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Knowledge gaps and acquisition about HPV and its vaccine among Brazilian medical students

  • Annielson de Souza Costa,

    Roles Conceptualization, Data curation, Investigation, Project administration, Resources, Visualization, Writing – original draft, Writing – review & editing

    Affiliation Disciplina de Ginecologia, Departamento de Obstetricia e Ginecologia, Faculdade de Medicina FMUSP, Universidade de São Paulo, São Paulo, SP, Brazil

  • Jéssica Menezes Gomes,

    Roles Data curation, Formal analysis, Methodology, Visualization, Writing – original draft, Writing – review & editing

    Affiliation Disciplina de Ginecologia, Departamento de Obstetricia e Ginecologia, Faculdade de Medicina FMUSP, Universidade de São Paulo, São Paulo, SP, Brazil

  • Ana Cláudia Camargo Gonçalves Germani,

    Roles Methodology, Validation, Visualization, Writing – review & editing

    Affiliation Departamento de Medicina Preventiva, Faculdade de Medicina FMUSP, Universidade de São Paulo, São Paulo, SP, Brazil

  • Matheus Reis da Silva,

    Roles Data curation, Formal analysis, Methodology, Writing – review & editing

    Affiliation Disciplina de Ginecologia, Departamento de Obstetricia e Ginecologia, Faculdade de Medicina FMUSP, Universidade de São Paulo, São Paulo, SP, Brazil

  • Edige Felipe de Sousa Santos,

    Roles Data curation, Formal analysis, Methodology, Supervision, Writing – review & editing

    Affiliation Study Design and Scientific Writing Laboratory at ABC Medical School, Santo André, SP, Brazil

  • José Maria Soares Júnior,

    Roles Formal analysis, Methodology, Project administration, Writing – original draft, Writing – review & editing

    Affiliation Disciplina de Ginecologia, Departamento de Obstetricia e Ginecologia, Faculdade de Medicina FMUSP, Universidade de São Paulo, São Paulo, SP, Brazil

  • Edmund Chada Baracat,

    Roles Conceptualization, Project administration, Supervision, Visualization

    Affiliation Disciplina de Ginecologia, Departamento de Obstetricia e Ginecologia, Faculdade de Medicina FMUSP, Universidade de São Paulo, São Paulo, SP, Brazil

  • Isabel Cristina Esposito Sorpreso

    Roles Conceptualization, Data curation, Methodology, Project administration, Supervision, Validation, Visualization

    icesorpreso@usp.br

    Affiliation Disciplina de Ginecologia, Departamento de Obstetricia e Ginecologia, Faculdade de Medicina FMUSP, Universidade de São Paulo, São Paulo, SP, Brazil

Abstract

Objective

To analyze factors associated with knowledge gaps and acquisition about HPV and its vaccine among medical students.

Method

Cross-sectional and analytical study conducted at the University of São Paulo Medicine School, in 2016. A convenience sample of students completed a data collection instrument containing questions on knowledge about HPV and its vaccine, and vaccine acceptability. The level of knowledge and acceptability established as a "good level" was 80% of correct answers on the questionnaire. Internal validity was calculated with Cronbach's alpha value (α) = 0.74. Bivariate and multiple analyzes were performed using the Stata® program (Stata Corp, College Station, USA) 14.0.

Results

To evaluate the internal consistency of the instrument applied, the Cronbach's alpha equation was used, obtaining the alpha value (α) = 0.74 for this population. This value attests that the consistency of the answers obtained with this questionnaire is considered substantial and acceptable. Among the 518 medical students who completed the survey, the majority were men 312 (60.4%) with a mean age of 23 (± 2.8) years old; 199 (38.3%) of the students were in the final years of graduation (5th and 6th years). Students in the first, second and third year of study had a 51% higher risk of a knowledge gap when compared to students in the final years of graduation [PR 1.51 (1.3:1.8); p <0.001]. Men were at 22% higher risk of unsatisfactory knowledge than women are [PR 1.22 (1.07: 1.39). There was no knowledge acquisition during medical school in the following questions (p <0.05), indication of vaccine for individuals with HIV and contraindication in pregnant patients.

Conclusion

Male medical students, in the first year of medical school, and those who were not vaccinated had significant knowledge gaps about HPV. The novelty of the study includes the finding of non- acquisition of knowledge during the medical school graduation on safety and vaccination schedule and vaccine administration in specific populations.

Introduction

Knowledge acquisition about HPV, its clinical repercussions, and its vaccine is developed throughout the graduate years of medical education in developed and developing countries [1,2]. The skills and competences acquired by these students will be used for men's and women's health care, especially for HPV-induced cancer (cervical, oropharynx, anus, rectum and penis) and precursor lesions at different levels of care, including health counseling and education, prevention, diagnosis, treatment and recovery [2,3].

As future health care providers, these medical students will perform preventive actions (HPV vaccination) and promotion of cervical cancer screening [4], which is a high prevalence and mortality disease in Brazil and worldwide, representing a public health problem [5,6]. In Brazil the HPV vaccine is available in the National Immunization Program for female population aged nine to 14 years old, male population aged 11 to 14 years old [7].

The attitude of non-recommendation of HPV vaccine by health professionals is related to their own understanding of HPV and the vaccine [8]. Berenson et al. (2015) [9] found that senior medical students had insufficient basic knowledge about HPV epidemiology and HPV vaccine.

The identification of knowledge gaps and barriers of acceptance during medical education can support proposals for improving the content delivered to students, reduce negative beliefs, and promote HPV vaccines recommendation [10]. Thus, medical students should be encouraged to receive education about HPV, prevention and vaccination, to enable them to deliver effective vaccine recommendations, guiding their patients and accurately responding to questions [911]. The objective of this research was to analyze factors associated with knowledge gaps and acquisition about HPV and its vaccine among medical students.

Method

Study design, place and date

This was a cross-sectional study conducted at the University of São Paulo Medicine School, São Paulo, Brazil, 2016.

Participants

The population was the 900 students enrolled in the Medicine School of the University of Sao Paulo. The appropriate sample size for the study, based on parameters [12] of 5% error, 95% confidence level, and 80% test power was estimated to 270 individuals. A convenience sample of both sexes’ students over the age of 18 from the first to sixth year of medical school were invited to participate voluntarily in the research, whit no financial incentive offered to the respondents, who signed the Informed Consent Form.

Non-inclusion criteria. Individuals with cognitive problems or any interest that may influences the answer to the questions contained in the data collection instrument.

Data collection procedure

Data collection was performed by undergraduate medical students previously trained to administer the instruments with the support and supervision of the researcher. To minimize selection bias, data collection occurred in student classrooms, between classes, on breaks in clinical rotations or in housing units. After completing the instrument, accurate information about HPV was provided and questions answered.

Instrument

The instrument (Box 1) is a previous study developed and applied in similar populations. In addition to socio-demographic questions, there were 31 questions divided into six sections [13,14]:

Box 1. Instrument: HPV knowledge and acceptability questionnaire

Domain 1: Knowledge about HPV

1. Do you know what HPV is?

(  )no (  )yes (  )not sure

2. Is HPV a virus?

(  )no (  )yes (  )not sure

3. Is HPV a sexually transmitted disease?

(  )no (  )yes (  )not sure

4. Can HPV cause cervical cancer?

(  )no (  )yes (  )not sure

5. Can HPV cause changes in the Pap (screening for cervical cancer)?

(  ) no (  ) yes (  ) not sure

6. Is cervical cancer a major cause of cancer in women?

(  )no (  )yes (  )not sure

7. Can smoking increase the risk of cervical cancer?

(  )no (  )yes (  )not sure

Domain 2: Knowledge about HPV vaccine

8. Does the HPV vaccine prevent cervical cancer?

(  )no (  )yes (  )not sure

9. Should the HPV vaccine be given before the first sexual intercourse?

(  )no (  )yes (  )not sure

10. Can the HPV vaccine be given to people who have had sex?

(  )no (  )yes (  )not sure

11. Can HPV vaccine be harmful to health?

(  )no (  )yes (  )not sure

12. Can the HPV vaccine cause HPV infection?

(  )no (  )yes (  )not sure

13. Is the HPV vaccine provided by the Government?

(  )no (  )yes (  )not sure

14. Is the HPV vaccine part of the girls’ immunization record?

(  )no (  )yes (  )not sure

15. Where did you hear about the HPV vaccine?

(  )School (  )Friends (  )TV/radio (  )Internet (  )Health professional (  )Others_____

16. Are 3 doses required for complete vaccination?

(  )no (  )yes (  )not sure

17. Does the HPV vaccine lessen the chance of having genital warts?

(  )no (  )yes (  )not sure

18. Does the HPV vaccine decrease the chance of having Pap (cervical cancer screening) changes?

(  )no (  )yes (  )not sure

Domain 3: HPV Vaccine Barriers

19. Do you think the HPV vaccine would stimulate the onset of sexual life earlier?

(  )no (  )yes (  )not sure

20. Do you think that after the HPV vaccine you still need to use a condom?

(  )no (  )yes (  )not sure

21. Do you think that after the HPV vaccine you still need to have the pap (cervical cancer screening)?

(  )no (  )yes (  )not sure

Domain 4: Acceptability of HPV vaccine

22. Do you know anyone who has already had the HPV vaccine?

(  )no (  )yes (  )not sure

23. Have you taken the HPV vaccine yet?

(  )no (  )yes/ If yes (  )public services (  )particular services (  )not sure

24. Would you recommend the HPV vaccine for a child, friend, or relative to take?

(  )no (  )yes (  )not sure

Domain 5: Personal Background

Answer only if you are female

25. Have you ever had pap (cervical cancer screening)?

(  )no (  )yes (  )not sure

26. Have you ever had cervical cancer?

(  )no (  )yes (  )not sure

27. Have you ever had genital warts?

(  )no (  )yes (  )not sure

Domain 6: Health professionals

Answer if you are a health professional

28. Patients living with HIV can take the vaccine?

(  )no (  )yes (  )not sure

29. Am I confident to indicate HPV vaccination for patients?

(  )no (  )yes (  )not sure

30. Do I feel confident giving information about HPV to patients?

(  )no (  )yes (  )not sure

31. Can pregnant women take the vaccine?

(  )no (  )yes (  )not sure

The Domain 5: Personal background was not considered in this study as it concerns medical personal information.

Variables

The dependent variables were gender, age, marital status, number of children, year of medical study, education, income, grade, and vaccination status. The independent variables were the total scores for each of the themes: knowledge about HPV, knowledge about HPV vaccine, barriers to HPV vaccination, acceptability of HPV vaccine and specific knowledge of health professionals.

The good level of knowledge was classified as adequate when the percentage of correct answers exceeded 80% and was based on the previously published score in a similar population [14]. Knowledge acquisition was considered when students in 1st, 2nd and 3th years of medical school achieved less than 80% correct answers and students in 5th and 6th years reached more than 80%. This shows that throughout the course the student gained knowledge about HPV and its vaccine.

Data analysis

Data was entered into Excel and analysis performed by two researchers (EFSS and ASC). All analyzes were performed using the Stata program (Stata Corp, College Statiom, USA) 14.0. The dataset is available on the Harvard Dataverse, https://doi.org/10.7910/DVN/IR3UJO [15].

Knowledge acquisition exists when the percentage of correct answers in the basic cycle (1st, 2nd and 3rd year of medical study) is less than 80% and in internship cycle (5th and 6th year of medical study) is higher than 80% limit. This shows that throughout the course, the student acquired knowledge about HPV and its vaccine.

For descriptive data analysis, quantitative variables were computed for measures of central tendency (mean, median and quartiles) and dispersion measures (variance, standard deviation and interquartile range), according to the data adherence to Gaussian distribution. And the Shapiro-Wilk test.

Qualitative variables were expressed as absolute and relative frequencies. Confidence intervals of the respective measurements were calculated.

For bivariate analysis of categorical variables, the chi-square test was used and for multiple analysis, Poisson regression was performed. Values were considered statistically significant with two-tailed p-value <0.05 with a 95% confidence interval.

Non-responding was represented as missing and did not exceed 5% of question-by-question responses. The response rate of the variables (questionnaire questions) was an average of 99.2% (SD 0.9%).

Ethical aspects

The research followed the rules of the National Health Council and was approved by the Faculdade de Medicina–Universidade de Sao Paulo Research Ethics Committee under opinion No. 1,938,072.

Results

To evaluate the internal consistency of the instrument applied, the Cronbach's alpha equation was used, obtaining the alpha value (α) = 0.74 for this population. This value attests that the consistency of the answers obtained with this questionnaire is considered substantial and acceptable [16].

Of the 520 medical students who answered the questionnaire, the majority of respondents were male 60.2% (312), 63.8% (332) aged 20–24 years, 98.9% (489) of the respondents were single and two students reported having children (Table 1).

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Table 1. Medical students sociodemographic characteristics, medical school of the university of Sao Paulo, Brazil, 2016.

https://doi.org/10.1371/journal.pone.0230058.t001

According to grade 61.7% (321) students were in 1st, 2nd and 3th year of medical study and 38.2% (199) were in 5th and 6th year of medical study. Of the participants, 81.5% (419) were not vaccinated for the HPV vaccine (Table 1).

Table 2 shows the factors associated with the knowledge gap about HPV, its clinical repercussions and its vaccine among students considering the variables: gender, age group, marital status, graduation period, having been vaccinated and income. Multivariate analysis showed a difference in knowledge by gender (p <0.01) and year of study (p <0.01). Men had a 22% higher risk of having unsatisfactory level of knowledge than the women interviewed [PR 1.2 (1.1: 1.4)]. It is observed that there was a difference in students by grade with first, second and third year students having a 51% risk of having a knowledge gap than students in the final cycle [PR 1.51 (1.3:1.8)] (Table 2). Students who were not vaccinated against HPV were 41% more likely to have a knowledge gap than vaccinated students [PR 1.41 (1.12: 1.78)].

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Table 2. Factors associated with knowledge gap about HPV, its clinical repercussions and its vaccine among medical students at the medical school of university of São Paulo, Brazil, 2016.

https://doi.org/10.1371/journal.pone.0230058.t002

Differences in knowledge of HPV and its vaccine between men and women (p <0.05) were identified in the questions “Can smoking increase the risk of cervical cancer?” [0.87 (0.79: 0.97)], "Can the HPV vaccine be given to people who have had sex?" [0.93 (0.87: 0.99)], "Can the HPV vaccine cause HPV infection?" [0.82 (0, 73: 0.92)], “Is the HPV vaccine part of the girls' immunization records?” [0.77 (0.67: 0.89)], “Are 3 doses required for complete vaccination?” [0, 57 (0.49: 0.67)], “Does the HPV vaccine decrease the chance of having changes in the Pap smear test?” [0.90 (0.82: 0.98)], “Do you think the HPV vaccine will stimulate the onset of sexual activity at an earlier age?”[0.94 (0.89: 0.98)], (S1 Table).

Table 3 highlights the knowledge acquisition (not acquired / acquired) and the knowledge level (adequate / inadequate) of participants by class level. There was no knowledge acquisition and the level of knowledge was inadequate in the fists years of study in the following questions (p <0.05): “Can smoking increase the risk of cervical cancer?” [0.65 (0.57 : 0.75)]; “Can HPV vaccine be harmful to health? [0.66 (0.53: 0.83)]; “Is the HPV vaccine part of a girls' vaccination card?” [0.75 (0.66: 0.86)]; “Are 3 doses required for full vaccination?” [0.76 (0.65: 0.90)]; “Can patients living with HIV get the vaccine?” [0.56 (0.44:0.71)]; "Can pregnant patients get the vaccine?" [0.50 (0.25: 1.00)].

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Table 3. Acquisition and level of knowledge about HPV and its vaccine among medical students, according to grade, at the medical school of university of São Paulo, Brazil, 2016.

https://doi.org/10.1371/journal.pone.0230058.t003

Suitable knowledge level was considered at 80%

The questions “should HPV vaccine be applied before first sexual intercourse?” And “does HPV vaccine reduce the chance of genital warts?” [0.96 (0.86: 1.07)]; [1.02 (0.89: 1.16)], respectively, did not show significance in the comparison between the basic and hospitalized cycle, however, showed that both groups did not have a good level of knowledge and there was no knowledge acquisition during graduation.

The main sources of information about HPV and its vaccine shown in Fig 1 and reported by participants were: “Healthcare Professionals” (40%, n = 207), “Media (TV / radio)” (28%, n = 146) and “School” (26% n = 136).

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Fig 1. Sources of information on HPV and its quadrivalent vaccine among medical students.

https://doi.org/10.1371/journal.pone.0230058.g001

Discussion

This study analyzed actors associated with the HPV knowledge gap and HPV vaccine acceptability among medical students. Results can support medical education given the importance of the subject in public health and the introduction of the vaccine into Brazil’s National Immunization Program in 2014 [17]. We found that males had attended first, second and third year of medical study and had not been vaccinated against HPV are related factors to gap of knowledge.

Knowledge gaps between males and females about HPV and its vaccine has been found in both medical students [1821] and in the non-university population, corroborating our data [22,23]. While the higher level of knowledge found in females in this study is a function of the personal and individual experiences, since medical students of both sexes are exposed to the same amount of theoretical concepts before graduation [3]. In addition, a study shows that male parents underestimate the effects of HPV in males and prioritize the vaccine for women [24]. It is necessary to disseminate correct information to parents and to emphasize the fact that they are not actively involved and open to dialogue when it comes to their children's sexual education [25].

Regarding the undergraduate period, it was evidenced that students in the fists years of graduation have a greater knowledge gap than students in the final cycle. Similar results were found in the research by Yam et al, (2017) [26] and Silva et al, (2017) [27], which showed that senior medical students (3rd grade or above) have a higher level of knowledge than junior medical students (below 3rd grade). This is expected as senior students experience greater exposure to HPV classes and content.

The results show that not having been vaccinated against HPV was associated with lower levels of knowledge. Other studies have found low HPV vaccination rates among medical students was related to lack of knowledge about vaccine safety and efficacy, religious and cultural issues, and lack of government programs that cover the age range of students [2831]. In addition, vaccination rates are higher in countries with national HPV vaccination programs [3]. Vaccinated students have been found to be more willing to recommend HPV vaccination and clarify patient questions and are more likely to follow the recommendations and take every opportunity to offer HPV vaccine [30,31].

For the question “Can smoking increase the risk of cervical cancer?” there was no knowledge acquisition throughout medical school and there was a knowledge gap between the students in the first and and last study years. Silva et al, (2017) [27] found different results in their research, showing that medical students understand that cervical cancer is associated with behavioral patterns such as smoking. Exposure, age at onset and frequency of cigarette smoking are factors that influence the incidence of cervical intraepithelial neoplasia (CIN) and cervical cancer [32]. The relation between smoking and cervical cancer should be reinforced in the medical school curriculum since smoking is a public health problem and interferes with the health-disease process.

In the question, “Should the HPV vaccine be given before the first sexual intercourse?”, Although there was no significant difference in knowledge between students of the basic and final cycle, it was observed that both have insufficient level of knowledge. This theme should be reinforced during the undergraduate years as it can be a barrier to vaccination because it is a sex-related theme and can be taboo in specific populations.

There was no acquisition of knowledge along the graduation to the question "The HPV vaccine may be harmful to health?". The vaccine is safe and approved by the World Health Organization Global Vaccine Safety Advisory Board [33]. Vaccine safety needs to be included in the undergraduate subjects, since it is in universities that the professionals responsible for transmitting information to the population are trained and thus become informers of this new technology introduced in the health system.

Programs for successful implementation of HPV vaccination include factors such as intersectoral involvement (across the education and health sector), as well as collaboration between institutions in the health, education and financial sectors. The future efforts should focus on programs that can be implemented within health care settings, such as reminder and recall strategies and physician-focused efforts, as well as the use of alternative community-based locations, such as schools [34,35].

In Brazil, in 2014, vaccine implementation had been used together with the education sector in public and private schools [33,35], bringing benefits in terms of vaccine coverage rates. Our study reinforces the themes that must be addressed during medical training in order to strengthen the physician's action in providing information and patient’s counseling. In the questions, “Are 3 doses required for full vaccination?” And “Is HPV vaccine part of the girl’s vaccination calendar?” There was no knowledge acquisition during the medical course and a knowledge gap was verified between the students of the basic cycle and the final cycle. The HPV vaccine was implanted in Brazil by PNI in March 2014, and then the vaccination schedule was modified with adjustment in the number of doses required and changes in the target population [19]. During graduation, the importance of reviewing the National Immunization Program and its updates contained in the National Health System (NHS) should be reinforced.

In the question, “Does HPV vaccine decrease the chance of having genital warts?” no knowledge acquisition occurred, and it remained inadequate in both periods. Studies show substantial effects of HPV vaccine in reducing anogenital warts and precancerous lesions [3638].

The students in this research have significant knowledge gaps in specific questions to health professionals; as the indication of the vaccine for people with HIV and the contraindication in pregnant patients. Diverging from our results, Silva and Monteiro (2016) [39] identified in another Brazilian region that medical students demonstrated knowledge about the need for cervical cancer screening in HIV-positive women. Studies show that health professionals are important in vaccine counseling [40]. Moreover, the relationship of trust between the healthcare professional and the patient exists through clear and accessible and sometimes culturally appropriate communication and information about the HPV vaccination program [41]. This relationship is reflected in “healthcare professionals” being the main sources of information about HPV and its vaccine, followed by “Media (TV / radio)” and “School”. Williams et al, (2013) [40] points out that health care providers play a more active role in recommending HPV vaccines, and recent studies show that a patient receiving a doctor's recommendation is 4–5 times more likely to get vaccinated. Our results on information sources reinforce the importance of creating spaces on health topics for medical student self-care.

It is worth mentioning that the phenomenon called vaccine hesitation (which consists of delay in accepting or refusing vaccines, despite the availability of vaccination services) [41,42], is a fundamental determinant for low HPV vaccination rates. Studies show that potential determinants of vaccine hesitation are communication and preventive attitudes. Health professionals act as a key factor in reducing vaccine hesitation [43,44].

Studies [4547] demonstrate the importance of the physician in primary health care setting and vaccination counseling. Furthermore, the authors describe care practices based on the patient's medical relationship and health promotion interventions based on the individual care. Our study shows information and knowledge gaps that must be acquired during the medical graduation so that the student can exercise health education and individual counseling of his patients.

Limitations of the study include the cross-sectional design which does not allow understanding over time how and when individuals gained knowledge about HPV, it is not possible to distinguish whether knowledge acquisition was a cause or a consequence according to the student's level of education, neither the individual acquisition of each student. The instrument did identify other possible associated factors such as ethnicity, culture and religion that may be associated. The data collection took place in an internationally recognized University by convenience sample and findings may not be representative of other Brazilian medical schools.

Integration between health professionals and the population is key to ensuring adequate vaccine coverage and ensuring promising vaccine results. The encouragement of information, counseling and continuing education is recommended as a strategy to broaden the acceptance of the vaccine in order to settle its implementation and ensure its effectiveness in reducing future cervical cancer cases [41,42].

Thus, our study brings the novelty of the non-acquisition of knowledge during medical school, especially among unvaccinated males on the important issues in women's and men's health. Other areas of minimal knowledge is the relationship between tobacco use and cervical cancer, the safety of vaccine, schedule and schedule used by the NHS, being allowed to administer the vaccine in HIV patients and not indicated among pregnant women.

Conclusion

Female and students in 5th and 6th years are more knowledgeable about HPV and its vaccine. Males, the basic cycle and not being vaccinated are factors associated with knowledge gaps among medical students.

The gaps in knowledge acquisition during graduation occur on the themes: relationship of tobacco with cervical cancer, safety and vaccination scheme in special populations such as immunosuppressed and pregnant women should be reinforced in the contents of medical training programs.

Supporting information

S1 Table. Knowledge about HPV and its quadrivalent vaccine among medical students by gender, medical school of university of São Paulo, Brazil, 2016.

https://doi.org/10.1371/journal.pone.0230058.s001

(PDF)

References

  1. 1. Yörük S, Açıkgöz A, Ergör G. Determination of knowledge levels, attitude and behaviors of female university students concerning cervical cancer, human papiloma virus and its vaccine. BMC Womens Health. 2016;16:51. pmid:27487848
  2. 2. Chernyshov PV, Humenna I. Human papillomavirus: vaccination, related cancer awareness, and risk of transmission among female medical students. Acta Dermatovenerol Alp Pannonica Adriat. 2019;28(2):75–79. pmid:31233171
  3. 3. Cinar O, Ozkan S, Aslan GK, Alatas E. Knowledge and Behavior of University Students toward Human Papillomavirus and Vaccination. Asia Pac J Oncol Nurs. 2019;6:300–7. pmid:31259227
  4. 4. Head KJ, Vanderpool RC, Mills LA. Health care providers' perspectives on low HPV vaccine uptake and adherence in Appalachian Kentucky. Public Health Nurs. 2013;30(4):351–60. pmid:23808860
  5. 5. Instituto Nacional de Câncer (INCA/MS). Controle do câncer do colo do útero: Conceito e magnitude [Internet]. [modified 2019 Jun 21]. Available from:https://www.inca.gov.br/controle-do-cancer-do-colo-do-utero/conceito-e-magnitude. Accessed July 16, 2019.
  6. 6. World Health Organization (WHO). Cancer: Diagnosis and screening–Cervical cancer [Internet]. 2017;92(19):241–68. Accessed on: August 08, 2019. Available from: https://www.who.int/cancer/prevention/diagnosis-screening/cervical-cancer/en/. Accessed August 24, 2019.
  7. 7. Brasil. Ministério da Saúde. Coordenação Geral do Programa Nacional de Imunizações (CGPNI). Nota Informativa nº 135-SEI/2017-CGPNI/DEVIT/SVS/MS, 2018. Available at: https://saude.es.gov.br/Media/sesa/Imuniza%C3%A7%C3%A3o/SEI_MS%20-%20Nota%20Informativa%20135%20-%20mudancas%20no%20calendario%20nacional%20de%20vacinacao%202018.pdf
  8. 8. Malo T. L., Giuliano A. R., Kahn J. A., Zimet G. D., Lee J. H., Zhao X., et al. (2014). Physicians' human papillomavirus vaccine recommendations in the context of permissive guidelines for male patients: a national study. Cancer Epidemiology and Prevention Biomarkers, 23(10), 2126–2135.
  9. 9. Berenson A. B., Rahman M., Hirth J. M., Rupp R. E., & Sarpong K. O. (2015). A brief educational intervention increases providers' human papillomavirus vaccine knowledge. Human vaccines & immunotherapeutics, 11(6), 1331–1336.
  10. 10. Rosberger Z. Rosberger Z., Krawczyk A., Stephenson E., Lau S. HPV vaccine education: enhancing knowledge and attitudes of community counselors and educators. Journal of Cancer Education. 2014. 29(3):473–477. pmid:24146258
  11. 11. Chen MT; Leung YP. Factors associated with human papillomavirus vaccination among Chinese female university students in Hong Kong. Am Int J Soc Sci. 2016; 3:56–62.
  12. 12. Agranonik M, Hirakata VN. Cálculo de tamanho de amostra: proporções. Clinical & Biomedical Research, 2011, 31(3).
  13. 13. Sousa PDL e Takiuti AD, Baracat EC Sorpreso ICE, Abreu LC de. Knowledge and acceptance of HPV vaccine among adolescents, parents and health professionals: construct development for collection and database composition. J Hum Growth Dev [Internet]. 2018 Mar 12;28(1):58.
  14. 14. Pereira JEG, Gomes JM, Costa AS, Figueiredo FWS, Adami F, Santos EFS, et al. Knowledge and acceptability of the human papillomavirus vaccine among health professionals in Acre state, western Amazon. Clinics. 2019, 74, e1166. Epub October 03, 2019. pmid:31596339
  15. 15. Sorpreso ICE; Baracat EC; Soares Jr, 2020, "Medical Students' HPV Knowledge—2016", https://doi.org/10.7910/DVN/IR3UJO, Harvard Dataverse, DRAFT VERSION, UNF:6:of2CC0ip6OSId86F687zXA = = [fileUNF]
  16. 16. Landis JR, Koch GG. The measurement of observer agreement for categorical data. biometrics, 1977. 159–174. pmid:843571
  17. 17. Brasil, Programa Nacional de Imunização–PNI. Available from http://pni.datasus.gov.br/consulta_hpv_14_C01.php. Accessed September 18, 2019.
  18. 18. Rajiah K, Maharajan MK, Chin NS, Num KS. Awareness and acceptance of human papillomavirus vaccination among health sciences students in Malaysia. Virusdisease. 2015;26(4):297–303. pmid:26645041
  19. 19. Kwang NB, Yee CM, Shan LP, Teik CK, Chandralega KN, Abdul Kadir AK. Knowledge, perception and attitude towards human papillomavirus among pre-university students in Malaysia. Asian Pac J Cancer Prev. 2014;15(21):9117–23. pmid:25422188
  20. 20. Makwe CC, Anorlu RI, Odeyemi KA. Human papillomavirus (HPV) infection and vaccines: knowledge, attitude and perception among female students at the University of Lagos, Lagos, Nigeria. J Epidemiol Glob Health. 2012;2(4):199–206. pmid:23856501
  21. 21. Sherman SM, Nailer E, Minshall C, Coombes R, Cooper J, Redman CW. Awareness and knowledge of HPV and cervical cancer in female students: A survey (with a cautionary note). J Obstet Gynaecol. 2016;36(1):76–80. pmid:26408400
  22. 22. Bowyer HL, Marlow LA, Hibbitts S, Pollock KG, Waller J. Knowledge and awareness of HPV and the HPV vaccine among young women in the first routinely vaccinated cohort in England. Vaccine. 2013;31(7):1051–6. pmid:23277094
  23. 23. Zouheir Y, Daouam S, Hamdi S, Alaoui A, Fechtali T. Knowledge of Human Papillomavirus and Acceptability to Vaccinate in Adolescents and Young Adults of the Moroccan Population. J Pediatr Adolesc Gynecol. 2016;29(3):292–8. pmid:26612116
  24. 24. Bianco A, Pileggi C, Iozzo F, Nobile CG, Pavia M. Vaccination against human papilloma virus infection in male adolescents: knowledge, attitudes, and acceptability among parents in Italy. Hum Vaccin Immunother. 2014;10(9):2536–42. pmid:25483471
  25. 25. Napolitano F, Napolitano P, Liguori G, Angelillo IF. Human papillomavirus infection and vaccination: Knowledge and attitudes among young males in Italy. Hum Vaccin Immunother. 2016;12(6):1504–10. pmid:27070042
  26. 26. Yam PW, Lam PL, Chan TK, Chau KW, Hsu ML, Lim YM, et al. A cross sectional study on knowledge, attitude and practice related to Human Papillomavirus vaccination for cervical cancer prevention between medical and non-medical students in Hong Kong, Asian Pac J Cancer Prev. 2017;18:1689–95. pmid:28670890
  27. 27. Silva SL, Vargas AL, Almeida RJ, Saddi VA, Cordeiro JABL, Silva AMTC. Knowledge of medical students about hpv and cervical cancer. Saúde (Santa Maria). 2017. 43(2):125–136.
  28. 28. Koç Z. University students' knowledge and attitudes regarding cervical cancer, human papillomavirus, and human papillomavirus vaccines in Turkey. J Am Coll Health. 2015;63(1):13–22. pmid:25257501
  29. 29. Uzunlar Ö, Özyer Ş, Başer E, Toğrul C, Karaca M, Güngör T. A survey on human papillomavirus awareness and acceptance of vaccination among nursing students in a tertiary hospital in Ankara, Turkey. Vaccine. 2013;31(17):2191–5. pmid:23375980
  30. 30. Ortashi O, Raheel H, Khamis J. Acceptability of human papillomavirus vaccination among male university students in the United Arab Emirates. Vaccine. 2013;31(44):5141–4. pmid:23965182
  31. 31. Kwan TT, Chan KK, Yip AM, Tam KF, Cheung AN, Young PM, et al. Barriers and facilitators to human papillomavirus vaccination among Chinese adolescent girls in Hong Kong: a qualitative-quantitative study. Sex Transm Infect. 2008;84(3):227–32. pmid:18256106
  32. 32. Haverkos H, Rohrer M, Pickworth W. The cause of invasive cervical cancer could be multifactorial. Biomed Pharmacother. 2000;54(1):54–9. pmid:10721464
  33. 33. World Health Organization. Human papillomavirus vaccines: WHO position paper, October 2017 Disponível em: http://www.who.int/wer/2014/wer8943.pdf?ua=1. Acesso em: 15 de fevereiro de 2018.
  34. 34. Niccolai LM, Hansen CE. Practice- and Community-Based Interventions to Increase Human Papillomavirus Vaccine Coverage: A Systematic Review. JAMA Pediatr. 2015;169(7):686–92. pmid:26010507
  35. 35. Brotherton JML, Bloem PN. Population-based HPV vaccination programmes are safe and effective: 2017 update and the impetus for achieving better global coverage. Best Pract Res Clin Obstet Gynaecol. 2018;47:42–58. pmid:28986092
  36. 36. Brotherton JM, Gertig DM, May C, Chappell G, Saville M. HPV vaccine impact in Australian women: ready for an HPV-based screening program. Med J Aust. 2016; 204(5):184–184e1. pmid:26985843
  37. 37. Machalek DA, Garland SM, Brotherton JML, Bateson D, McNamee K, Stewart M, et al. Very Low Prevalence of Vaccine Human Papillomavirus Types Among 18- to 35-Year Old Australian Women 9 Years Following Implementation of Vaccination. J Infect Dis. 2018; 217(10):1590–1600. pmid:29425358
  38. 38. Markowitz LE, Dunne EF, Saraiya M, Chesson HW, Curtis CR, Gee J, et al. Centers for Disease Control and Prevention (CDC). Human papillomavirus vaccination: recommendations of the Advisory Committee on Immunization Practices (ACIP). MMWR Recomm Rep. 2014;63(RR-05):1–30.
  39. 39. Silva GM, Monteiro DLM. Nível de conhecimento dos acadêmicos de medicina sobre o hpv e o câncer do colo uterino. Revista HUPE, Rio de Janeiro, 2016;15(4):328–335.
  40. 40. Williams WW, Lu PJ, Saraiya M, Yankey D, Dorell C, Rodriguez JL, et al. Factors associated with human papillomavirus vaccination among young adult women in the United States. Vaccine. 2013;31(28):2937–46. pmid:23643629
  41. 41. Sorpreso ICE, Kelly PJ. HPV vaccine: knowledge and acceptance to ensure effectiveness. Journal of Human Growth and Development. 2018, 28(1), 5–8.
  42. 42. The Lancet Child Adolescent Health. Vaccine hesitancy: a generation at risk. Lancet Child Adolesc Health. 2019;3(5):281. pmid:30981382
  43. 43. Bianco A, Mascaro V, Zucco R, Pavia M. Parent perspectives on childhood vaccination: How to deal with vaccine hesitancy and refusal? Vaccine. 2019;37(7):984–990. Epub 2019 Jan 14. pmid:30655175
  44. 44. Napolitano F, D'Alessandro A, Angelillo IF. Investigating Italian parents' vaccine hesitancy: A cross-sectional survey. Hum Vaccin Immunother. 2018;14(7):1558–1565. pmid:29641945
  45. 45. Mcree AL, Gilkey M.B, Dempsey A.F. HPV vaccine hesitancy: findings from a statewide survey of health care providers. J Pediatr Health Care, 2014; 28(6):541–549. pmid:25017939
  46. 46. Gilkey MB, McRee AL. Provider communication about HPV vaccination: a systematic review. Human vaccines & immunotherapeutics. 2016; 12(6):1454–1468.
  47. 47. D'Alessandro A, Napolitano F, D'Ambrosio A, Angelillo IF. Vaccination knowledge and acceptability among pregnant women in Italy. Hum Vaccin Immunother. 2018;14(7):1573–1579. pmid:29863958