Choice in methods of screening for cervical cancer in resource-limited countries or underserved populations has prompted the evaluation of alternative methods, including self-collected human papillomavirus (HPV) tests and one-time screen-and-treat approaches.
Visual Inspection of the Cervix With Acetic Acid (VIA)
A clustered, randomized, controlled trial in rural India evaluated the impact of one-time visual VIA and immediate colposcopy, directed biopsy, and cryotherapy (where indicated) on cervical cancer incidence and mortality in healthy women aged 30 to 59 years. Fifty-seven clusters (n = 31,343 women) received the intervention, while 56 control clusters (n = 30,958 women) received counseling and education about cervical cancer screening. After 7 years of follow-up, with adjustments for age, education, marital status, parity, and cluster design, there was a 25% relative reduction in cervical cancer incidence in the intervention arm compared with the control group (hazard ratio , 0.75; 95% confidence interval , 0.55–0.95). Using the same adjustments, cervical cancer mortality rates had a 35% relative reduction in the intervention arm compared with the control group (HR, 0.65; 95% CI, 0.47–0.89); the age-standardized rate of death caused by cervical cancer was 39.6 per 100,000 person-years for the intervention group versus 56.7 per 100,000 person-years for the control group. However, using the same cohort, the same authors subsequently reported that HPV testing is superior at reducing cervical cancer mortality. This population was essentially screen naive at study entry and demonstrated a much higher overall risk of cervical cancer death (11% in the control group) than that observed in the U.S. population; therefore, these findings are not applicable to U.S. and similar Western health care. Histological diagnosis of cervical lesions happened after treatment had already taken place, and approximately 27% of patients in this trial received cryotherapy for lesions later determined to be nonmalignant.
A second cluster-randomized trial of VIA screening in low socioeconomic areas of urban Mumbai, India, similarly demonstrated its efficacy in reducing cervical cancer mortality. In this trial, primary community health workers (as opposed to medical personnel) were trained to provide biennial VIA screening to 75,360 women aged 35 to 64 years. Women with positive screening results were referred to a central hospital for free diagnostic confirmation (including Pap smear, colposcopy, and biopsy, if indicated) and treatment—where warranted—according to hospital protocol. A control group (n = 76,178) received general cancer education. After 12 years, the relative risk (RR) of dying from cervical cancer was reduced by 31% in the screening arm (rate ratio, 0.69; 95% CI, 0.54–0.88), corresponding to about 5 fewer deaths per 100,000 woman-years. Compliance with treatment was about 15% lower for those in the control arm, which may have inflated the observed mortality benefit somewhat.
A demonstration project in Kolkata, India, enrolled 39,740 women aged 30 to 60 years who underwent screening with VIA and Hybrid Capture II HPV DNA testing with colposcopy referral for a positive test, followed by biopsy and treatment if indicated. Estimated test performance for detection of cervical intraepithelial neoplasia (CIN) severe dysplasia (CIN 3+), corrected for verification bias, demonstrated that VIA achieved a sensitivity of 59.9% (95% CI, 49.9%–69.1%) and a specificity of 93.2% (95% CI, 92.9%–93.4%) compared with HPV testing, which resulted in a sensitivity of 91.2% (95% CI, 85.4%–95.7%) and a specificity of 96.9% (95% CI, 96.7%–97.0%). HPV testing identified an additional 32 CIN 3+ cases and 7 invasive cancer cases missed by VIA.
A randomized trial in South Africa evaluated the impact on diagnosis of CIN moderate dysplasia (CIN 2+) at 6 months with a screen-and-treat approach with VIA and HPV versus delayed evaluation. Women underwent HPV DNA testing and VIA testing (N = 6,555) and then returned in 2 to 6 days and were randomly assigned to one of three groups to receive (1) cryotherapy if the HPV DNA test result was positive (n = 2,163; 473 HPV+ and 467 treated); (2) cryotherapy if the VIA test result was positive (n = 2,227; 492 VIA+ and 482 treated); or (3) delayed evaluation (n = 2,165). At 6 months, CIN 2+ was diagnosed in 0.80% of women in the HPV+/cryotherapy group, in 2.23% of the VIA+/cryotherapy group, and in 3.55% of the delayed evaluation group. Differences in the prevalence of CIN 2+ persisted among the subset of women evaluated at 12 months. For the secondary outcome of CIN 3+, the prevalence of CIN 3+ lesions was low among the three groups but followed the same pattern (two cases in the HPV DNA group, three cases in the VIA group, and eight cases in the delayed evaluation group).
While VIA is practical in resource-limited settings, the accuracy and reproducibility are low. Advances in machine deep learning may help improve these metrics. A supervised, deep learning–based approach to predicting cervical precancers and cancers was investigated in a retrospective data set of 9,406 women who underwent cervical cancer screening using photographic images of the cervix. The archived digitized cervical images, taken with a fixed-focus camera (cervicography), were used for training and validation of the deep learning–based algorithm. The automated algorithm achieved better accuracy in predicting precancer and cancer compared with the original physician readers who interpreted the cervicography; it also compared favorably to conventional Pap smear cytology. This automated visual evaluation method needs to be transferred from digitized cervigrams (now obsolete) to contemporary digital cameras.
A study of the feasibility of single-visit management of high-grade cervical lesions was conducted among a predominantly Latina population in California. Women were randomly assigned to a single-visit group (n = 1,716) in which the Pap test was evaluated immediately and treatment administered the same day for women with HSILs or atypical glandular cells of undetermined significance (AGUS); or to usual care (n = 1,805), with results of the Pap test provided within 2 to 4 weeks and referrals for treatment based on results. The program was feasible, with a high degree of acceptability: 14 of 16 women (88%) with abnormal test results completed treatment by 6 months, while 10 of 19 women (53%) in the usual-care arm completed treatment by 6 months. Follow-up at 12 months was also higher among women in the single-visit group with HSILs/AGUS than among those in the usual-care arm; among all women, only 36% in each group had a follow-up Pap test at 1 year.
Self-Collection of HPV Tests
Self-collected HPV testing may be an alternative method for primary cervical screening. Incorporating self-collection of samples for HPV testing may improve access to cervical cancer screening, especially in communities with limited access to health care providers. A pooled analysis of cervical screening studies conducted in China compared the sensitivity and specificity of self-collected cervical specimens for HPV DNA testing, physician-collected specimens for HPV testing, liquid-based cytology (LBC), and VIA. The study included 13,004 participants in the analysis. Women underwent screening with all three sampling methods; in one study included in the pooled analysis, all women had colposcopy and biopsy. The women were instructed in the self-collection methodology by physicians, which likely affected the quality of specimen collection and thus the accuracy of the test in these studies. HPV DNA testing on physician-collected specimens had the highest sensitivity, 97.0% for CIN 2+ (95% CI, 95.2%–98.3%) and 97.8% for CIN 3+ (95% CI, 95.3%–99.2%). The results of HPV DNA testing on self-collected specimens had moderate agreement with that of physician-collected specimens (kappa statistic, 0.67). Pooled sensitivity for self-collected HPV testing was 86.2% for CIN 2+ (95% CI, 82.9%–89.1%) and 86.1% for CIN 3+ (95% CI, 81.4%–90.0%). Pooled specificity for self-collected HPV DNA testing was 80.7% (95% CI, 75.6%–85.8%) for CIN 2+ and 79.5% (95% CI, 74.1%–84.8%) for CIN 3+. The specificity of HPV testing was lowest of all screening modalities. Whereas pooled sensitivity was highest for physician-collected HPV testing, it was lowest for the VIA screening methods—50.3% for CIN 2+ and 55.7% for CIN 3+. Pooled specificity was highest for LBC—94.0% for CIN 2+ and 92.8% for CIN 3+.
A randomized noninferiority trial conducted in the Netherlands found that there was no difference in the CIN 2+ sensitivity or specificity of HPV testing between self-sampling based on written instructions and clinician-based sampling (relative sensitivity, 0.96 ; relative specificity, 1.00 ). A population-based cluster-randomized trial in Argentina, comparing screening uptake using self-collection of samples for HPV DNA testing with that of clinic-based cervical sample collection with cytology and HPV triage, found that self-collection was associated with increased screening (RR, 4.02; 95% CI, 3.44–4.71), which translated into higher detection of CIN 2+ and treatment. A Dutch study among women who participated in the national cervical cancer screening program found that vaginal self-sampling was highly concordant (96.8%; 95% CI, 96.0%–97.5%) with high-risk HPV prevalence in physician-collected samples and was both convenient and user friendly. Vaginal self-sampling will be offered in the Dutch national screening program for those who do not participate in their routine screening.
A randomized trial within the U.S. Kaiser Permanente health care system evaluated the effectiveness of mailed HPV self-sampling kits versus usual-care reminders for in-clinic screening to increase the uptake of cervical cancer screening and the detection of CIN 2+. A total of 19,851 women who were overdue for screening were randomly assigned to either the self-sampling intervention or the usual-care control group. Screening uptake was higher in the intervention group (26.3%) than in the control group (17.4%) (RR, 1.51; 95% CI, 1.43–1.60). In the intervention group, 12 participants with CIN 2+ were detected compared with 8 participants in the control group (RR, 1.49; 95% CI, 0.61–3.64), and 12 patients were treated compared with 7 of those in the control group (RR, 1.70; 95% CI, 0.67–4.32).
A study including underscreened ethnic minority groups and immigrant populations in South Florida evaluated the effectiveness of HPV self-sampling by randomizing women to self-collection via a mailed self-sampling kit or through an in-person visit by a community health worker. The participants self-identified as Hispanic, Haitian, or non-Hispanic Black women between the ages of 30 years and 65 years. After adjusting for study site, age, income, insurance education, Pap smear history, marital status, and citizenship status, women who received the self-sampling intervention via an in-person visit from a community health worker were more likely to complete the self-sampling (odds ratio, 1.81; 95% CI, 1.22–2.69). Notably, completion of HPV self-sampling was high in both study arms, with 81.0% (n = 243) among the in-person visit group and 71.6% (n = 214) among those who received the self-sampling HPV kit via mail.