From the Editor

Are we ready for primary HPV testing for the prevention of cervical cancer?

OBG Manag. 2018 July;30(7):8-9, 14, 16

We may be at a tipping point where the iconic Pap smear is largely replaced by HPV testing for cervical cancer screening

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References

Hinsey JC. George Nicholas Papanicolaou, May 13, 1883–February 19, 1962. Acta Cytol. 1962;6:483–486.
zur Hausen H. Papillomaviruses in human cancers. Proc Assoc Am Physicians. 1999;111(6):581–587.
International Agency for Research on Cancer. IARC Handbooks of Cancer Prevention, Vol 10: Cervix Cancer Screening. Lyon, France: IARC Press; 2005.
Adegoke O, Kulasingam S, Virnig B. Cervical cancer trends in the United States: a 35-year population-based analysis. J Women’s Health (Larchmt). 2012;21(10):1031–1037.
Harold zur Hausen-Biographical. Nobelprize.org website. https://www.nobelprize.org/nobel_prizes/medicine/laureates/2008/hausen-bio.html. Accessed June 19, 2018.
Michels KB, zur Hausen H. HPV vaccine for all. Lancet. 2009;374(9686):268–270.
Hansen BT, Campbell S, Nygaard M. Long-term incidence of HPV-related cancers, and cases preventable by HPV vaccination: a registry-based study in Norway. BMJ Open. 2018;8(2):e019005.
Barbieri RL. Advances in protection against oncogenic human papillomaviruses: the 9-valent vaccine. OBG Manag. 2015;27(5):6–8.
Massad LS. Anticipating the impact of human papillomavirus vaccination on US cervical cancer prevention strategies. J Low Genit Tract Dis. 2018;22(2):123–125.
Castanon A, Landy R, Pesola F, Windridge P, Sasieni P. Prediction of cervical cancer incidence in England, UK, up to 2040, under four scenarios: a modeling study. Lancet Public Health. 2018;3(1):e34–e43.
Moyer VA; U.S. Preventive Services Task Force. Screening for cervical cancer: U.S. Preventive Services Task Force recommendation statement. Ann Intern Med. 2012;156(12):880–891.
Moukarzel LA, Angarita AM, VandenBussche C, et al. Preinvasive and invasive cervical adenocarcinoma: preceding low-risk or negative Pap result increases time to diagnosis. J Low Genital Tract Dis. 2017;21(2):91–96.
Mayrand MH, Duarte-Franco E, Rodrigues I, et al; Canadian Cervical Cancer Screening Trial Study Group. Human papillomavirus DNA versus Papanicolaou screening tests for cervical cancer. N Engl J Med. 2007;357(16):1579–1588.
van Zuylen-Manders L. Primary HPV screening: The Dutch experience. http://www.britishcytology.org.uk/resources/Primary_HPV_screening_The_Dutch_experience.pdf. Accessed June 19, 2018.
Hammond I, Canfell K, Saville M. A new era for cervical cancer screening in Australia: watch this space! Aust N Z J Obstet Gynaecol. 2017;57(5):499–501.
Canfell K, Saville M, Caruana M, et al. Protocol for Compass: a randomised controlled trial of primary HPV testing versus cytology screening for cervical cancer in HPV-unvaccinated and vaccinated women aged 25-69 years living in Australia. BMJ Open. 2018;8(1):e016700.
Wood B, Lofters A, Vahabi M. Strategies to reach marginalized women for cervical cancer screening: a qualitative study of stakeholder perspectives. Curr Oncol. 2018;25(1):e8–e16.
Patel H, Moss EL, Sherman SM. HPV primary cervical cancer screening in England: women’s awareness and attitudes. Psychooncology. 2018;27(6):1559–1564.
Obermair HM, Dodd RH, Bonner C, Jansen J, McCaffery K. “It has saved thousands of lives, so why change it?” Content analysis of objections to cervical cancer screening programme changes in Australia. BMJ Open. 2018;8(2):e019171.
Hall MT, Simms KT, Lew JB, Smith MA, Saville M, Canfell K. Projected future impact of HPV vaccination and primary HPV screening on cervical cancer rates from 2017-2035: Example from Australia. PLoS One. 2018;13(2):e0185332.
Rebolj M, Bonde J, Preisler S, Ejegod D, Rygaard C, Lynge E. Human papillomavirus assays and cytology in primary cervical screening of women aged 30 years and above. PLoS One. 2016;11(1):e0147326.
Khunamornpong S, Settakorn J, Sukpan K, Suprasert P, Srisomboon J, Intaraphet S, Siriaunkgul S. Genotyping for human papillomavirus (HPV) 16/18/52/58 has a higher performance than HPV16/18 genotyping in triaging women with positive high-risk HPV test in Northern Thailand. PLoS One. 2016;11(6):e0158184.
Wright TC, Stoler MH, Behrens CM, Sharma A, Zhang G, Wright TL. Primary cervical cancer screening with human papillomavirus: end of study results from the ATHENA study using HPV as the first-line screening test. Gynecol Oncol. 2015;136(2):189–197.
Huh WK, Ault KA, Chelmow D, et al. Use of primary high-risk human papillomavirus testing for cervical cancer screening: interim clinical guidance. Obstet Gynecol. 2015;125(2):330–337.
American College of Obstetricians and Gynecologists Committee on Practice Bulletins–Gynecology. Practice Bulletin No. 168: cervical cancer screening and prevention. Obstet Gynecol. 2016;128(4):e111–e130.
Gladwell M. The Tipping Point: How Little Things Can Make a Big Difference. New York, New York: Little Brown; 2000.

Cervical cancer screening represents one of the great public health successes of the 20th Century. Two physician-scientists, George Papanicolaou, MD, PhD (1883–1962), and Harald zur Hausen, MD (1936–), made extraordinary contributions to the evolution of effective cervical cancer screening programs. Dr. Papanicolaou led development of the iconic Pap smear, creating techniques for collecting specimens and using cytologic techniques to identify cervical cancer and its precursors, and Dr. zur Hausen discovered the association of human papillomavirus (HPV) infection with cervical cancer.^1,2

Although it is but a distant memory, in the 1930s cervical and uterine cancer caused more deaths among women than breast, lung, or ovarian cancer. The successful deployment of Pap smear screening resulted in a decrease in cervical cancer rates in developed countries. Cervical cancer deaths remain common in many parts of the world, however. Cervical cancer screening programs can reduce cervical cancer incidence by greater than 80%.³ In the United States between 1973 and 2006, the invasive cervical cancer age-adjusted incidence rates dropped from 10.28 to 3.97 per 100,000 women.⁴

HPV causes cervical cancer

Dr. zur Hausen dedicated his career to identifying viral causes of human cancer. In his Nobel Laureate autobiography, he reported that during his 2-year rotating residency, he loved his obstetrics and gynecology experience, but found it “physically highly demanding” and decided to focus his career in microbiology and immunology.⁵ After proving that herpes simplex virus did not cause cervical cancer he began to explore the role of HPV in the disease process. He first identified HPV types 6 and 11 and showed that these agents caused genital warts. He then used low-stringency hybridization techniques to identify HPV types 16 and 18 in specimens of cervical cancer. Later, he and his colleagues proved that two HPV proteins, E6 and E7, interfere with the function of cell cycle control proteins p53 and retinoblastoma protein, resulting in dysregulated cell growth and cancer.² These findings permitted the development of both HPV vaccines and nucleic acid–based tests to identify high-risk oncogenic HPV (hrHPV) in cells and tissue specimens.

HPV vaccination

Dr. zur Hausen was an energetic and vocal advocate for the development and widescale deployment of HPV vaccines, including vaccination of males and females.⁶ Initially his ideas were rejected by the pharmaceutical industry, but eventually, with advances in virology and vaccine development, multiple companies pursued the development of HPV vaccines, the first cancer prevention vaccines. The best approach to cervical cancer prevention is intensive population-wide HPV vaccination of both boys and girls before exposure to the HPV virus. Beyond its beneficial effect on the incidence of cervical cancer, HPV vaccination also reduces the population incidence of anal, vulvar, and oropharyngeal cancer.⁷ Prevention of oropharyngeal cancer is especially important for men, supporting the recommendation for vaccination of all boys.⁸

Population-wide HPV vaccination will result in a lower prevalence of cervical cancer precursors and reduce the sensitivity of cytology, thereby making primary HPV screening more attractive.⁹ Based on one modelling study, universal HPV vaccination can reduce cervical cancer rates by greater than 50% over current levels, and introduction of primary HPV screening will reduce cervical cancer rates by an additional 20%.¹⁰ In an era of widespread vaccination for HPV, screening for cervical cancer should be intensified for nonvaccinated women.¹⁰

Read about Primary cervical cancer screening with cytology

References

Hinsey JC. George Nicholas Papanicolaou, May 13, 1883–February 19, 1962. Acta Cytol. 1962;6:483–486.
zur Hausen H. Papillomaviruses in human cancers. Proc Assoc Am Physicians. 1999;111(6):581–587.
International Agency for Research on Cancer. IARC Handbooks of Cancer Prevention, Vol 10: Cervix Cancer Screening. Lyon, France: IARC Press; 2005.
Adegoke O, Kulasingam S, Virnig B. Cervical cancer trends in the United States: a 35-year population-based analysis. J Women’s Health (Larchmt). 2012;21(10):1031–1037.
Harold zur Hausen-Biographical. Nobelprize.org website. https://www.nobelprize.org/nobel_prizes/medicine/laureates/2008/hausen-bio.html. Accessed June 19, 2018.
Michels KB, zur Hausen H. HPV vaccine for all. Lancet. 2009;374(9686):268–270.
Hansen BT, Campbell S, Nygaard M. Long-term incidence of HPV-related cancers, and cases preventable by HPV vaccination: a registry-based study in Norway. BMJ Open. 2018;8(2):e019005.
Barbieri RL. Advances in protection against oncogenic human papillomaviruses: the 9-valent vaccine. OBG Manag. 2015;27(5):6–8.
Massad LS. Anticipating the impact of human papillomavirus vaccination on US cervical cancer prevention strategies. J Low Genit Tract Dis. 2018;22(2):123–125.
Castanon A, Landy R, Pesola F, Windridge P, Sasieni P. Prediction of cervical cancer incidence in England, UK, up to 2040, under four scenarios: a modeling study. Lancet Public Health. 2018;3(1):e34–e43.
Moyer VA; U.S. Preventive Services Task Force. Screening for cervical cancer: U.S. Preventive Services Task Force recommendation statement. Ann Intern Med. 2012;156(12):880–891.
Moukarzel LA, Angarita AM, VandenBussche C, et al. Preinvasive and invasive cervical adenocarcinoma: preceding low-risk or negative Pap result increases time to diagnosis. J Low Genital Tract Dis. 2017;21(2):91–96.
Mayrand MH, Duarte-Franco E, Rodrigues I, et al; Canadian Cervical Cancer Screening Trial Study Group. Human papillomavirus DNA versus Papanicolaou screening tests for cervical cancer. N Engl J Med. 2007;357(16):1579–1588.
van Zuylen-Manders L. Primary HPV screening: The Dutch experience. http://www.britishcytology.org.uk/resources/Primary_HPV_screening_The_Dutch_experience.pdf. Accessed June 19, 2018.
Hammond I, Canfell K, Saville M. A new era for cervical cancer screening in Australia: watch this space! Aust N Z J Obstet Gynaecol. 2017;57(5):499–501.
Canfell K, Saville M, Caruana M, et al. Protocol for Compass: a randomised controlled trial of primary HPV testing versus cytology screening for cervical cancer in HPV-unvaccinated and vaccinated women aged 25-69 years living in Australia. BMJ Open. 2018;8(1):e016700.
Wood B, Lofters A, Vahabi M. Strategies to reach marginalized women for cervical cancer screening: a qualitative study of stakeholder perspectives. Curr Oncol. 2018;25(1):e8–e16.
Patel H, Moss EL, Sherman SM. HPV primary cervical cancer screening in England: women’s awareness and attitudes. Psychooncology. 2018;27(6):1559–1564.
Obermair HM, Dodd RH, Bonner C, Jansen J, McCaffery K. “It has saved thousands of lives, so why change it?” Content analysis of objections to cervical cancer screening programme changes in Australia. BMJ Open. 2018;8(2):e019171.
Hall MT, Simms KT, Lew JB, Smith MA, Saville M, Canfell K. Projected future impact of HPV vaccination and primary HPV screening on cervical cancer rates from 2017-2035: Example from Australia. PLoS One. 2018;13(2):e0185332.
Rebolj M, Bonde J, Preisler S, Ejegod D, Rygaard C, Lynge E. Human papillomavirus assays and cytology in primary cervical screening of women aged 30 years and above. PLoS One. 2016;11(1):e0147326.
Khunamornpong S, Settakorn J, Sukpan K, Suprasert P, Srisomboon J, Intaraphet S, Siriaunkgul S. Genotyping for human papillomavirus (HPV) 16/18/52/58 has a higher performance than HPV16/18 genotyping in triaging women with positive high-risk HPV test in Northern Thailand. PLoS One. 2016;11(6):e0158184.
Wright TC, Stoler MH, Behrens CM, Sharma A, Zhang G, Wright TL. Primary cervical cancer screening with human papillomavirus: end of study results from the ATHENA study using HPV as the first-line screening test. Gynecol Oncol. 2015;136(2):189–197.
Huh WK, Ault KA, Chelmow D, et al. Use of primary high-risk human papillomavirus testing for cervical cancer screening: interim clinical guidance. Obstet Gynecol. 2015;125(2):330–337.
American College of Obstetricians and Gynecologists Committee on Practice Bulletins–Gynecology. Practice Bulletin No. 168: cervical cancer screening and prevention. Obstet Gynecol. 2016;128(4):e111–e130.
Gladwell M. The Tipping Point: How Little Things Can Make a Big Difference. New York, New York: Little Brown; 2000.

SLN mapping is most cost-effective in low-risk endometrial carcinoma

Are we ready for primary HPV testing for the prevention of cervical cancer?

References

HPV causes cervical cancer

HPV vaccination

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