The Lancet Journal Article

Permission to reprint this commentary granted by The Lancet

By H C Kitchener, P Symonds

Academic Division of Obstetrics and Gynaecology and Reproductive Healthcare, University of Manchester, Manchester M13 0JH, UK; Department of Clinical Oncology, University of Leicester, Leicester

Cervical cancer is both a preventable and a curable disease--preventable by cervical screening and curable, especially if identified at an early stage. In developing countries, which lack screening programmes, the incidence may be up to six times higher than in developed countries, with up to 80% of patients presenting with advanced disease. The number of deaths from cervical cancer is estimated to be more than 300 000 per year, and many of those who die are young mothers. Mortality is highest in those countries least equipped to deal with the problem. But the reduction of cervical cancer mortality in the developing world is only one of many priorities competing for scarce funds.

The current WHO recommendation is to evaluate visual inspection to identify early curable cancer.¹ A preventive strategy is more constructive, but screening by cytology is too complex and expensive. Unaided visual inspection has been assessed in four studies from India (table) and has been shown to have a very low positive predictive value (PPV). Application of acetic acid (3-5%) to the cervix is a routine part of colposcopy, and it turns CIN tissue white, which should enable the detection of preinvasive lesions by the naked eye. An assessment of visual inspection aided by acetic acid (VIA) is reported by Z M Chirenje and colleagues in this issue of The Lancet.

In this study done in Zimbabwe, 10 934 women were screened by trained paramedical workers, by VIA and by exfoliative cervical cytology. Women with abnormal results by either test underwent colposcopy. To find out the true sensitivity, specificity, and PPV for high-grade CIN, in the second phase of the study 2203 women underwent colposcopy irrespective of findings on VIA or exfoliative cytology. The completion of such a controlled study in an undeveloped setting is a substantial achievement, which provides an important contribution to the assessment of this approach. The main findings of the study were that VIA was abnormal in about 20% of women, and it had a PPV of 25·9%. Its detection rate for CIN was similar to that for cytology. The second phase of the study showed that VIA was more sensitive (76·7%) than cytology, but the PPV for the detection of high-grade disease was only 18·6%. The relatively poor specificity of VIA (64·1%) compared with cytology (90·6%) may have been affected by the very high rate of sexually transmitted disease.

VIA therefore represents a proven, simple means of identifying women with CIN in undeveloped health facilities, though the level of training is probably critical to the success of VIA. The data from Zimbabwe compare very favourably with those from other less controlled studies of VIA (table). VIA is not the only alternative to screening by cytology. Tests for the detection of human- papillomavirus (HPV) DNA in the cervix can be done on a mass scale. A heavy viral load or persistent infection is associated with either an underlying CIN or its development in 4 years.⁷ In a screening study recently reported from Costa Rica,⁸ over 70% of the identified CIN2/3 lesions were associated with high-risk HPV types, but the age-related positivity rates varied from 18·5% (for women aged <25 years) to 5% (35-54 years). The specificity of HPV as a screening test for high-grade CIN can be increased by identifying persistence over 12 months, but this approach is not as practicable as a single test in an undeveloped setting. Restriction of this approach to women over the age of 35 years would improve specificity. The efficacy and cost-effectiveness of HPV population screening is being assessed in Sweden and the Netherlands, and other randomised controlled trials are planned.

Could less complex screening strategies be implemented on a wide scale? The first key element is specificity for the true precursor lesion, CIN3. The identification of large numbers of women with low-grade CIN will not be cost-effective. The second problem is how to treat CIN lesions on a large scale in undeveloped or remote areas. There are several methods for destroying the lesion (see next commentary⁹), all of which except cryotherapy require electric power for their use. Loop diathermy is simple and effective, although cryotherapy is probably as effective and requires only compressed gas for chilling of the cryoprobe. A test with a PPV of 25% means that three of every four women would potentially be overtreated. However, in view of the low morbidity associated with these treatments in well-trained hands, the treatment of the cervix in all women with abnormal screen results could be judged to be ethical because of the huge reduction in risk of cervical cancer so achieved, especially without the complexity of colposcopic or other means of tissue diagnosis.

Screening should go hand in hand with health education, which is of proven value in reducing the rate of deaths from cervical cancer.¹⁰ Making young women more aware of their sexual health could help reduce not only the risk of cervical cancer but also the risk of other sexually transmitted diseases. Perhaps the most exciting prospect is a prophylactic HPV vaccine that could prevent infection and cervical cancer. Such a vaccine would be a huge contribution to human health. Tackling cervical cancer in impoverished countries with underdeveloped health-care systems seems a daunting prospect, but Chirenje and colleagues and others have shown one way forward. Society should accept the challenge of trying to reduce the global death rate from this devastating but preventable disease.

References

1. Cervical cancer control in developing countries: memorandum from a WHO meeting. Bull World Health Organ 1996; 74: 345-51.
2. Sehgal A, Singh V, Bhambhani S, Luthra UK. Screening for cervical cancer by direct inspection. Lancet 1991; 338: 282.
3. Singh V, Sehgal A, Luthra UK. Screening for cervical cancer by direct inspection. BMJ 1992; 304: 534-55.
4. Nene BM, Deshpande S, Jayoant K, et al. Early detection of cervical cancer by visual inspection: a population-based study in rural India. Int J Cancer 1996; 68: 770-73.
5. Wesley R, Sankaranarayanan R, Mathew B, et al. Evaluation of visual inspection as a screening test for cervical cancer. Br J Cancer 1997; 75: 436-40.
6. Sankaranarayanan R, Wesley R, Somanathan T, et al. Visual inspection of the uterine cervix after the application of acetic acid in the detection of cervical carcinoma and its precursors. Cancer 1998; 83: 2150-56.
7. Kjaer SK, van den Brule AJC, Paull G, et al. Risk of incident cervical neoplasia in a prospective cohort study from Denmark: positivity to identical HPV types at enrollment and at follow-up as the major predictor. Proceedings of the 17th International Papillomavirus Conference, Charleston, USA, Jan 9-15, 1999: 333.
8. Lorincz AT, Hildesheim A, Herrero R, Mielzynska I, Sherman ME, Schiffman M. Comparison of hybrid capture II HPV DNA detection and conventional Pap smear for cervical cancer screening in Costa Rica. Proceedings of the 17th International Papillomavirus Conference, Charleston, USA, Jan 9-15, 1999: 26.
9. Cox TJ. Management of cervical intraepithelial neoplasia. Lancet 1999; 353: 941-43.
10. Ponten J, Adami HO, Bergstrom R, et al. Strategies for global control of cervical cancer. Int J Cancer 1995; 60: 1-26.

The Lancet Journal Article

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