Relative telomere length impact on mortality of COVID¿19: Sex differences

Virseda Berdices, Ana; Concostrina Martinez, Leyre; Martinez González, Oscar; Blancas, Rafael; Resino, Salvador; Ryan, Pablo; Martin Vicente, María; Brochado Kith, Oscar; Blanca López, Natalia; Mallol Poyato, María J.; López Matamala, Blanca; Martín Parra, Carmen; Jiménez Sousa, María Á; Fernández Rodríguez, Amanda

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Virseda Berdices, Ana & Concostrina Martinez, Leyre & Martinez González, Oscar & Blancas, Rafael & Resino, Salvador & Ryan, Pablo & Martin Vicente, María & Brochado Kith, Oscar & Blanca López, Natalia & Mallol Poyato, María J. & López Matamala, Blanca & Martín Parra, Carmen & Jiménez Sousa, María Á & Fernández Rodríguez, Amanda .Relative telomere length impact on mortality of COVID¿19: Sex differences.

ISO 690

Virseda Berdices, Ana & Concostrina Martinez, Leyre & Martinez González, Oscar & Blancas, Rafael & Resino, Salvador & Ryan, Pablo & Martin Vicente, María & Brochado Kith, Oscar & Blanca López, Natalia & Mallol Poyato, María J. & López Matamala, Blanca & Martín Parra, Carmen & Jiménez Sousa, María Á & Fernández Rodríguez, Amanda. Relative telomere length impact on mortality of COVID¿19: Sex differences.

https://hdl.handle.net/20.500.12080/44772

EndNote

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Relative telomere length impact on mortality of COVID¿19: Sex differences

Virseda Berdices, Ana; Concostrina Martinez, Leyre; Martinez González, Oscar; Blancas, Rafael; Resino, Salvador; Ryan, Pablo; Martin Vicente, María; Brochado Kith, Oscar; Blanca López, Natalia; Mallol Poyato, María J.; López Matamala, Blanca; Martín Parra, Carmen; Jiménez Sousa, María Á; Fernández Rodríguez, Amanda

URI: https://hdl.handle.net/20.500.12080/44772

Abstract:

Increasing age is associated with severity and higher mortality of COVID¿19. Telomere shortening is associated with higher risk of infections and may be used to identify those patients who are more likely to die. We evaluated the association between relative telomere length (RTL) and COVID¿19 mortality. RTL was measured in patients hospitalized because of COVID¿19. We used Kaplan¿Meier method to analyze survival probabilities, and Cox regression to investigate the association between RTL and mortality (30 and 90 days). Six hundred and eight patients were included in the analysis (mean age =72.5 years, 41.1% women, and 53.8% Caucasic). During the study period, 75 people died from COVID¿19 and 533 survived. Lower RTL was associated with a higher risk of death in women either at 30 (adjusted hazard ratio [HR] (aHR) = 3.33; 95% confidence interval [CI] = 1.05¿10.00; p = 0.040) and at 90 days (aHR = 3.57; 95%CI = 1.23¿11.11; p = 0.019). Lower RTL was associated with a higher risk of dying of COVID¿19 in women. This finding suggests that RTL has an essential role in the prognosis of this subset of the population. KEYWORDS COVID¿19, mortality, relative telomere length, SARS¿CoV

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