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Uchiner CJ, Galvani AP Time series evaluation of dengue incidence in Rio de Janeiro, HIF-2��-IN-1 Brazil. Am J Trop Med Hyg 79: 933939. 14. Zhang Y, Bi P, Hiller JE Meteorological variables and malaria inside a Chinese temperate city: A twenty-year time-series information analysis. Environ Int 36: 439445. 15. Quenel P, Dab W Influenza A and B epidemic criteria according to time series analysis of surveillance information. European Journal of Epidemiology 14: 275 285. 16. Onozuka D, Hashizume M The influence of temperature and humidity around the incidence of hand, foot, and mouth disease in Japan. Science in the Total Enviroment 410411: 119125. 17. Ma E, Lam T, Wong C, Chuang SK Is hand, foot and mouth illness associated with meteorological parameters Epidemiol Infect 138: 17791788. 18. Wang Y, Feng Z, Yang Y, Self S, Gao Y, et al. Hand, Foot and Mouth Illness in China: Patterns of Spread and Transmissibility in the course of 20082009. Epidemiology 22: 781792. 19. Huang Y, Deng T, Yu S, Gu J, Huang G, et al. Effect of meteorological variables around the incidence of hand, foot, and mouth disease in 18325633 children: a timeseries evaluation in Guangzhou, China. BMC Infect Dis 13: 134. 20. Fares A Factors Influencing the Seasonal Patterns of Infectious Ailments. Int J Prev Med four: 128132. 21. Madrasin chemical information Nicholas CG, Christophe F Seasonal infectious illness epidemiology. Proc R Soc B 273: 25412550. 22. Tini G, Neil MF, Azra CG Estimating Air Temperature and Its Influence on Malaria Transmission across Africa. Plos 1 eight: e56487. 23. Jean-Baptist du P, Wolfram P, Britta G, Markus K, Josef AI, et al. Are Meteorological Parameters Connected with Acute Respiratory Tract Infections Clinical Infectious Ailments 49: 861868. 24. Pirtle EC, Beran GW Virus survival in the environment. Rev Sci Tech ten: 733748. 25. Si Y, Wang T, Skidmore AK Environmental aspects influencing the spread with the very pathogenic avian influenza H5N1 virus in wild birds in Europe. Ecol Soc 15: 26. 26. Dowell SF Seasonal variation in host susceptibility and cycles of certain infectious ailments. Emerg Infect Dis 7: 369374. 27. Brown JD, Goekjian G, Poulson R,Valeika S, Stalkncht DE Avian influenza virus in water: infectivity is dependent on pH, salinity and temperature. Vet Microb 136: 2026. 28. Rzezutka A, Cook N Survival of human enteric viruses inside the environment and meals. FEMS Microbiol Rev 28: 441453. 29. Fischer TK, Steinsland H, Valentiner-Branth P Rotavirus particles can survive storage in ambient tropical temperatures for extra than 2 months. J Clin Microbiol 40: 47634764. 30. Bashiardes S, Koptides D, Pavlidou S Analysis of enterovirus and adenovirus presence in swimming pools in Cyprus from 20072008.Water Sci Technel 63: 26742684. 31. D’Alessio D, Minor T, Allen C, Tsiatis A, Nelson D A study with the proportions of swimmers among properly controls and youngsters with enterovirus-like illness shedding or not shedding an enterovirus. Am J Epidemiol 113: 533541. 32. Hawley H, Morin D, Geraghty M, Tomkow J, Phillips C Coxsackievirus B epidemic at a boys’ summer camp: isolation of virus from swimming water. JAMA 226: 3336. 33. Nobre FF, Monteiro AB, Telles PR,Williamson GD Dynamic linear model and SARIMA: a comparison of their forecasting efficiency in epidemiology. Stat Med 20: 30513069. ten ~~ ~~ MicroRNAs are a class of endogenous, small, single-stranded, noncoding RNA molecules that regulate gene expression by advertising translational repression and/or degradation of target mRNAs through binding to their 3’untranslated regions. Because the initially mi.Uchiner CJ, Galvani AP Time series analysis of dengue incidence in Rio de Janeiro, Brazil. Am J Trop Med Hyg 79: 933939. 14. Zhang Y, Bi P, Hiller JE Meteorological variables and malaria in a Chinese temperate city: A twenty-year time-series data analysis. Environ Int 36: 439445. 15. Quenel P, Dab W Influenza A and B epidemic criteria depending on time series evaluation of surveillance information. European Journal of Epidemiology 14: 275 285. 16. Onozuka D, Hashizume M The influence of temperature and humidity around the incidence of hand, foot, and mouth disease in Japan. Science from the Total Enviroment 410411: 119125. 17. Ma E, Lam T, Wong C, Chuang SK Is hand, foot and mouth illness associated with meteorological parameters Epidemiol Infect 138: 17791788. 18. Wang Y, Feng Z, Yang Y, Self S, Gao Y, et al. Hand, Foot and Mouth Disease in China: Patterns of Spread and Transmissibility in the course of 20082009. Epidemiology 22: 781792. 19. Huang Y, Deng T, Yu S, Gu J, Huang G, et al. Effect of meteorological variables on the incidence of hand, foot, and mouth disease in 18325633 young children: a timeseries evaluation in Guangzhou, China. BMC Infect Dis 13: 134. 20. Fares A Aspects Influencing the Seasonal Patterns of Infectious Illnesses. Int J Prev Med four: 128132. 21. Nicholas CG, Christophe F Seasonal infectious disease epidemiology. Proc R Soc B 273: 25412550. 22. Tini G, Neil MF, Azra CG Estimating Air Temperature and Its Influence on Malaria Transmission across Africa. Plos A single 8: e56487. 23. Jean-Baptist du P, Wolfram P, Britta G, Markus K, Josef AI, et al. Are Meteorological Parameters Linked with Acute Respiratory Tract Infections Clinical Infectious Diseases 49: 861868. 24. Pirtle EC, Beran GW Virus survival within the environment. Rev Sci Tech 10: 733748. 25. Si Y, Wang T, Skidmore AK Environmental elements influencing the spread on the extremely pathogenic avian influenza H5N1 virus in wild birds in Europe. Ecol Soc 15: 26. 26. Dowell SF Seasonal variation in host susceptibility and cycles of specific infectious illnesses. Emerg Infect Dis 7: 369374. 27. Brown JD, Goekjian G, Poulson R,Valeika S, Stalkncht DE Avian influenza virus in water: infectivity is dependent on pH, salinity and temperature. Vet Microb 136: 2026. 28. Rzezutka A, Cook N Survival of human enteric viruses within the atmosphere and meals. FEMS Microbiol Rev 28: 441453. 29. Fischer TK, Steinsland H, Valentiner-Branth P Rotavirus particles can survive storage in ambient tropical temperatures for extra than 2 months. J Clin Microbiol 40: 47634764. 30. Bashiardes S, Koptides D, Pavlidou S Analysis of enterovirus and adenovirus presence in swimming pools in Cyprus from 20072008.Water Sci Technel 63: 26742684. 31. D’Alessio D, Minor T, Allen C, Tsiatis A, Nelson D A study on the proportions of swimmers amongst properly controls and kids with enterovirus-like illness shedding or not shedding an enterovirus. Am J Epidemiol 113: 533541. 32. Hawley H, Morin D, Geraghty M, Tomkow J, Phillips C Coxsackievirus B epidemic at a boys’ summer camp: isolation of virus from swimming water. JAMA 226: 3336. 33. Nobre FF, Monteiro AB, Telles PR,Williamson GD Dynamic linear model and SARIMA: a comparison of their forecasting functionality in epidemiology. Stat Med 20: 30513069. ten ~~ ~~ MicroRNAs are a class of endogenous, tiny, single-stranded, noncoding RNA molecules that regulate gene expression by advertising translational repression and/or degradation of target mRNAs by way of binding to their 3’untranslated regions. Since the initially mi.

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