Evaluation of the validity of the HPV viral load compared to conventional techniques for the detection of high-grade anal intraepithelial lesions in men with HIV who have sex with men

Background The incidence of high-grade anal intraepithelial lesions (HSILs) has increased in recent years among men who have sex with men with human immunodeficiency virus (HIV). This work evaluated the validity of the human papilloma virus viral load (HPV-VL) versus cytological and qualitative HPV results to detect HSILs. Methods From May 2017 to January 2020, 93 men who have sex with men and HIV were included in an anal cancer screening program from the Infectious Diseases Unit at a tertiary-care hospital in Alicante (Spain). The gold-standard for the screening of anal HSILs is the anal biopsy using high-resolution anoscopy. The diagnostic methods compared against gold-standard were HPV-16-VL, HPV-18-VL, and HPV-16-18-VL co-testing, anal cytology, and qualitative HPV detection. The receiver operating characteristic (ROC) curve and cut-off points for HPV-VL were calculated. The sensitivity, specificity, positive predictive value (PPV), negative predictive value (NPV), and Cohen’s Kappa coefficient (κ) were also calculated. Results The mean patient age was 44.6 ± 9.5 years. All of them received antiretroviral treatment, 96.8% had an HIV viral load of <50 copies/mL and 17.2% had a previous diagnosis of AIDS. The diagnosis of the anal biopsies were: 19.4% (n = 18) HSIL, 29.1% (n = 27) LSIL, and 51.6% (n = 48) negative. An HPV-16-VL >6.2 copies/cell was detected in the HSIL biopsy samples (p = 0.007), showing a sensitivity of 100% and a specificity of 46.2%. HPV-18-VL and HPV16-18-VL co-testing showed a sensitivity of 75% and 76.9% and a specificity of 72.7% and 61.3%, respectively. The highest PPV was 50% obtained with the cytology and HPV-18-VL. The HPV-16-VL showed a NPV of 100%, followed by 88.9% in the HPV-18-VL and 87% in the abnormal cytology. Cohen’s Kappa coefficient were: HPV-18-VL (κ = 0.412), abnormal cytology (κ = 0.353) and HPV-16-VL (κ = 0.338). Conclusions HPV-VL testing improved the detection sensitivity but not the specificity for HSIL biopsies compared to anal cytology and the qualitative detection of HPV. In men who have sex with men and HIV the HPV-VL could be an useful tool for diagnosis of HSILs in anal cancer screening programs. Further studies will be needed to evaluate the clinical implications of HPV-VL in these programs.

[1]  J. Ferlay,et al.  Global burden of HPV‐attributable squamous cell carcinoma of the anus in 2020, according to sex and HIV status: A worldwide analysis , 2022, International journal of cancer.

[2]  R. Gilson,et al.  A systematic review and meta‐analysis of cytology and HPV‐related biomarkers for anal cancer screening among different risk groups , 2022, International journal of cancer.

[3]  M. Holden,et al.  HPV status and HPV16 viral load in anal cancer and its association with clinical outcome , 2022, Cancer medicine.

[4]  J. Palefsky,et al.  Treatment of Anal High-Grade Squamous Intraepithelial Lesions to Prevent Anal Cancer. , 2022, The New England journal of medicine.

[5]  Y. Zhang,et al.  Verification of the association of the cycle threshold (Ct) values from HPV testing on Cobas4800 with the histologic grades of cervical lesions using data from two population-based cervical cancer screening trials , 2022, Infectious Agents and Cancer.

[6]  E. Stier,et al.  Anal Cancer Screening and Prevention: Summary of Evidence Reviewed for the 2021 Centers for Disease Control and Prevention Sexually Transmitted Infection Guidelines. , 2022, Clinical Infectious Diseases.

[7]  G. Cooper,et al.  Excess cancer prevalence in men with HIV: A nationwide analysis of Medicaid data , 2022, Cancer.

[8]  Santosh Shenoy Anal human papilloma viral infection and squamous cell carcinoma: Need objective biomarkers for risk assessment and surveillance guidelines , 2022, World journal of gastrointestinal oncology.

[9]  A. Jemal,et al.  Cancer statistics, 2022 , 2022, CA: a cancer journal for clinicians.

[10]  S. Steigen,et al.  Anal cancer: ESMO Clinical Practice Guidelines for diagnosis, treatment and follow-up. , 2021, Annals of oncology : official journal of the European Society for Medical Oncology.

[11]  A. Guschin,et al.  The Prevalence of High Carcinogenic Risk of HPV Genotypes among HIV-Positive and HIV-Negative MSM from Russia , 2021, The Canadian journal of infectious diseases & medical microbiology = Journal canadien des maladies infectieuses et de la microbiologie medicale.

[12]  C. Hidalgo-Tenorio,et al.  Risk factors for ≥high-grade anal intraepithelial lesions in MSM living with HIV and the response to topical and surgical treatments. , 2021, PloS one.

[13]  E. Stier,et al.  A meta‐analysis of anal cancer incidence by risk group: Toward a unified anal cancer risk scale , 2020, International journal of cancer.

[14]  Liu Yang,et al.  Significance of the viral load of high-risk HPV in the diagnosis and prediction of cervical lesions: a retrospective study , 2020, BMC Women's Health.

[15]  E. Chmielik,et al.  Significance of HPV16 Viral Load Testing in Anal Cancer , 2020, Pathology & Oncology Research.

[16]  J. Lam,et al.  Acceptability of high‐resolution anoscopy for anal cancer screening in HIV‐infected patients , 2018, HIV medicine.

[17]  B. Shiramizu,et al.  Human Papillomavirus-16 DNA Quantitation Differentiates High-Grade Anal Neoplasia , 2018, International journal of environmental research and public health.

[18]  S. Grabar,et al.  Comparison of anal cancer screening strategies including standard anoscopy, anal cytology, and HPV genotyping in HIV-positive men who have sex with men , 2018, British Journal of Cancer.

[19]  D. Shtasel,et al.  Factors associated with anal cancer screening follow-up by high-resolution anoscopy , 2018, Sexually Transmitted Infections.

[20]  S. Landolfi,et al.  The role of oncogenic human papillomavirus determination for diagnosis of high-grade anal intraepithelial neoplasia in HIV-infected MSM , 2017, AIDS (London).

[21]  A. Kowalczyk,et al.  Differences in the prognosis of HPV16-positive patients with squamous cell carcinoma of head and neck according to viral load and expression of P16 , 2017, Journal of Cancer Research and Clinical Oncology.

[22]  M. Plummer,et al.  Worldwide burden of cancer attributable to HPV by site, country and HPV type , 2017, International journal of cancer.

[23]  S. Garland,et al.  The performance of human papillomavirus biomarkers in predicting anal high-grade squamous intraepithelial lesions in gay and bisexual men , 2017, AIDS.

[24]  E. Cachay,et al.  Preliminary results of a screening program for anal cancer and its precursors for HIV-infected men who have sex with men in Vigo-Spain. , 2017, Revista espanola de enfermedades digestivas : organo oficial de la Sociedad Espanola de Patologia Digestiva.

[25]  S. Garland,et al.  Prevalence and risk factors associated with high-grade anal squamous intraepithelial lesions (HSIL)-AIN2 and HSIL-AIN3 in homosexual men , 2016, Papillomavirus research.

[26]  J. Palefsky,et al.  Prevalence of Anal HPV Infection Among HIV-Positive Men Who Have Sex With Men in India , 2016, Journal of acquired immune deficiency syndromes.

[27]  P. Herranz,et al.  Human papillomavirus mRNA testing for the detection of anal high‐grade squamous intraepithelial lesions in men who have sex with men infected with HIV , 2015, Journal of medical virology.

[28]  R. Wirtz,et al.  Human papillomavirus DNA load and p16INK4a expression predict for local control in patients with anal squamous cell carcinoma treated with chemoradiotherapy , 2015, International journal of cancer.

[29]  Jeong Hwan Park,et al.  High‐risk human papillomavirus load and biomarkers in cervical intraepithelial neoplasia and cancer , 2014, APMIS : acta pathologica, microbiologica, et immunologica Scandinavica.

[30]  K. Sigel,et al.  High rates of anal dysplasia in HIV-infected men who have sex with men, women, and heterosexual men , 2014, AIDS.

[31]  C. Meijer,et al.  Anal and penile high-risk human papillomavirus prevalence in HIV-negative and HIV-infected MSM , 2013, AIDS.

[32]  J. Palefsky,et al.  Use of Human Papillomavirus DNA, E6/E7 mRNA, and p16 Immunocytochemistry to Detect and Predict anal High-Grade Squamous Intraepithelial Lesions in HIV-Positive and HIV-Negative Men Who Have Sex with Men , 2013, PloS one.

[33]  C. V. van Noesel,et al.  High-Resolution Anoscopy: Clinical Features of Anal Intraepithelial Neoplasia in HIV-positive Men , 2013, Diseases of the colon and rectum.

[34]  J. Palefsky,et al.  High prevalence and incidence of high-grade anal intraepithelial neoplasia among young Thai men who have sex with men with and without HIV , 2013, AIDS.

[35]  N. Wentzensen,et al.  Human papillomavirus genotyping, human papillomavirus mRNA expression, and p16/Ki-67 cytology to detect anal cancer precursors in HIV-infected MSM , 2012, AIDS.

[36]  M. Henry,et al.  The Lower Anogenital Squamous Terminology Standardization Project for HPV-Associated Lesions: Background and Consensus Recommendations From the College of American Pathologists and the American Society for Colposcopy and Cervical Pathology , 2012, Archives of pathology & laboratory medicine.

[37]  S. Garland,et al.  Anal human papillomavirus infection and associated neoplastic lesions in men who have sex with men: a systematic review and meta-analysis. , 2012, The Lancet. Oncology.

[38]  J. Pogoda,et al.  Prevalence of Anal Intraepithelial Neoplasia Defined by Anal Cytology Screening and High-Resolution Anoscopy in a Primary Care Population of HIV-Infected Men and Women , 2011, Diseases of the colon and rectum.

[39]  Samuel Martínez Excess , 2010, Current Anthropology.

[40]  N. Garrett,et al.  Performance of anal cytology in a clinical setting when measured against histology and high-resolution anoscopy findings , 2010, AIDS.

[41]  C. Tamalet,et al.  High level of HPV 16 and 18 DNA load in anal swabs from male and female HIV-1 infected patients. , 2009, Journal of clinical virology : the official publication of the Pan American Society for Clinical Virology.

[42]  C. Scagnolari,et al.  Type-specific human papillomavirus-DNA load in anal infection in HIV-positive men , 2008, AIDS.

[43]  F. Frizelle,et al.  MALIGNANT PROGRESSION OF ANAL INTRA‐EPITHELIAL NEOPLASIA , 2006, ANZ journal of surgery.

[44]  J. Palefsky,et al.  Anal intraepithelial neoplasia in the highly active antiretroviral therapy era among HIV-positive men who have sex with men , 2005, AIDS.

[45]  J. Raboud,et al.  Interobserver agreement in the interpretation of anal intraepithelial neoplasia , 2005, Cancer.

[46]  Mark Sherman,et al.  The 2001 Bethesda System: terminology for reporting results of cervical cytology. , 2002, JAMA.

[47]  J. Palefsky,et al.  Prevalence and risk factors for human papillomavirus infection of the anal canal in human immunodeficiency virus (HIV)-positive and HIV-negative homosexual men. , 1998, The Journal of infectious diseases.

[48]  OUP accepted manuscript , 2022, Clinical Infectious Diseases.

[49]  R. Pfeiffer,et al.  Anal Cancer Risk Among People With HIV Infection in the United States. , 2018, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[50]  A. Peixoto,et al.  Anal cytology, histopathology and anoscopy in an anal dysplasia screening program: is anal cytology enough? , 2018, Revista Espanola de Enfermedades Digestivas.

[51]  M. Poljak,et al.  Human papillomavirus DNA prevalence and type distribution in anal carcinomas worldwide , 2015, International journal of cancer.

[52]  M. Rodríguez-Girondo,et al.  [Practical considerations for high resolution anoscopy in patients infected with human immunodeficiency virus]. , 2014, Enfermedades infecciosas y microbiologia clinica.

[53]  J. T. Cox,et al.  The Lower Anogenital Squamous Terminology Standardization Project for HPV-Associated Lesions: background and consensus recommendations from the College of American Pathologists and the American Society for Colposcopy and Cervical Pathology. , 2012, Journal of lower genital tract disease.