In October 2009, the French government organized a national-wide, free of charge vaccination campaign against pandemic H1N1 influenza virus, especially targeting pregnant women, a high risk group for severe illness. The study objective was to evaluate pandemic flu vaccine uptake and factors associated with non-vaccination in a population of pregnant women.
In a prospective cohort conducted in 3 maternity hospitals in Paris, 882 pregnant women were randomly included between October 12, 2009 and February 3, 2010, with the aim to study characteristics of pandemic influenza during pregnancy. At inclusion, socio-demographic, medical, obstetrical factors and those associated with a higher risk of flu exposition and disease-spreading were systematically collected. Pandemic flu vaccine uptake was checked until delivery. 555 (62.9%) women did not get vaccinated. Determinants associated with non-vaccination in a multivariate logistic regression were: geographic origin (Sub-Saharan African origin, adjusted Odd Ratio aOR = 5.4[2.3–12.7], North African origin, aOR = 2.5[1.3–4.7] and Asian origin, aOR = 2.1[1.7–2.6] compared to French and European origin) and socio-professional categories (farmers, craftsmen and tradesmen, aOR = 2.3[2.0–2.6], intermediate professionals, aOR = 1.3[1.0–1.6], employees and manual workers, aOR = 2.5[1.4–4.4] compared to managers and intellectual professionals). The probability of not receiving pandemic flu vaccine was lower among women vaccinated against seasonal flu in the previous 5 years (aOR = 0.6[0.4–0.8]) and among those who stopped smoking before or early during pregnancy (aOR = 0.6[0.4–0.8]). Number of children less than 18 years old living at home, work in contact with children or in healthcare area, or professional contact with the public, were not associated with a higher vaccine uptake.
In this cohort of pregnant women, vaccine coverage against pandemic 2009 A/H1N1 flu was low, particularly in immigrant women and those having a low socio-economic status. To improve its effectiveness, future vaccination campaign for pregnant women should be more specifically tailored for these populations.
Citation: Freund R, Le Ray C, Charlier C, Avenell C, Truster V, Tréluyer J-M, et al. (2011) Determinants of Non-Vaccination against Pandemic 2009 H1N1 Influenza in Pregnant Women: A Prospective Cohort Study. PLoS ONE 6(6): e20900. https://doi.org/10.1371/journal.pone.0020900
Editor: Patricia V. Aguilar, University of Texas Medical Branch, United States of America
Received: April 5, 2011; Accepted: May 11, 2011; Published: June 14, 2011
Copyright: © 2011 Freund et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Funding: This study has been funded by the French National Institute of Health (Inserm). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.
Competing interests: The authors have declared that no competing interests exist.
In June 2009, World Health Organization (WHO) raised the pandemic alert level to the highest level of 6. Although this pandemic was not at the scale expected by the public health services, it can be used as an example of a general mobilization of national health systems in a global campaign of vaccination . For these reasons, data from the French 2009–2010 vaccination campaign can be used to improve the coverage and effectiveness of a future vaccination campaign in case of a new influenza pandemic.
According to numerous studies, pregnant women are considered to be at higher risk of severe illness from seasonal ,  and pandemic influenza , , , . Therefore, WHO , American Centers for Disease Control and Prevention of Disease (CDC) , European Centre for the Control and Prevention Diseases (ECDC) , European Commission, Health Security Committee (HSC)/ Early Warning and Response System (EWRS) , and the French Advisory Council for Public Health (HCSP)  define pregnancy as a high-risk priority group for vaccination. French authorities recommended pandemic H1N1 vaccination with a single dose of an adjuvanted-free vaccine (Panenza®) for all pregnant women after the first trimester .
The vaccination campaign began in France on November 9, 2009, according to an order of priority for people at risk of severe illness as predefined by the HCSP , . The vaccination was administered, free of charge, in centers dedicated to pandemic vaccine. On November 20, 2009, Panenza® was available and pregnant women asked to get vaccinated. The objective of the French strategy was to cover 85% of the overall French population . The outcome of the campaign showed that, on January 18, 2010, only 7.95% of the French population was vaccinated and only 22.7% of pregnant women .
These data raise the question of possible disparities in vaccine coverage among the French pregnant women. Although vaccination was available and free for all, some socio-demographic characteristics may have influenced women's decision toward vaccination. Moreover, some factors that would normally promote vaccination such as the working conditions (e.g in contact with the public, children or the medical community), obstetrical and medical characteristics, may also modulate women's awareness of vaccine's usefulness in the high-risk population of pregnant women.
The objective of this study was to evaluate pandemic flu vaccine uptake and to analyze the determinants related to the non-vaccination against the pandemic flu virus in a population of pregant women. The data of 882 pregnant women randomly included in a prospective cohort study conducted during the 2009 French vaccination campaign were used to address this question.
COFLUPREG 〈〈COhort on FLU during PREGnancy〉〉 is a prospective study conducted in three tertiary maternity centers in Paris, France, to determine the clinical expression, the biological characteristics, and the maternal-fetal impact of pandemic influenza A/H1N1 occurring during pregnancy. Between October 12, 2009 and February 3, 2010, 919 pregnant women were randomly drawn among pregnant women that were followed in these maternity hospitals, in order to include 45 women each day and to obtain a representative sample of pregnant women followed in these maternity hospitals. Women aged ≥18 years, speaking and understanding French were eligible to participate if they were pregnant between 12 and 35 weeks of gestation and followed in one of the three maternity participating to the study. Main exclusion criteria were a virologically documented H1N1 influenza during the last 6 months and vaccination against influenza A/H1N1 before inclusion. From the 919 pregnant women included in COFLUPREG study, 37 were excluded due to withdrawal of consent (n = 3), delivery before the date of vaccine availability (n = 8), and loss of follow up (i.e. women who gave birth in another hospital and have had less than 3 follow-up visits) (n = 26). Thus, data from 882 pregnant women were included to study determinants associated with non-vaccination against A/H1N1 influenza virus.
At inclusion in the study the following data were collected: socio-demographic characteristics (mother age, geographic origin, lifestyle (single or couple), socio-professional category), medical factors (co-morbidity associated with a high-risk of occurrence of severe form of flu, flu symptoms since the beginning of pregnancy, seasonal flu vaccination in the previous 5 years, smoking), obstetrical characteristics (gestational age, gestity, twin pregnancy, parity, significant obstetrical history and current pregnancy complication) and factors associated with a higher risk of viral exposition and disease-spreading (number of children under 18 years old at home, work in contact with children, healthcare workers and professional with consistent contact with the public).
Co-morbidity associated with a risk of occurrence of severe flu was defined by the presence of at least one of the following diseases: chronic lung disease (including asthma), severe cardiopathy, severe chronic nephropathy, severe neuropathy, severe myopathy, sickle-cell disease, diabetes mellitus, immunodeficiency, morbid obesity and alcoholism with chronic hepatopathy.
Significant obstetric history was defined as having at least one of the following events: late miscarriage (between 14th and 21th+6 days weeks of gestation), preterm delivery (between 22th and 36th+6 days weeks of gestation), and history of pre-eclampsia/gestational hypertension, intrauterine growth restriction, fetal malformation or fetal death. Current pregnancy complication was defined as having at least one of the following complications: placenta prævia, pyelonephritis, pre-eclampsia/gestational hypertension, gestational diabetes mellitus, suspicion of intrauterine growth restriction, fetal malformation, threatened preterm delivery and premature rupture of membranes (PROM).
The women were followed by doctors or midwifes with monthly visits until delivery. During each visit, information on the occurrence of vaccination against 2009 A/H1N1, of flu symptoms or documented A/H1N1 infection were prospectively collected.
Written informed consent was obtained from each woman before enrollment. The protocol was conducted in accordance with the Declaration of Helsinki and French law for biomedical research, and was approved by the “Ile-de-France 3” Ethics Committee (Paris, France), on October 2, 2009; n°09-12075.
For each variable, the choice of the reference class was made as in adequacy with literature. The reference class was the one known to have the highest vaccination rate. When the knowledge did not exist in literature, the reference was the class with the highest frequency.
Data management and statistical analysis were done using STATA for Windows (Version 10.0 College Station, Texas, USA). To compare numbers and percentages, we used Chi2 test or Fisher's exact test if n<5 and predicted n<5.
Associations between determinants and the non-vaccination against pandemic flu were analyzed using univariate analysis. Determinants with a p-value less than 0.20 on univariate analysis were included in the final logistic regression. Population characteristics differed between the three maternity hospitals. For this reason, a cluster model was used by adjusting the logistic regression model on the maternity center. This adjustment was achieved by including the estimated variances Huber / White / sandwich  into the logistic regression model. A systematic research of interaction between determinants with a p-value less than 0.20 on univariate analysis was performed.
The demographic profiles and the clinical characteristics of the study population are described in Table 1. Median age was 32.7 years [min, max: 18.8, 49.1], 47.5% of the women were primiparous, 14.2% had at least one co-morbidity and 11% had at least one significant obstetric history. The median term of pregnancy was 37.7 weeks of gestation [min: 22.4; max: 40.3]. Of the 882 pregnant women, 555 (62.9%) did not get pandemic A/H1N1 vaccine.
Factors associated with pandemic A/H1N1 vaccine uptake
Univariate analysis (Table 1).
Socio-demographic determinants significantly associated with the non-vaccination against 2009 A/H1N1 influenza virus were maternal age, geographic origin, lifestyle, and socio-professional categories.
Occurrence of a flu symptom since the beginning of the pregnancy was associated with a lack of 2009 A/H1N1 influenza vaccination (p = 0.04). On the opposite, no association was found between vaccine uptake and the presence of a co-morbidity associated with higher risk of severe viral infection (p = 0.14).
Obstetric factors, significantly associated with 2009 A/H1N1 influenza non-vaccination, were twin pregnancy and significant obstetric history. None of the current pregnancy complications was significantly associated with non-vaccination.
The lack of seasonal flu vaccination in the previous 5 years and smoking during pregnancy were correlated with A/H1N1 non-vaccination. None of the factors associated with a higher risk of exposition and disease-spreading to the virus (i.e. high number of children under 18 living at home or job characteristics) was associated with influenza A/H1N1 non-vaccination.
Multivariate analysis (Table 2).
Factors associated with a lack of vaccination against pandemic flu were geographic origin (Sub-Saharan African origin, adjusted Odd Ratio (OR) 5.4, 95% CI [2.3–12.7], North African origin, adjusted OR 2.5, 95% CI [1.3–4.7] and Asian origin, adjusted OR 2.1, 95% CI [1.7–2.6] compared to French and European origin), socio-professional categories (farmers, craftsmen and tradesmen, adjusted OR 2.3, 95% CI [2.0–2.6], intermediate professionals, adjusted OR 1.3, 95% [1.0–1.6] and employees and manual workers, adjusted OR 2.5, 95% CI [1.4–4.4] compared to managers, intellectual professionals). The probability of not receiving A/H1N1 vaccine was lower among women vaccinated against seasonal flu in the previous 5 years (adjusted OR 0.6, 95% CI [0.4–0.8]) and among women who stopped smoking before or early during pregnancy (adjusted OR 0.6, 95% CI [0.4–0.8]) in comparison with non-smoking women (Table 2). The non–vaccination rate significantly increased after November (December, adjusted OR 7.5, 95% CI [6.9–8.2], January adjusted OR 35.4, 95% CI [10.8–116], compared to November).
Our study showed that, despite strong recommendations for vaccination against pandemic flu of pregnant women, a large proportion (62.9%) of pregnant women did not get the vaccine, particularly immigrant women and women having a low socio-economic status.
The percentage of non-vaccinated women is close to the estimation published by the French Institute for Public Health (InVS) reporting 77.3% of non-vaccinated pregnant women against pandemic flu . The low vaccination coverage against influenza A/H1N1 in France and others countries could be partly explained by the controversy on the safety and efficacy of pandemic vaccines, and by a lack of knowledge about the risks of complications and mortality of influenza A/H1N1 , , . In France, vaccination was performed in specifically dedicated centers located in non-medical public centers or gymnasiums, a fact that certainly reduced the convenience of the procedure and most of all the ability of family physicians to directly provide medical information promoting vaccination , , . Indeed, in the United States, the percentage of pregnant women vaccinated was higher when vaccination was proposed by family physicians or healthcare professionals , . However, other factors might have influenced pregnant women's decision regarding vaccination. For this reason, our study provides valuable complementary information about determinants of non-vaccination against the pandemic 2009 A/H1N1 influenza in pregnant women.
We found that foreign geographic origin was significantly associated with non-vaccination against pandemic flu. Previous studies have indeed shown a seasonal flu vaccine coverage disparity depending on geographic origin , . This disparity can be explained by a lack of access to information among foreign populations or reticence about Occidental medicines. It has also been shown that a key determinant of vaccination access was the rate of vaccine reimbursement . However since the vaccine was free and available for all in France, economical concerns should not have interfered with the choice of getting vaccinated. However, low incomes socio-professional categories did not get vaccinated as much as the other groups. This higher reticence towards vaccination in this group may reflect lower and biased access to medical information on vaccine benefits and safety.
Patients with medical or obstetrical co-morbidities are known to be a high risk group for severe pandemic flu. Thus, pregnant women with significant co-morbidity, pathological obstetric history or with significant disease during their current pregnancy should have been more vaccinated. However, they were not. This surprising trend has been evidenced elsewhere in another study focusing on seasonal influenza vaccine . This failure might reflect a lack of awareness of healthcare professionals regarding the risks of A/H1N1 respiratory complications among pregnant women with medical or obstetrical co-morbidities and the necessity to encourage them to get vaccinated.
Furthermore, pregnant women at high risk of exposition and likewise disease-spreading should have been more vaccinated. However, women working with the public/ with children, and those with children living at home, were not more vaccinated than women at low risk of exposition and disease-spreading. This failure highlights the risk of large viral spreading beyond this group in the whole community. “More exposition, more risk to develop severe self-illness. More exposition, more risk to spread disease”: such strong messages should be more firmly diffused to the general population, including healthcare workers who did not get significantly more vaccinated than other working groups despite easier access to medical information. These surprising results were consistent with previous studies that have established this same lack of significant relationship between healthcare workers status and higher level of seasonal influenza vaccination , , . It may results from misinformation/misunderstanding about the safety and efficacy of vaccines, which should be improved in case of future pandemic flu vaccination campaign.
In addition, pregnant women who had a seasonal flu vaccination in the previous 5 years got more vaccinated than those who did not had seasonal vaccination in the previous 5 years. Globally, patients that believed in the safety and efficacy of seasonal vaccination were more likely vaccinated against pandemic influenza. Other studies have observed similar trends among people vaccinated against seasonal influenza who were more prone to get vaccinated the following years , . This factor reveals that once one gets vaccinated, he is less reluctant to get vaccinated again. Therefore, an effort on vaccination communication by the media for a year could have a positive impact on revaccination during the following years.
The non–vaccination rate of pregnant women significantly increased after November. On November 20th, 2009, when the vaccination campaign for pregnant women began, the fear of A/H1N1 Influenza complications was at its maximum. Misinformation induced a vaccination drop that could partially explain the increased non–vaccination rate in pregnant women after November. Furthermore, only non-vaccinated women could be included in the cohort, a bias which may explain the lower vaccine coverage for women included after November.
To our knowledge, only one Turkish survey that was conducted in only 314 pregnant women with a very low rate of vaccination (8.9%) studied few sociological, demographic and medical determinants to access pandemic influenza vaccination . The only significant determinant associated with non-vaccination was the occupation: working pregnant women being more vaccinated than pregnant housewives.
Data from the COFLUPREG prospective cohort allow us to study numerous determinants associated with the vaccination against 2009 H1N1 influenza. A large number (882) of women were randomly included and followed-up throughout the pandemic. They were interviewed monthly regarding their vaccination status. This design and the quality of the data reinforce the reliability of the results.
We studied the determinants associated with the effective vaccination against A/H1N1 influenza and not only the intention to get vaccinated. Two French survey-based studies have assessed the determinants associated with the intention to get vaccinated in the general French population , . However, the high discrepancy between the intention to get vaccinated before the pandemic start (61% of the French population in June 27, 2009)  and the effective vaccination rate (7.95% of the French population at the end of the pandemic) is a major limitation of these studies .
Our study has several limitations. First, the pregnant women sample comes from three university maternity hospitals in Paris. The results such as the vaccination incidence and the socio-demographic factors distribution cannot be extrapolated to all French pregnant women. But, this limitation does not interfere with the analysis of associations between studied determinants and non-vaccination among pregnant women. Secondly, women who accepted to participate to the COFLUPREG study were possibly influenced to get vaccinated. Yet, this influence seems to be low regarding the non-vaccination rate among pregnant women in our study (62.9%) which is similar to the French national estimation (77.3% by the InVS).
In conclusion, in a large prospective study conducted in pregnant women during the 2009 H1N1 influenza pandemic, the vaccination coverage against A/H1N1 influenza was low (62.9% of non-vaccinated women), particularly in immigrant women and those having a low socio-economic status. Our study provides unique data analyzing the reasons for the failure of a national vaccination campaign and yields trails for subsequent vaccination campaigns targeting high risk populations.
We thank all the women who participated in the study, all the persons responsible for data collection, and the “French Research Program on Pandemic H1N1v Flu: Institut de Microbiologie et Maladies Infectieuses (IMMI), Inserm”.
¶ Inserm COFLUPREG Study Group members:
O. Launay, P. Loulergue, V. Truster, C. Villeret, M. Cervantes-Gonzales (Centre d'Investigation Clinique de vaccinologie Cochin Pasteur, Hôpital Cochin), F. Goffinet, V. Tsatsaris, C. Le Ray, D. Cabrol (Maternité Port-Royal, Hôpital Cochin), C. Charlier, M. Lecuit, O. Lortholary (Service de maladies infectieuses, Hôpital Necker Enfants Malades), Y. Ville, S. Parat (Maternité Necker-Brune, Hôpital Necker-Enfants Malades), J. Lepercq, C. Francoual (Maternité, Hôpital Saint Vincent de Paul), P.H. Jarreau (service de néonatalogie, Hôpital Cochin), F. Rozenberg, A. Krivine (service de virologie, Hôpital Cochin), M. Leruez-Ville (service de virologie, Hôpital Cochin), S. van der Werf (CNR grippe, Institut Pasteur), JM Tréluyer (service de pharmacologie, Hôpital Cochin), F. Batteux (service d'immunologie biologique, Hôpital Cochin), M.L. Gougeon (Unité 〈〈Immunité virale, biothérapie et vaccins〉〉, Institut Paster).
Conceived and designed the experiments: RF CLR CC J-MT FG OL. Performed the experiments: RF CLR CC J-MT DS YV FG OL. Analyzed the data: RF CLR CA VT. Contributed reagents/materials/analysis tools: RF CLR CA. Wrote the paper: RF CLR FG OL.
- 1. Nicoll A, McKee M (2010) “Moderate pandemic, not many dead–learning the right lessons in Europe from the 2009 pandemic.” Eur J Public Health 20(5): 486–488.
- 2. Chapman GB, Coups EJ (1999) “Predictors of influenza vaccine acceptance among healthy adults.” Prev Med 29(4): 249–262.
- 3. Jones TF, Ingram LA, Craig AS, Schaffner W (2004) “Determinants of influenza vaccination, 2003–2004: shortages, fallacies and disparities.” Clin Infect Dis 39(12): 1824–1828.
- 4. Jamieson DJ, Honein MA, Rasmussen SA, Williams JL, Swerdlow DL, et al. (2009) “H1N1 2009 influenza virus infection during pregnancy in the USA.” Lancet 374(9688): 451–458.
- 5. Rasmussen SA, Jamieson DJ, Bresee JS (2008) “Pandemic influenza and pregnant women.” Emerg Infect Dis 14(1): 95–100.
- 6. Goodnight WH, Soper DE (2005) “Pneumonia in pregnancy.” Crit Care Med 33: 10 SupplS390–397.
- 7. Dubar G, Azria E, Tesniere A, Dupont H, Le Ray C, et al. (2010) “French experience of 2009 A/H1N1v influenza in pregnant women.” PLoS One 5(10).
- 8. World Health Organization. (2010) “Pregnancy and pandemic influenza A (H1N1) 2009: information for programme managers and clinicians”. Available: http://www.who.int/csr/resources/publications/swineflu/h1n1_guidance_pregnancy.pdf, Accessed on 2011 March 17.
- 9. Centers for Disease Control and Prevention (CDC). 2009 H1N1 flu. “What Should Pregnant Women Know About 2009 H1N1 Flu (Swine Flu)” (2009) Available: http://www.cdc.gov/h1n1flu/guidance/pregnant.htm, Accessed on 2011 March 17.
- 10. European Centre for Disease Prevention and Control (ECDC). “Use of specific pandemic influenza vaccines during the H1N1 2009” (2009) Available:http://www.ecdc.europa.eu/en/publications/Publications/0908_GUI_Pandemic_Influenza_Vaccines_during_the_H1N1_2009_Pandemic.pdf. Accessed on 2011 March 17.
- 11. European Commission, Health Security Committee (HSC)/ Early Warning and Response System (EWRS). “EHC/EWRS statement on Influenza A (H1N1): target and priority groups for vaccination.” (2009) Available: http://ec.europa.eu/health/ph_threats/com/Influenza/docs/HSC_EWRS_statement_en.pdf. Accessed on 2011 March 17.
- 12. Haut Conseil de la Santé Publique (HCSP) “Actualisation de l'avis relatif aux recommandations sur les priorités sanitaires d'utilisation des vaccins pandémiques dirigés contre le virus grippal A(H1N1)v” (2009) [in French] Available: http://www.hcsp.fr/docspdf/avisrapports/hcspa20091002_H1N1.pdf. Accessed on 2011 March 17.
- 13. Haut Conseil de la Santé Publique (HCSP) AVIS “Recommandations sur les priorités sanitaires d'utilisation des vaccins pandémiques dirigés contre le virus grippal A(H1N1)v” (2009) [in French] Available: http://www.hcsp.fr/docspdf/avisrapports/hcspa20090907_H1N1.pdf. Accessed on 2011 March 17.
- 14. French Ministry of Health, 〈〈Lancement de la campagne vaccinale contre la grippe A(H1N1) dans les centres de vaccination lundi 09 novembre 2009 (2009) [in French] Available: http://www.sante.gouv.fr/IMG/pdf/Lancement_de_la_campagne_vaccinale_contre_la_grippe_A_H1N1_dans_les_centres_de_vaccination.pdf Accessed on 2011 March 17.
- 15. Setbon M, Raude J (2010) “Factors in vaccination intention against the pandemic influenza A/H1N1.” Eur J Public Health 20(5): 490–494.
- 16. Bone A, Guthmann JP, Nicolau J, Levy-Bruhl D (2010) “Population and risk group uptake of H1N1 influenza vaccine in mainland France 2009–2010: results of a national vaccination campaign.” Vaccine 28(51): 8157–8161.
- 17. Williams RL (2000) “A note on robust variance estimation for cluster-correlated data.” Biometrics 56(2): 645–646.
- 18. Raude J, Caille-Brillet AL, Setbon M (2010) “The 2009 pandemic H1N1 influenza vaccination in France: who accepted to receive the vaccine and why?” PLoS Curr 2: RRN1188.
- 19. White SW, Petersen RW, Quinlivan JA (2010) “Pandemic (H1N1) 2009 influenza vaccine uptake in pregnant women entering the 2010 influenza season in Western Australia.” Med J Aust 193(7): 405–407.
- 20. Schwarzinger M, Verger P, Guerville MA, Aubry C, Rolland S (2010) “Positive attitudes of French general practitioners towards A/H1N1 influenza-pandemic vaccination: a missed opportunity to increase vaccination uptakes in the general public?” Vaccine 28(15): 2743–2748.
- 21. European Medicines Agency, Science Medicines Health (2010) “Twenty-second pandemic pharmacovigilance update” Available: http://www.ema.europa.eu/docs/en_GB/document_library/Report/2010/08/WC500095870.pdf Accessed on 2011 March 17.
- 22. Ozer A, Arikan DC, Kirecci E, Ekerbicer HC (2010) “Status of pandemic influenza vaccination and factors affecting it in pregnant women in Kahramanmaras, an eastern Mediterranean city of Turkey.” PLoS One 5(12): e14177.
- 23. Centers for Disease Control and Prevention (CDC) (2010) “Seasonal Influenza and 2009 H1N1 Influenza Vaccination Coverage Among Pregnant Women — 10 States, 2009–10 Influenza Season Weekly” December 3, 2010 / 59(47);1541–1545. Available: http://www.cdc.gov/mmwr/preview/mmwrhtml/mm5947a1.htm Accessed on 2011 March 17.
- 24. Linn ST, Guralnik JM, Patel KV (2010) “Disparities in influenza vaccine coverage in the United States, 2008.” J Am Geriatr Soc 58(7): 1333–1340.
- 25. Link MW, Ahluwalia IB, Euler GL, Bridges CB, Chu SY, et al. (2006) “Racial and ethnic disparities in influenza vaccination coverage among adults during the 2004–2005 season.” Am J Epidemiol 163(6): 571–578.
- 26. Endrich MM, Blank PR, Szucs TD (2009) “Influenza vaccination uptake and socioeconomic determinants in 11 European countries.” Vaccine 27(30): 4018–4024.
- 27. Rehmet S, Ammon A, Pfaff G, Bocter N, Petersen LR (2002) “Cross-sectional study on influenza vaccination, Germany, 1999–2000.” Emerg Infect Dis 8(12): 1442–1447.
- 28. Schwarzinger M, Flicoteaux R, Cortarenoda S, Obadia Y, Moatti JP (2010) “Low acceptability of A/H1N1 pandemic vaccination in French adult population: did public health policy fuel public dissonance?” PLoS One 5(4): e10199.