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Infectious Agents and Cancer logoLink to Infectious Agents and Cancer
. 2008 Mar 14;3:5. doi: 10.1186/1750-9378-3-5

HPV type infection in different anogenital sites among HIV-positive Brazilian women

Maria Alice G Gonçalves 1,, Giorgia Randi 2, Annie Arslan 3, Luisa L Villa 4, Marcelo N Burattini 5, Silvia Franceschi 3, Eduardo Antonio Donadi 1, Eduardo Massad 5
PMCID: PMC2358880  PMID: 18341690

Abstract

Objectives

To evaluate the prevalence of human papillomavirus (HPV) types, and risk factors for HPV positivity across cervix, vagina and anus, we conducted a study among 138 women with human immunodeficiency virus (HIV).

Goal

Compare the prevalence of different HPV types and the risk factors for HPV positivity in three sites.

Results

The most frequently detected HPV types in all sites were, in decreasing order, HPV16, 53, 18, 61 and 81. Agreement between the cervix and vagina was good (kappa 0.60 – 0.80) for HPV16 and 53 and excellent (Kappa > 0.80) for HPV18 and 61. HPV positivity was inversely associated with age for all combinations including the anal site.

Conclusion

In HIV positive women, HPV18 is the most spread HPV type found in combinations of anal and genital sites. The relationship of anal to genital infection has implications for the development of anal malignancies. Thus, the efficacy of the current HPV vaccine may be considered not only for the cervix, but also for prevention of HPV18 anal infection among immunossuppressed individuals.

Background

More than 1.7 million people were living with human immunodeficiency virus (HIV) infection in Latin America at the end of 2004, and Brazilian women made up more than one-third (610,000) of this population [1]. Among women from 15–24 years of age, the prevalence of HIV infection in Brazil is estimated to be 0.5%. With the advent of antiretroviral drugs in Brazil, median survival time for people diagnosed with AIDS has increased from 18 to 58 months [2].

Epidemiological and laboratory data have demonstrated that persistent infection with high-risk human papillomavirus (HPV) types (like 16, 18, 31, 33, 39, 45, 52, 53, 56, 58, 59, 66, 68, 73, 82) is an essential step in the development of invasive cervical cancer and the majority of anal cancer [3]. Compared to HIV-negative women, HIV-positive women have an increased incidence and persistence of HPV infection and a concomitant increased risk of developing squamous intraepithelial lesions and cervical cancer [4-7].

In addition, compared to HIV-negative women, HIV-positive women show a higher occurrence of multiple-type HPV infection [8-10] and a relatively lower proportion of HPV16 [11]. Little information is available on the concomitant prevalence of HPV infection in different anogenital sites [12], notably in the anal area [13,14].

In this study we have compared the prevalence of different HPV types and the risk factors for HPV positivity in three sites (i.e., cervical, vaginal and anal area).

Methods

Patients

Study methods have been reported elsewhere [8]. Briefly, a cross-sectional study was conducted among 138 HIV-positive women, aged 19–57 (mean age = 31 years), who attended the Center of Reference in AIDS of Santos, São Paulo, Brazil between June 1996 and April 1997. Patients who reported previous hysterectomy, virgins or those who were not able to provide an informed consent form were excluded from the study. All women underwent HIV serological testing with Western blot confirmation (Cambridge Biotech Corporation, Worcester, Massachusetts, USA). CD4 cell count was performed on the date of the visit or within three months thereafter. CD4 counts were > 500 cells/mm3 in 24.6% women, between 200–499 cells/mm3 in 37.0%, and < 200 cells/mm3 in 38.4%.

The same gynecologist applied a standard questionnaire for all patients to elicit information on sociodemographic characteristics, smoking habits, history of drug addiction, sexual behavior and use of condom. The Ethics Committee of the Medical School of the University of São Paulo, Brazil, approved the study protocol, and all participants signed informed consent forms.

Sample collection

The same gynecologist collected exfoliated cells from 1) ectocervix, 2) vagina and 3) anal area, in that order, with separate sterile brushes, and stored in separate flasks in phosphate-buffered saline solution (PBS). To obtain samples for anal collection, individual disposable brushes moistened in sterile PBS were inserted into the anal canal and were rotated 360° as they were withdrawn.

HPV detection and typing

After collection, cells remaining in the collection devices were washed out into a sterile buffered solution and kept at -20°C for HPV analysis. Beta-globin amplification was used to assess specimen adequacy for HPV DNA detection. Polymerase chain reaction (PCR)-based assays were carried out in the Laboratorio de Patologia e Hemoterapia do Hospital do Cancer, Fundação Antonio Prudente, São Paulo, Brazil [15].

PCR-positive samples were further typed by restriction fragment length polymorphism according to Bernard et al. [16], allowing the recognition of more than 42 HPV types (HPV6,11, 13, 16, 18, 26, 31, 32, 33, 34, 35, 39, 40, 42, 44, 45, 51, 52, 53, 54, 55, 56, 57, 58, 59, 61, 62, 64, 66, 67, 68, 69, 70, 71, 72, 73, 81, 82, 83, 84, LVX100 and CP6108). The following restriction enzymes were used: Bam HI, Dde I, Hae III, Hinf I, Pst I, Rsa I and Sau 3a I (Gibco BRL-Life Technologies, Los Angeles, California, USA). The identification of HPV types was performed by comparing the pattern of amplified bands with those attributed to each virus type. HPV types were classified as high-risk (or probably high-risk) and low-risk types as in Muñoz et al. [17]. Other HPV types that could not be identified in this study were considered unidentified (HPVX).

Statistical analysis

The Kappa statistic was used to calculate the agreement between HPV positivity at the cervical vs vaginal or anal sites. The concordance rate was considered fair to good if Kappa values were between 0.60–0.80, and excellent if greater than 0.80. Agreement for any HPV type is defined as presence of at least one common HPV type in the 2 or 3 combined sites. ORs for detection of HPV infection and corresponding 95% CIs were calculated separately for each anogenital site and for each combination of 2 or 3 sites by means of unconditional regression equations adjusted for age (< 25, 25–34, ≥ 35). The analyses were repeated with adjustment for age and CD4 count (< 200, 200–499, ≥ 500).

Results

HPV prevalence by anogenital site

The prevalence of HPV infection among HIV-positive women did not differ significantly between the three anogenital sites under study. The prevalence was 61.6% in the cervix, 65.9% in the vagina, and 63.7% in the anal area. The same similarity is seen when high-risk HPV types are considered, in the cervix (36.2%), vagina (42.8%) and the anal area (43.1%). In respect to low-risk HPV types, the prevalence was 34.1% in the cervix, 35.5% in the vagina and 33.3% in the anal area. Multiple HPV infections occurred in 41.2% of HPV-positive cervical samples, 48.4% of HPV-positive vaginal samples and 44.6% of HPV-positive anal samples. The prevalence of HPV types according to the risk category in the studied female population was described elsewhere [18].

In the cervix, the most frequent high-risk HPV types were HPV16 and 53 (n = 13 each type) and HPV18 (n = 12) (Table 1). HPV61 and 81 were the most frequent low-risk HPV types (n = 11 and 9 respectively). For 9.4% of the samples the HPV type could not be characterized.

Table 1.

Prevalence of 23 HPV types by collected site among 138 HIV-positive women. Santos, São Paulo, Brazil, 1996–1997

Site

Cervix Vagina Anala

Single Multiple Total (%) Single Multiple Total (%) Single Multiple Total (%)
HPV - 53 (38.4) 47 (34.1) 37 (36.3)
HPV + 50 35 85 (61.6) 47 44 91 (65.9) 36 29 65 (63.7)
HR HPV+ 23 28 51 (37.0) 25 34 59 (42.8) 16 28 44 (43.1)
LR HPV+ 24 23 47 (34.1) 19 30 49 (35.5) 15 20 35 (34.3)

High-risk
16 7 6 13 (9.4) 6 11 17 (12.3) 4 5 9 (8.8)
18 4 8 12 (8.7) 4 8 12 (8.7) 2 10 12 (11.8)
31 0 5 5 (3.6) 1 5 6 (4.3) 2 1 3 (2.9)
33 3 4 7 (5.1) 1 7 8 (5.8) 2 4 6 (5.9)
39 0 1 1 (0.7) 1 0 1 (0.7) 0 1 1 (1.0)
45 0 2 2 (1.4) 0 2 2 (1.4) 0 1 1 (1.0)
52 0 1 1 (0.7) 0 2 2 91.4) 0 0 0 (0.0)
53 5 8 13 (9.4) 7 8 15 (10.9) 4 9 13 (12.7)
56 1 0 1 (0.7) 1 1 2 (1.4) 0 1 1 (1.0)
58 1 2 3 (2.2) 1 2 3 (2.2) 1 2 3 (2.9)
59 1 0 1 (0.7) 0 0 0 (0.0) 0 0 0 (0.00
66 0 3 3 (2.2) 0 3 3 (2.2) 0 4 4 (3.9)
68 1 1 2 (1.4) 3 1 4 (2.9) 1 0 1 (1.0)
73 0 1 1 (0.7) 0 1 1 (0.7) 0 0 0 (0.0)
82 0 2 2 (1.4) 0 2 2 (1.4) 0 0 0 (0.0)
Subtotal 23 44 67 25 53 78 16 38 54
Low-risk
6 3 1 4 (2.9) 2 2 4 (2.9) 5 3 8 (7.8)
11 3 4 7 (5.1) 2 5 7 (5.1) 1 5 6 (5.5)
32 0 1 1 (0.7) 0 1 1 (0.7) 0 0 0 (0.0)
34 1 0 1 (0.7) 1 0 1 (0.7) 1 0 1 (1.0)
40 0 2 2 (1.4) 2 2 4 (2.9) 0 2 2 (1.8)
54 1 1 2 (1.4) 1 2 3 (2.2) 0 1 1 (1.0)
61 4 7 11 (8.0) 3 8 11 (8.0) 2 6 8 (7.3)
62 0 1 1 (0.7) 0 1 1 (0.7) 2 1 3 (2.7)
64 0 1 1 (0.7) 0 0 0 (0.0) 1 0 1 (1.0)
67 2 0 2 (1.4) 0 1 1 (0.7) 0 0 0 (0.0)
69 2 0 2 (1.4) 2 1 3 (2.2) 1 0 1 (1.0)
70 1 0 1 (0.7) 0 1 1 (0.7) 0 0 0 (0.0)
71 2 0 2 (1.4) 1 1 2 (1.4) 1 0 1 (1.0)
72 0 2 2 (1.4) 1 3 4 (2.9) 0 1 1 (1.0)
81 2 7 9 (6.5) 2 9 11 (8.0) 0 5 5 (4.6)
83 2 4 6 (4.3) 1 3 4 (2.9) 1 2 3 (2.7)
84 1 0 1 (0.7) 1 0 1 (0.7) 0 1 1 (1.0)
Subtotal 24 31 55 19 40 59 15 27 42
Unknown 3 10 13 (9.4) 3 15 18 (13.0) 5 7 12 (11.8)

aPresented for 102 HIV-positive women. HPV = human papillomavirus; HIV = human immunodeficiency virus; HR = High-risk; LR = low-risk

Similarly, in the vagina, the most frequent high-risk HPV types detected were HPV16, 53 and 18 (n = 17, 15 and 12, respectively) (Table 1), while the most frequent low-risk HPV types were HPV61 and 81 (n = 11 for each). Thirteen % of vaginal samples were HPV positive but the HPV type could not be characterized.

In the anal area, the most frequently detected high-risk HPV types were, in decreasing order, HPV53 (n = 13), 18 (n = 12), and 16 (n = 9). The most frequent low-risk HPV types were HPV 61 and 6 (n = 8 for each). In 11.8% of anal samples the HPV type could not be characterized. HPV6, but not HPV11, tended to be more frequent in the anal area than in the cervix or vagina (7.8% in the anal area vs 2.9% in each other site).

In respect to cervical and vaginal sites, agreement for any HPV type positivity was 78.3% (Kappa value = 0.53 for any type) and varied from 92.8% (HPV16) to 98.6% (HPV61 and HPV6). Kappa values above 0.80 were found for HPV18, 33 and 61. When cervical and anal sites were compared, agreement for positivity for any HPV type was found in 68.6% of women (Kappa value = 0.31) (Table 2). The Kappa value was particularly low for HPV16 (0.11), but was relatively elevated for HPV18 (0.69), especially concerning the combination among the three sites (0.72).

Table 2.

Agreement of HPV type detection by collected site among 138 HIV-positive women. Santos, São Paulo, Brazil: 1996–1997

Cervix: Vagina Cervix: Anusa Cervix, Vagina, Anusa

HPV type Cervix only Vagina only Both Agreement (Kappa value) Cervix only Anal only Both Agreement (Kappa value) Any of the three All three Agreement (Kappa value)
16 3 7 10 92.8 (0.63) 9 7 2 84.3 (0.11)b 21 2 79.4 (0.32)
18 2 2 10 97.1 (0.82) 2 4 8 94.1 (0.69) 14 7 92.2 (0.72)
53 2 4 11 95.7 (0.76) 8 9 4 83.3 (0.23) 22 4 81.4 (0.45)
6 1 1 3 98.6 (0.74) 0 5 3 95.1 (0.52) 8 2 94.1 (0.55)
11 2 2 5 97.1 (0.70) 3 5 1 92.2 (0.16) 8 1 91.2 (0.33)
61 1 1 10 98.6 (0.90) 6 5 3 89.2 (0.29) 13 3 89.2 (0.54)
Any type 12 18 73 78.3 (0.53) 17 15 50 68.6 (0.31) 83 45 59.8 (0.40)

aAvailable for 102 women only; bNon-significant Kappa value. HPV = human papillomavirus; HIV = human immunodeficiency virus.

Risk factors for associations between sites for any HPV positivity

As shown in Table 3, HPV positivity were inversely associated with age in three combinations of anogenital sites (cervical+anal; vaginal+anal and cervical+vaginal+anal), all of them including anal site. No association emerged in any site between HPV positivity and smoking habits, history of drug addiction, commercial sex work and condom use, and number of years since HIV diagnosis.

Table 3.

ORs ofHPV positivity and corresponding 95% CIs according to selected characteristics among 138 HIV-positive womena. Santos, São Paulo, Brazil, 1996–1997

Cervical+Vaginal Cervical+Analb Vaginal+Analb Cervical+Vaginal+Analb
Tot. No Pos. (%) ORc 95% CI Tot. No Pos. (%) ORc 95% CI Tot. No Pos. (%) ORc 95% CI Tot. No Pos. (%) ORc 95% CI

Age (years)
 ≥ 35 39 38.5 1 30 10.0 1 30 13.3 1 30 6.7 1
 25–34 75 49.3 1.6 0.7–3.4 55 27.3 3.4 0.9–12.8 55 34.6 3.4 1.0–11.3 55 27.3 5.3 1.1–24.8
 < 25 24 58.3 2.2 0.8–6.3 17 47.1 8.0 1.7–36.8 17 41.2 4.6 1.1–19.0 17 35.3 7.6 1.3–43.8
  p for trend 0.12 0.006 0.03 0.02
Tobacco smoking
 Never smoker 44 45.5 1 32 31.3 1 32 31.3 1 32 21.9 1
 Ex-smoker 33 45.5 1.1 0.4–2.8 26 30.8 1.1 0.3–3.8 26 34.6 1.2 0.4–3.7 26 30.8 1.7 0.5–6.1
 Current smoker 61 50.8 1.3 0.6–3.0 44 18.2 0.5 0.2–1.7 44 25.0 0.8 0.3–2.2 44 18.2 0.9 0.3–2.9
  p for trend 0.46 0.22 0.52 0.60
Drug addict
 Never 79 45.6 1 62 25.8 1 62 25.8 1 62 21.0 1
 Ex 36 52.8 1.3 0.6–2.8 24 29.2 1.1 0.4–3.2 24 45.8 2.2 0.8–6.2 24 29.2 1.4 0.5–4.2
 Current 23 47.8 1.0 0.4–2.7 16 18.8 0.7 0.2–2.9 16 18.8 0.6 0.2–2.6 16 18.8 0.8 0.2–3.5
  p for trend 0.80 0.70 0.99 0.98
Years since HIV diagnosis
 ≤ 1 54 46.3 1 40 27.5 1 40 32.5 1 40 22.5 1
 2–4 43 39.5 0.8 0.4–1.9 34 60.529.4 1.3 0.4–3.8 34 32.4 1.0 0.4–2.8 34 26.5 1.3 0.4–4.2
 ≥ 5 39 56.4 1.8 0.7–4.2 26 19.2 0.7 0.2–2.8 26 23.1 0.5 0.2–1.9 26 19.2 0.8 0.2–3.1
  p for trend 0.25 0.73 0.38 0.81
CD4 count/mm3
 ≥ 500 34 41.2 1 20 15.0 1 20 15.0 1 20 10.0 1
 200–499 51 49.0 1.8 0.7–4.7 39 23.1 4.2 0.8–22.2 39 30.8 4.8 1.0–22.7 39 23.1 5.7 0.9–34.1
 < 200 53 59.9 1.8 0.7–4.6 43 32.6 5.9 1.2–28.6 43 34.9 5.0 1.1–22.4 43 27.9 6.2 1.1–34.9
  p for trend 0.24 0.03 0.06 0.06
Commercial sex worker
 Never 107 46.7 1 82 24.4 1 82 26.8 1 82 20.7 1
 Ever 31 51.6 1.2 0.5–2.6 20 30.0 1.2 0.4–3.8 20 40.0 1.7 0.6–4.8 20 30.0 1.5 0.5–4.6
Lifetime number of sexual partners
 ≤ 2 34 41.2 1 26 26.9 1 26 30.8 1 26 26.9 1
 3–5 44 52.3 1.5 0.6–3.8 35 25.7 0.9 0.3–2.9 35 25.7 0.7 0.2–2.3 35 17.1 0.5 0.1–1.8
 ≥ 6 60 48.3 1.2 0.5–3.0 41 24.4 0.7 0.2–2.3 41 31.7 0.8 0.3–2.6 41 24.4 0.7 0.2–2.2
  p for trend 0.63 0.32 0.85 0.53
Recent sexual partnersd
 0 48 43.8 1 42 21.4 1 42 26.2 1 42 21.4 1
 1 74 47.3 1.0 0.5–2.1 51 25.5 0.8 0.3–2.4 51 27.5 0.8 0.3–2.0 51 19.6 0.6 0.2–1.7
 ≥ 2 13 76.9 3.5 0.8–15.0 9 44.4 2.2 0.5–10.7 9 55.6 2.6 0.5–12.0 9 44.4 2.0 0.4–9.5
  p for trend 0.21 0.56 0.52 0.83
Condom used
 Yes 69 47.8 1 47 25.5 1 47 27.7 1 47 19.2 1
 No 20 60.0 1.7 0.6–4.8 13 38.5 2.0 0.5–7.6 13 46.2 2.4 0.7–8.8 13 38.5 2.9 0.7–11.6
Anal intercourse
 Never 66 48.5 1 51 19.6 1 51 19.6 1 51 19.6 1
 Ever 72 47.2 0.9 0.5–1.8 51 31.4 1.7 0.6–4.3 51 39.2 2.4 0.97–6.0 51 25.5 1.2 0.5–3.2

aSome figures do not add up to the total due to missing values; bPresented for 102 HIV-positive women; cAdjusted for age. HPV = human papillomavirus; d relative to the last 6 months preceding interview; HIV = human immunodeficiency virus; OR = odds ratio; CI = confidence intervals.

Anal intercourse showed an association of borderline statistical significance in the combination vaginal + anal for HPV positivity (OR: 2.4; 95% CI: 0.97–6.0), but not elsewhere. Nevertheless, condom use did not show associations with HPV positivity at all sites.

Discussion

Approximately two-thirds of HIV-positive women in our study from Brazil were infected by HPV and the prevalence of HPV infection was similar in the cervix, vagina and anal area. This also held true for the prevalence of the most frequently detected individual HPV types, notably HPV11, 16, 18, 53 and 61, and for the frequency of multiple-type infections. However, the same HPV type(s) were not always present in the three examined anogenital areas and the agreement in the detection of individual types was better between the cervix and the vagina than between the cervix and the anal area. The type most frequently detected at all three sites was HPV18, mainly on account of its high prevalence in the anal area. Recently, Castle et al. [19] reported that some HPV types (e.g., HPV61, 71 and 72), were more frequently detected in vaginal specimens from hysterectomized women compared to those who had not undergone hysterectomy. Simultaneous HPV infection in different anogenital sites is considered a risk factor for the concomitant occurrence of anal and cervical lesions, especially in HIV-positive women [20-22].

The factors most clearly associated with HPV positivity among HIV-positive women in our study agree with findings from HIV-negative women [23,24]. Although the small number of women available did not allow most presented ORs to reach statistical significance, we did show higher HPV positivity below age 25 than at age 35 or older, as well as among women who reported two recent sexual partners or more. These findings are consistent with the report that recent sexual partners are a stronger determinant of HPV positivity than the lifetime number of sexual partners [25]. No consistent relationship between HPV positivity and smoking habits or condom use have emerged among HIV-negative women [23,24].

Two characteristics stand out as being more strongly associated with HPV positivity in the anal area than in the cervix and vagina, one being history of anal intercourse. This finding suggests that anal infection is associated among women, as it is among bisexual and homosexual men, to direct HPV exposure [22,26]. Anal infection, however, can also be detected in women who do not report anal intercourse, particularly if a concomitant infection occurs at a genital site [27,28]. The other factor that appeared more strongly associated with anal than cervical or vaginal HPV infection was low CD4 counts, thus suggesting that immunosupression may particularly facilitate HPV infection and maybe persistence in the anal area.

One of the limitations of this work is its small sample size. As a consequence, many relatively strong associations did not attain statistical significance. Furthermore, the cross-sectional design does not allow for the capture of the dynamic nature of HPV infections. One of the strengths of this study is the wide range of HPV types tested for at different anogenital sites in HIV-positive women.

In conclusion, our study showed that high prevalences of HPV infection can be found in the entire lower genital tract in HIV-positive women. In particular, the anal area may represent a reservoir of HPV infection, notably HPV6 and 18. It will thus be important to evaluate the efficacy of the current vaccine against HPV [29,30] to prevent not only HPV infection in the cervix but also in the anal area, among immunosuppressed individuals.

Acknowledgments

Acknowledgements

M.A.G. Gonçalves was a visiting scientist at IARC, Lyon, France, during the writing of the manuscript. We acknowledge Ms T. Perdrix-Thoma for technical assistance.

Contributor Information

Maria Alice G Gonçalves, Email: epigin@uol.com.br.

Giorgia Randi, Email: randi@marionegri.it.

Annie Arslan, Email: arslan@iarc.fr.

Luisa L Villa, Email: villall@hotmail.com.

Marcelo N Burattini, Email: mnburrat@usp.br.

Silvia Franceschi, Email: franceschi@iarc.fr.

Eduardo Antonio Donadi, Email: epigin@uol.com.br.

Eduardo Massad, Email: emassad@usp.br.

References

  1. UNAIDS/WHO Latin America. UNAIDS/WHO, ed AIDS Epidemic Update: December 2004 Geneva: UNAIDS/WHO. 2004. pp. 57–61.
  2. Marins JR, Jamal LF, Chen SY, Barros MB, Hudes ES, Barbosa AA, Chequer P, Teixeira PR, Hearst N. Dramatic improvement in survival among adult Brazilian AIDS patients. AIDS. 2003;17:1675–1682. doi: 10.1097/00002030-200307250-00012. [DOI] [PubMed] [Google Scholar]
  3. IARC . Human papillomavirus. Vol. 64. Lyon: International Agency for Research on Cancer; 1995. Monographs on the Evaluation of Carcinogenic Risks to Humans. [PMC free article] [PubMed] [Google Scholar]
  4. Minkoff H, Feldman J, DeHovitz J, Landesman S, Burk R. A longitudinal study of human papillomavirus carriage in human immunodeficiency virus-infected and human immunodeficiency virus-uninfected women. Am J Obstet Gynecol. 1998;178:982–986. doi: 10.1016/S0002-9378(98)70535-6. [DOI] [PubMed] [Google Scholar]
  5. Ahdieh L, Klein RS, Burk R, Cu-Uvin S, Schuman P, Duerr A, Safaeian M, Astemborski J, Daniel R, Shah K. Prevalence, incidence, and type-specific persistence of human papillomavirus in human immunodeficiency virus (HIV)-positive and HIV-negative women. J Infect Dis. 2001;184:682–690. doi: 10.1086/323081. [DOI] [PubMed] [Google Scholar]
  6. Dal Maso L, Franceschi S, Polesel J, Braga C, Piselli P, Crocetti E, Falcini F, Guzzinati S, Zanetti R, Vercelli M, Rezza G, Cancer and AIDS Registry Linkage study Risk of cancer in persons with AIDS in Italy, 1985–1998. Br J Cancer. 2003;89:94–100. doi: 10.1038/sj.bjc.6601017. [DOI] [PMC free article] [PubMed] [Google Scholar]
  7. Branca M, Garbuglia AR, Benedetto A, Cappiello T, Leoncini L, Migliore G, Agarossi A, Syrjanen K, DIANAIDS Collaborative Study Group Factors predicting the persistence of genital human papillomavirus infections and PAP smear abnormality in HIV-positive and HIV-negative women during prospective follow-up. Int J STD AIDS. 2003;14:417–425. doi: 10.1258/095646203765371321. [DOI] [PubMed] [Google Scholar]
  8. Gonçalves MA, Massad E, Burattini MN, Villa LL. Relationship between human papillomavirus (HPV) genotyping and genital neoplasia in HIV-positive patients of Santos City, Sao Paulo, Brazil. Int J STD AIDS. 1999;10:803–807. doi: 10.1258/0956462991913583. [DOI] [PubMed] [Google Scholar]
  9. Palefsky JM, Minkoff H, Kalish LA, Levine A, Sacks HS, Garcia P, Young M, Melnick S, Miotti P, Burck R. Cervicovaginal human papillomavirus infection in human immunodeficiency virus-1 (HIV)-positive and high-risk HIV-negative women. J Natl Cancer Inst. 1999;91:226–236. doi: 10.1093/jnci/91.3.226. [DOI] [PubMed] [Google Scholar]
  10. Ellerbrock TV, Chiasson MA, Bush TJ, Sun XW, Sawo D, Brudney K, Wright TC. Incidence of cervical squamous intraepithelial lesions in HIV-infected women. JAMA. 2000;283:1031–1037. doi: 10.1001/jama.283.8.1031. [DOI] [PubMed] [Google Scholar]
  11. Strickler HD, Palefsky JM, Shah KV, Anastos K, Klein RS, Minkoff H, Duerr A, Massad LS, Celentano DD, Hall C, Fazzari M, Cu-Uvin S, Bacon M, Schuman P, Levine AM, Durante AG, Gange S, Melnick S, Burk RD. Human papillomavirus type 16 and immune status in human immunodeficiency virus-seropositive women. J Natl Cancer Inst. 2003;95:1062–1071. doi: 10.1093/jnci/95.14.1062. [DOI] [PubMed] [Google Scholar]
  12. Canadas MP, Bosch FX, Junquera ML, Ejarque M, Fonte R, Ordonez E, de SanJose S. Concordance of prevalence of human papillomavirus DNA in anogenital and oral infections in a high-risk population. J Clin Microbiol. 2004;42:1330–1332. doi: 10.1128/JCM.42.3.1330-1332.2004. [DOI] [PMC free article] [PubMed] [Google Scholar]
  13. Drobacheff C, Dupont P, Mougin C, Bourezane Y, Challier B, Fantoli M, Bettinger B, Laurent R. Anal human papillomavirus DNA screening by Hybrid Capture II in human immunodeficiency virus-positive patients with or without anal intercourse. Eur J Dermatol. 2003;13:367–371. [PubMed] [Google Scholar]
  14. Durante AJ, Williams AB, Da Costa M, Darragh TM, Khoshnood K, Palefsky JM. Incidence of anal cytological abnormalities in a cohort of human immunodeficiency virus-infected women. Cancer Epidemiol Biomarkers Prev. 2003;12:638–642. [PubMed] [Google Scholar]
  15. Manos MM, Wright DT, Lewis AJ. The use of polymerase chain reaction amplification for the detection of human papillomaviruses. In: Furth M, Greaves M, editor. Molecular diagnosis of human cancer: Cancer cells. New York: Cold Spring Harbor Press; 1989. pp. 209–214. [Google Scholar]
  16. Bernard HU, Chan SY, Manos MM, Ong CK, Villla LL, Delius H, Peyton CL, Bauer HM, Wheeler CM. Identification and assessment of known and novel human papillomaviruses by polymerase chain reaction amplification, restriction fragment length polymorphisms, nucleotide sequence, and phylogenetic algorithms. J Infect Dis. 1994;170:1077–1085. doi: 10.1093/infdis/170.5.1077. [DOI] [PubMed] [Google Scholar]
  17. Muñoz N, Bosch FX, de Sanjosé S, Herrero R, Castellsagué X, Shah KV, Snijders PJ, Meijer CJ, International Agency for Research on Cancer Multicenter Cervical Cancer Study Group Epidemiologic classification of human papillomavirus types associated with cervical cancer. N Engl J Med. 2003;348:518–527. doi: 10.1056/NEJMoa021641. [DOI] [PubMed] [Google Scholar]
  18. Gonçalves MA, Burattini MN, Donadi EA, Massad E. Risk factors associated with genital warts in HIV-positive Brazilian women. Tumori. 2003;89:9–15. doi: 10.1177/030089160308900103. [DOI] [PubMed] [Google Scholar]
  19. Castle PE, Schiffman M, Bratti MC, Hildesheim A, Herrero R, Hutchinson ML, Rodriguez AC, Wacholder S, Sherman ME, Kendall H, Viscidi RP, Jeronimo J, Schussler JE, Burk RD. A population-based study of vaginal human papillomavirus infection in hysterectomized women. J Infect Dis. 2004;190:458–467. doi: 10.1086/421916. [DOI] [PubMed] [Google Scholar]
  20. Hillemanns P, Ellerbrock TV, McPhillips S, Dole P, Alperstein S, Johnson D, Sun XW, Chiasson MA, Wright TC. Prevalence of anal human papillomavirus infection and anal cytologic abnormalities in HIV-seropositive women. AIDS. 1996;10:1641–1647. doi: 10.1097/00002030-199612000-00008. [DOI] [PubMed] [Google Scholar]
  21. Melbye M, Smith E, Wohlfahrt J, Osterlind A, Orholm M, Bergmann OJ, Mathiesen L, Darragh TM, Palefsky JM. Anal and cervical abnormality in women – prediction by human papillomavirus tests. Int J Cancer. 1996;68:559–564. doi: 10.1002/(SICI)1097-0215(19961127)68:5&#x0003c;559::AID-IJC1&#x0003e;3.0.CO;2-Y. [DOI] [PubMed] [Google Scholar]
  22. Holly EA, Ralston ML, Darragh TM, Greenblatt RM, Jay N, Palefsky JM. Prevalence and risk factors for anal squamous intraepithelial lesions in women. J Natl Cancer Inst. 2001;93:843–849. doi: 10.1093/jnci/93.11.843. [DOI] [PubMed] [Google Scholar]
  23. Plummer M, Herrero R, Franceschi S, Meijer CJ, Snijders PJ, Bosch FX, de Sanjosé S, Muñoz N, International Agency for Research on Cancer Multicenter Cervical Cancer Study Group Smoking and cervical cancer: pooled analysis of the IARC multi-centric case – control study. Cancer Causes Control. 2003;14:805–814. doi: 10.1023/B:CACO.0000003811.98261.3e. [DOI] [PubMed] [Google Scholar]
  24. Thomas JO, Herrero R, Omigbodun AA, Ojemakinde K, Ajavi IO, Fawole A, Oladepo O, Smith JS, Arslan A, Muñoz N, Snijders PJ, Meijer CJ, Franceschi S. Prevalence of papillomavirus infection in women in Ibadan, Nigeria: a population-based study. Br J Cancer. 2004;90:638–645. doi: 10.1038/sj.bjc.6601515. [DOI] [PMC free article] [PubMed] [Google Scholar]
  25. Deacon JM, Evans CD, Yule R, Desai M, Binns W, Taylor C, Peto J. Sexual behaviour and smoking as determinants of cervical HPV infection and of CIN3 among those infected: a case-control study nested within the Manchester cohort. Br J Cancer. 2000;83:1565–1572. doi: 10.1054/bjoc.2000.1523. [DOI] [PMC free article] [PubMed] [Google Scholar]
  26. Daling JR, Madeleine MM, Schwartz SM, Shera KA, Carter JJ, McKnight B, Porter PL, Galloway DA, McDougall JK, Tamimi H. A population-based study of squamous cell vaginal cancer: HPV and cofactors. Gynecol Oncol. 2002;84:263–270. doi: 10.1006/gyno.2001.6502. [DOI] [PubMed] [Google Scholar]
  27. Williams AB, Darragh TM, Vranizan K, Ochia C, Moss AR, Palefsky JM. Anal and cervical human papillomavirus infection and risk of anal and cervical epithelial abnormalities in human immunodeficiency virus-infected women. Obstet Gynecol. 1994;83:205–211. [PubMed] [Google Scholar]
  28. Moscicki AB, Durako SJ, Houser J, Ma Y, Murphy DA, Darragh TM, Farhat S, Wilson CM. Human papillomavirus infection and abnormal cytology of the anus in HIV-infected and uninfected adolescents. AIDS. 2003;17:311–320. doi: 10.1097/00002030-200302140-00004. [DOI] [PubMed] [Google Scholar]
  29. Villa LL, Costa RL, Petta CA, Andrade R, Ault K, Giuliano A, Wheeler C, Koutsky L, Malm C, Lehtinen M, Skjeldestad FE, Olsson SE, Steinwall M, Brown DR, Kurman RJ, Ronnett BM, Stoler MH, Ferenczy A, Harper DM, Tamms GM, Yu J, Lupinacci L, Railkar R, Taddeo FJ, Jansen KU, Esser MT, Sings HL, Saah AJ, Barr E. Prophylactic quadrivalent human papillomavirus (types 6, 11, 16, and 18) L1 virus-like particle vaccine in young women: a randomized double-blind placebo-controlled multicentre phase II efficacy trial. Lancet Oncol. 2005;6:271–278. doi: 10.1016/S1470-2045(05)70101-7. [DOI] [PubMed] [Google Scholar]
  30. Harper DM, Franco EL, Wheeler CM, Moscicki A, Romanowski B, Roteli-Martins C, Jenkins D, Schuind A, Costa Clemens S, Dubin G, HPV Vaccine Study Group Sustained efficacy up to 4.5 years of a bivalent L1 virus-like particle vaccine against human papillomavirus types 16 and 18: follow-up from a randomised control trial. Lancet. 2006;367:1247–55. doi: 10.1016/S0140-6736(06)68439-0. [DOI] [PubMed] [Google Scholar]

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