Ayora-Talavera Guadalupe, Flores Gerardo Montalvo-Zurbia, Gómez-Carballo Jesus, González-Losa Refugio, Conde-Ferraez Laura, Puerto-Solís Marylin, López-Martínez Irma, Díaz-Quiñonez Alberto, Barrera-Badillo Gisela, Acuna-Soto Rodolfo, Livinski Alicia A, Alonso Wladimir J
Centro de Investigaciones Regionales Dr. Hideyo Noguchi, Universidad Autónoma de Yucatán, Av. Itzaes #490x59, Centro, C. P. 97000 Merida, Yucatan, Mexico.
Instituto de Diagnóstico y Referencia Epidemiológicos "Dr. Manuel Martínez Báez" (InDRE), Secretaría de Salud, Francisco de P. Miranda 177, Lomas de Plateros, 01480 Álvaro Obregón, Mexico City, Mexico.
Vaccine. 2017 Aug 24;35(36):4738-4744. doi: 10.1016/j.vaccine.2017.07.020. Epub 2017 Jul 26.
While vaccination may be relatively straightforward for regions with a well-defined winter season, the situation is quite different for tropical regions. Influenza activity in tropical regions might be out of phase with the dynamics predicted for their hemispheric group thereby impacting the effectiveness of the immunization campaign.
To investigate how the climatic diversity of Mexico hinders its existing influenza immunization strategy and to suggest that the hemispheric vaccine recommendations be tailored to the regional level in order to optimize vaccine effectiveness.
We studied the seasonality of influenza throughoutMexico by modeling virological and mortality data.De-trended time series of each Mexican state were analyzed by Fourier decomposition to describe the amplitude and timing of annual influenza epidemic cycles and to compare with each the timing of the WHO's Northern and Southern Hemispheric vaccination schedule.
The timings of the primary (major) peaks of both virological and mortality data for most Mexican states are well aligned with the Northern Hemisphere winter (December-February) and vaccine schedule. However, influenza peaks in September in the three states of the Yucatan Peninsula. Influenza-related mortality also peaks in September in Quintana Roo and Yucatan whereas it peaks in May in Campeche. As the current timing of vaccination in Mexico is between October and November, more than half of the annual influenza cases have already occurred in the Yucatan Peninsula states by the time the Northern Hemispheric vaccine is delivered and administered.
The current Northern Hemispheric influenza calendar adopted for Mexico is not optimal for the Yucatan Peninsula states thereby likely reducing the effectiveness of the immunization of the population. We recommend that Mexico tailor its immunization strategy to better reflect its climatologic and epidemiological diversity and adopt the WHO Southern Hemisphere influenza vaccine and schedule for the Yucatan Peninsula.
对于有着明确冬季的地区而言,疫苗接种或许相对简单直接,但热带地区的情况则大不相同。热带地区的流感活动可能与针对其所在半球群体预测的动态情况不同步,从而影响免疫接种活动的效果。
调查墨西哥的气候多样性如何阻碍其现有的流感免疫策略,并建议将半球疫苗建议调整至区域层面,以优化疫苗效果。
我们通过对病毒学和死亡率数据进行建模,研究了墨西哥各地流感的季节性。通过傅里叶分解分析墨西哥各州去趋势化的时间序列,以描述年度流感流行周期的幅度和时间,并相互比较以及与世界卫生组织北半球和南半球疫苗接种时间表的时间进行比较。
大多数墨西哥州的病毒学和死亡率数据的主要(高峰)峰值时间与北半球冬季(12月至2月)及疫苗接种时间表高度吻合。然而,尤卡坦半岛的三个州在9月出现流感高峰。金塔纳罗奥州和尤卡坦州与流感相关的死亡率也在9月达到峰值,而坎佩切州则在5月达到峰值。由于墨西哥目前的疫苗接种时间在10月至11月之间,在北半球疫苗交付和接种时,尤卡坦半岛各州已发生了超过一半的年度流感病例。
目前墨西哥采用的北半球流感日历对尤卡坦半岛各州并非最优选择,从而可能降低人群免疫接种的效果。我们建议墨西哥调整其免疫策略,以更好地反映其气候和流行病学多样性,并为尤卡坦半岛采用世界卫生组织南半球流感疫苗及接种时间表。
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