV-positivos em São Petersburgo, Rússia. Ensaios HIV Clin. 2018; 19 (3): 101-111.

GNATIENKO, N.; FREIBERG, M. S.; BLOKHINA, E.; YAROSLAVTSERA, T.; BRIDDEN, C.; CHENG, D. M. et al. Design of a randomized controlled trial of zinc supplementation to improve markers of mortality and HIV disease progression in HIV-positive drinkers in St. Petersburg, Russia. HIV Clin Trials. 2018.

HEMELAAR, J., et al. Global and regional molecular epidemiology of HIV-1, 190 2015: a systematic review, global survey, and trend analysis. Lancet Infect Dis. 2019.

KAISER, J. D.; CAMPA, A. M.; ONDERCIN, J. P.; LEOUNG, G. S.; PLESS, R. F.; BAUM, M. K. Micronutrient supplementation increases CD4 count in HIV-infected individuals on highly active antiretroviral therapy: A prospective, double-blinded, placebo-controlled trial. J Acquir Immune Defic Syndr. 2006.

LAZZAROTTO, A. R.; DERESZ, L. F.; SPRINZ, E. HIV/AIDS e Treinamento Concorrente: a Revisão Sistemática. Rev Bras Med do Esporte. Sociedade Brasileira de Medicina do Exercício e do Esporte; 2010 Apr [cited 2020 Jun 18];16(2):149–54.

LU, D-Y.; WU, H-Y.; YARLA, N. S.; XU, B.; DING, J.; LU T. R. HAART in HIV/AIDS Treatments: Future Trends. Infect Disord - Drug Targets. 2018 Mar 2018(1):15–22.

MOREIRA, E. A. M.; CHIARELLO, P. G. Nutrição e Metabolismo - Atenção Nutricional - Abordagem Dietoterápica em Adultos. Guanabara Koogan; 2008.

OLENDER, S.; WILKIN, T. J.; TAYLOR, B. S.; HAMMER, S. M. Advances in antiretroviral therapy. Top Antivir Med. 2012.

PARHAM, P. O sistema imune. 3a. Artmed; 2011.

RAYMOND, A. D.; GEKONGE, B.; GIRI, M. S.; HANCOCK, A.; PAPASAVVAS, E.; CHEHIMI, J. et al. Increased metallothionein gene expression, zinc, and zinc-dependent resistance to apoptosis in circulating monocytes during HIV viremia. J Leukoc Biol. 2010.

READ, S.A.; OBEID, S.; AHLENSTIEL, C.; AHLENSTIEL, G. The Role of Zinc in Antiviral Immunity. Adv. Nutr. 2019.

ROBBINS, S. L.; COTRAN, R.S.; KUMAR, V.; COLLINS, T. Fundamentos de Robbins: patologia estrutural e funcional. Fundam Robbins Patol estrutural e Func. 2001.

SNEIJ, A; CAMPA, A. Lower Plasma Zinc Levels in Hyperglycemic People Living with HIV in the MASH cohort. J AIDS Clin Res. 2016.

SOARES, R.; ARMINDO, R. D.; ROCHA, G. A imunodeficiência e o sistema imunitário. O comportamento em portadores de HIV. Arq Med. 2014.

SWINGLES, S.; MANN, A. M.; ZHOU, J.; SWINGLER, C.; STEVENSON, M. Apoptotic killing of HIV-1-infected macrophages is subverted by the viral envelope glycoprotein. PLoS Pathog. 2007.

TANG, A. M.; GRAHAM, N. M. H., HIRBY, A. J.; MDCALL, D. L.; WALTER, C.; WILLET, W. C.; SAAH, A. J. Ingestão de micronutrientes na dieta e risco de progressão para a síndrome da imunodeficiência adquirida (AIDS) em homens homossexuais infectados pelo vírus da imunodeficiência humana tipo 1 (HlV-1). American Journal of Epidemiology , Volume 138, Issue 11, 1 de dezembro de 1993, Pages 937-951.

TEIXEIRA, A. T.; MACHADO, C.; RIOS, T. S.; LUCCA, L.; GONÇALVES, T. L.;

WEBER, J.; BENVEGNÚ, D. M. Suplementação com biscoito enriquecido com zinco em um indivíduo com deficiência do mineral: um estudo de caso. Biosaúde (Londrina), v. 20, p. 55-68, 2018.

VISSER, M. E.; DURAO, S.; SINCLAIR, D.; IRLAM, J. H.; SIEGFRIED, N. Micronutrient supplementation in adults with HIV infection. Cochrane Database Syst. Rev. 2017.

WHO. HIV/AIDS Fact sheet. Media Cent. 2017.

XU, Y.; ZHU, H.; WILCOX, C. K.; VANT’ WOUT, A.; ANDRUS, T.; LLEWELLYN, N. et al. Blood Monocytes Harbor HIV Type 1 Strains with Diversified Phenotypes Including Macrophage‐Specific CCR5 Virus. J Infect Dis. 2008.

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Publicado

2021-11-05

Como Citar

Moter Benvegnú, D., Suthovski, G., Sandri, G., Tonel, D., Lazarotto, A. K., da Silva Rios, T., Muller, D. A., De Lucca, L., Dranka Horvarth, J. A., Pinto Rodrigues, P. R., De Lima Gonçalves, T. ., Lazarin Gallina, A., Elias, F., & Weber, J. (2021). Zinc-enriched cookies improve immunity and decrease opportunistic diaseases in AIDS patients. Conjecturas, 21(5), 290–300. https://doi.org/10.53660/CONJ-165-303

Edição

v. 21 n. 5 (2021): Especial

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Artigos

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Copyright (c) 2021 Conjecturas

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Este trabalho está licenciado sob uma licença Creative Commons Attribution 4.0 International License.