Frequency of Human papillomavirus in women attending cervical cancer screening program in Chile

The study corresponded to a cross-sectional type. All women attending to public health care to gynecological control were invited to participate and they signed an informed consent, previously approved by Araucanía Sur Health Service Ethics Committee. A total of 985 samples from cervical scrapes (cytobrush) were collected and evaluated for HPV infection. The median age of enrollment was 33 years old (Interquartile range 15 years). The age of participants was divided into four groups: ≤ 26 years old, between 27 and 33 years old, between 34 and 41 years old and ≥42 years old. Normal epithelium samples (n = 76) were collected from women who regularly attending to Miraflores public Clinic for gynecological control, and the cervical cytology (Papanicoulau) was found without alterations in current and past controls. Preneoplastic and neoplastic samples were separated into groups according the histological diagnoses (The 1991 Bethesda System [12]) as follows: 249 LSIL, 636 HSIL and 24 squamous cervical carcinomas (SCC). These samples were collected at the Doctor Hernán Henríquez Aravena Hospital in Temuco, Chile (public hospital), between 2004 and 2012, during gynecological examination. The diagnoses of preneoplastic and neoplastic lesions were confirmed by colposcopy-guided biopsy in the Pathology Anatomy and Citology Unit of Hernán Henríquez Aravena Hospital. Molecular test was performed at Molecular Pathology Laboratory, School of Medicine, Universidad de La Frontera.

Cytobrush samples were deposited in tubes with lysis buffer (Tris 0.01 M pH 7.8, EDTA 0.1 M pH 8, SDS 0.5%) for DNA extraction. The integrity of extracted DNA was evaluated by amplification of a fragment (268 bp) of beta-globin gene using GH20 and PCO4 primers and PCR conditions described previously [20]. PCR for L1 fragment for HPV detection was performed using GP5+ and biotin GP6+ primers as described before [24]. Reverse line blot was performed to ascertain the HPV genotype as described [24]. Briefly, modified oligoprobes [24] for 18 HR-HPV (HPV 16, 18, 26, 31, 33, 34, 35, 39, 45, 51, 52, 53, 56, 58, 59, 66, 68, 73, 82) and 18 LR-HPV (6, 11, 40, 42, 43, 44, 54, 55, 57, 61, 70, 71, 72, 81, 83, 84, IS39, CP6108) were used for the analysis. Oligoprobes bound covalently to a membrane (Biodyne C; Pall Bio-Support West Chester, USA) were activated with EDAC 16% (w/v) (1-ethyl-3-(3-dimethylaminopropyl) carbodiimide, Sigma St Louis, USA), using the miniblotter system (MN 45; Immunetics Boston, US). The PCR GP5+/biotinylated GP6+ products were denaturalized at 96 °C and cooled in ice prior to the hybridization process. These products were added to each miniblotter channel, perpendicularly to the oligoprobe lines. After 1 hour of hybridization the membrane was removed and washed. Then, the membrane was incubated with streptavidin-peroxidase conjugate (Roche, Basel, Switzerland), washed and incubated with ECL fluid (Amersham Biosciences, Piscataway, NJ, USA), exposed to a film (Hyperfilm; Amersham Biosciences, Piscataway, NJ, USA) and developed using standard reagents to detect the hybridization signal.

HPV viral types were used for positive controls. HPV 16, 18, 31 and 33 corresponded to commercial plasmid clones (American Type Culture Collection, Manassas, VA, USA), the remaining HPV types were provided by Dr. Peter Snijders (VU University Medical Center, Amsterdam, The Netherlands). Negative controls consisted of commercial genomic DNA (Promega, Madison, WI, US) and deionized water.

The detection of only one positive HPV genotype signal in the reverse line blot was defined as a single HPV infection. A multiple infection was defined by the presence of a positive signal for two or more genotypes; in these cases, the predominant signals were considered for further analysis.

All data was analyzed by the software IBM SPSS Statistics 20.0 (IBM Corporation, NY, USA).

Age was categorized in four groups (<26, 26–33, 34–41 and ≥42 years old), due to quartiles determination. In order to improve statistical analysis, due to the low frequency of some HPV genotypes, the less frequent genotypes were grouped as HR-HPV (including HPVs 26, 33, 35, 39, 51, 52, 53, 56, 59, 66 and 68) and LR-HPV. The frequency of HPV genotypes was performed through descriptive statistics using as reference group women ≥42 years old, due to the highest frequencies of HPV infection usually are produced in young women (15–25 years old).

All samples included in this study tested positive for beta-globin PCR (268 bp). After confirmation of DNA integrity, HPV detection using PCR L1 consensus primers was used and 80.8% (n = 796) of the analyzed samples were positive for HPV, 78.7% (775) were infected with a HR-HPV and 5.6% (n = 55) with a LR-HPV most of them (n = 38; 3.9%) combined with a HR-HPV in multiple infections. Considering single (60.3%, n = 594) and multiple infections (20.5%, n = 202), HPV 16 was the most frequent genotype found (44.9%, n = 442) followed by HPV 18 (12.0%, n = 118) (Table 1; Fig. 1; Additional file 1: Data S1).

The median age of patients with normal cytology in this study was 36 years old (Interquartile range 18 years). HPV were positive in 10.5% (n = 8/76) of normal cervical epithelia; 7.9% (n = 6) in single infections and 2.6% (n = 2) in multiple infections. HPV genotypes found in single infections were HPV 45 (2.6%, n = 2), HPV 11, 31, 42 and 53 (1.3%, n = 1 each). HPV 16 was found only in multiple infections (2.6%, n = 2) associated with HPV 18 (1.3%, n = 1) and 68 (1.3%, n = 1) (Table 1; Fig. 1). Among HPV positive samples, 75% (n = 6) of genotypes found in normal samples corresponded to HR-HPV.

Median age of women with LSIL was 32 years old (Interquartile range 19 years). HPV was found in 83.5% (n = 208/249) of LSIL patients. Single infections correspond to 57% (n = 142) of HPV positive samples and multiple infections to 26.5% (n = 66). Including both single and multiple infections, HPV 16 was found in 43% (n = 107) of samples, while HPV18 had a frequency of 16.1% (n = 40). Others important genotypes found were HPV 45 (8.8%, n = 22), HPV 58 (6.0%, n = 15) and HPV 52 (5.2%, n = 13) (Table 1; Fig. 1). Single infection by LR-HPV was found in only 2.8% (n = 7) of single infection (HPV 11, 44 and 81) and 4.4% (n = 11) of multiple infections, but always associated with a HR-HPV. HPV 16 associated with any other HPV genotypes was the most frequent combination found in multiple infections (16.1%, n = 40).

Median age of women with HSIL was 33 years old (Interquartile range 14 years). The 87.6% (n = 557/636) of samples were positive for HPV in HSIL. Single infections corresponded to 66.8% and multiple infections to 20.8%. The most frequents HPV genotypes found in both single and multiple infections were: HPV 16 (50.0%, n = 318), HPV 18 (11.3%, n = 72), HPV 45 (7.4%, n = 47), HPV 31 (7.1%, n = 45) and HPV 58 (6.3%, n = 40) (Table 1; Fig. 1). Single infection by LR-HPV was found in only 1.9% (n = 12) of single infection (HPV 6, 11, 42, 44, 70 and 81) and 3.8% (n = 24) of multiple infections, but in 92% (n = 22) were associated with a HR-HPV.

Median age of women with SCC was 40 years old (Interquartile range 18 years) years. The 95.8% (n = 23/24) of cervical cancers were found infected with HPV, mainly by HPV 16 (62.5%, n = 15), HPV 18 (25%, n = 6), and HPV 66 (8.3% n = 2) (Table 1; Fig. 1). Multiple infections represent 8.3% (n = 2) of samples, where HPV 16 was found in all cases. There were no found LR-HPV infecting SCC samples.

For logistic regression analysis HPV genotyping results were grouped according to single infection and multiple infections HPV genotypes. Single infection genotypes were classified as HPV 16, HPV18, HPV 31, HPV 45, HPV 58, HPV-HR (including HPVs 26, 33, 35, 39, 51, 52, 53, 56, 59, 66 and 68) and HPV-LR (including HPVs 6, 11, 42, 43, 44, 70 and 81). Multiple infections were grouped as HPV16/HRs (n = 58), HPV16/LRs (n = 13), HPV16/18 (n = 35), HPV16/18/HRs (n = 20), HPV18/HRs (n = 19), HPV-HRs (n = 30), HPV-HR/LR (n = 13), HPV16/HR/LR (n = 4), HPV16/18/LRs (n = 2), HPV16/18/HR/LR (n = 3), HPV18/LRs (n = 1), HPV18/HR/LR (n = 2) and HPV-LRs (n = 2). To associate age of patients and histopathologic diagnosis of the samples and multiple infections, only were considered groups with higher frequency.

The participants younger than 26 years old (P = 0.040; Odd ratio = 1.49; 95% CI: 1.02–2.17) and between 34 and 41 years old (P = 0.048; Odd ratio = 1.48; 95% CI: 1.00–2.18) were found to have more risk of infection with HPV 16 among single infections compared to women ≥42 years old (Table 2). No significant relationships were found between age and others HPV single infections. In multiple infections was possible to observe a higher risk of infection with HPV16 combined with a HR-HPV (P = 0.032; Odd ratio = 2.50; 95% CI: 1.08–5.77) and HPV18 combined with a HR-HPV (P = 0.031; Odd ratio = 3.77; 95% CI: 1.13–12.65) in women ≤26 years old. Meanwhile, individuals between 34 and 41 years old (P = 0.029; Odd ratio = 6.1; 95% CI: 1.2–30.99) have more risk of been infected by the combination of HPV 16 and at least one LR-HPV compared to women ≥42 years old. In other hand, women ≤26 years old have less risk of being infected by a combination of HPV16/18 (P = 0.036; Odd ratio = 0.34; 95% CI: 0.12–0.93) and others combinations of HR-HPVs (different from HPV16 and 18) (P = 0.04; Odd ratio = 0.25; 95% CI: 0.07–0.94) compared to women ≥42 years old. No relationship between age and HPV multiple infections were found.

The analysis of the relationship between histologic grade and the infecting HPV, shows a major risk of single infections by HPV 16 in HSIL (P = 0.001; Odd ratio = 1.74; 95% CI = 1.26–2.39) and SCC (P = 0.007; Odd ratio = 3.21; 95% CI = 1.37–7.51) compared to LSIL. Also, there is a major risk of single infections by HPV 18 single infection in SCC (P = 0.014; Odd ratio = 4.78; 95% CI = 1.38–16.62) and HPV 31 in HSIL (P = 0.01; Odd ratio = 6.54; 95% CI = 1.56–27.51) compared to LSIL. In other hand, there is a lower risk of being infected by another HR-HPV in HSIL (P = 0.006; Odd ratio = 0.54; 95% CI = 0.350–0.835) compared to LSIL (Table 3). No statistical differences were found in the binomial logistic regression analysis between preneoplastic lesions and multiple infections (Additional file 2: Table S1).