Article

Study Shows Cervical Cancer Screening Reduces Mortality

Author(s):

Regular screening for cervical cancer was found to be associated with an overall mortality prevention rate of 83%.

Peter Sasieni, PhD

Regular screening for cervical cancer was found to be associated with an overall mortality prevention rate of 83%, according to results of a recent population-based, case-control study published in the British Journal of Cancer.1

Study authors estimated that, if all women in England were screened regularly—defined as every 3 years for women ages 25 to 49, and every 5 years for ages 50 to 64—the crude mortality for women between the ages of approximately 25 and 79 would be half of the current statistics (95% CI, 0.48-0.52). Mortality would be 3.6 times higher (95% CI, 3.3-4.0) in the absence of cervical screening.

If these associations are causal, the mortality rate would be 5.3 times higher (95% CI, 4.4-6.4) in the absence of screening or 65% lower (95% CI, 63-67%) if all women were regularly screened between ages 50 and 64.

“Thousands of women in the UK are alive and healthy today thanks to cervical screening,” lead study author Peter Sasieni, PhD, a professor of Biostatistics and Cancer Epidemiology at the Queen Mary University of London Wolfson Institute of Preventive Medicine, said in a statement. “The cervical screening program already prevents thousands of cancers each year, and as it continues to improve, by testing all samples for the human papillomavirus, even more women are likely to avoid this disease.”

The current study included a total of 11,619 cases of patients with cervical cancer who were diagnosed between the ages of 25 and 79. The authors used data from the Audit of Invasive Cervical Cancers, which is a population-based, case-control study in England that was estimated to include approximately 90% of all cervical cancers with better completeness under the age of 65.

Fédération Internationale de Gynécologie et d’Obstétrique (FIGO) stage was recorded for 10,040 cancers, and of those with a known stage, over one-third was classified as stage IA (37.5%), and 35.1% were diagnosed at stage IB.

The stage distribution varied by age, whereas 58.1% of patients diagnosed between the ages of 25 and 34 were diagnosed at FIGO stage IA, and 9.8% were diagnosed at stage II or higher. In patients who were diagnosed between 65 and 79, 67.5% were diagnosed at stage II or higher. Across the study population, screening was found to be associated with a reduction in cancer diagnoses.

Data were collected on all selected controls to remove potential participation bias. Prospectively recorded cervical cancer screening data were taken from routinely recorded cervical cytology records held on the Cervical Screening Call/Recall System. Therefore, these were not subject to recall bias.

In order to estimate the impact of screening on the risk of diagnosis at each particular stage, individual patient maximum screening interval was calculated. This was defined as the longest period during the screening window in which there were no adequate smears. These calculations were all then used to classify women as regularly, irregularly, very irregularly, or not screened.

Researchers found a significant impact in screening practices on cancer incidence rates found when assessing patients between the ages of 50 and 64. The incidence rate would be over 4 times higher with no screening (RR = 4.15; 95% CI, 3.63-4.74), and less than half (RR = 0.48; 95% CI, 0.46-0.51) if all patients were regularly screened.

Women diagnosed under the age of 25 were excluded from most of the analyses due to the common peak in prevalent cancer diagnoses at 25, which are when patients are first screened. Since these cancers are primarily early stage, including these subsets can skew the estimation of the effect of screening on cancer incidence.

However, sensitivity analyses in this study included women between the ages of approximately 24 and 25. Researchers also tested the effect of changing the screening window, assigning cancers with missing stage using other criteria, and applying stage IA mortality to the IA cancers in the absence of a screening scenario. These results suggested that including cervical cancers in women in this age range reduced the impact of screening in women under 35 years old by 21% for incidence and 16% for mortality.

Landy R, Pesola F, Castanon A, et al. Impact of cervical screening on cervical cancer mortality: estimation using stage-specific results from a nested case-control study. British Journal of Cancer. 2016;1—7. doi:10.1038/bjc.2016.290.

Related Videos
Matthew Powell, MD
Laura J. Chambers, DO
Shannon N. Westin, MD, MPH, FACOG, director, Early Drug Development, clinical medical director, professor, Department of Gynecologic Oncology and Reproductive Medicine, Division of Surgery, codirector, Ovarian Cancer Moonshot Program, The University of Texas MD Anderson Cancer Center
Long-term Follow-up of Selinexor Maintenance for Patients With TP53wt Advanced or Recurrent Endometrial Cancer: A Prespecified Subgroup Analysis From the Phase 3 ENGOT-EN5/GOG-3055/SIENDO Study
Maurie Markman, MD
Salman R. Punekar, MD
Bhavana Pothuri, MD
David M. O’Malley, MD
Suresh Ramalingam, MD, and Chandler Park, MD
Amin Nassar, MD