Literature DB >> 10753726

Detection of cervical antibodies to human papillomavirus type 16 (HPV-16) capsid antigens in relation to detection of HPV-16 DNA and cervical lesions.

M E Hagensee1, L A Koutsky, S K Lee, T Grubert, J Kuypers, N B Kiviat, D A Galloway.   

Abstract

A more sensitive luminescence immunoassay (LIA) for human papillomavirus type 16 (HPV-16) was developed and used to measure HPV-16 antibodies in cervical samples from 292 college-aged women who were examined at 4-month intervals. Of the 609 collected samples, IgG, IgA, and secretory piece-associated antibodies to HPV-16 were detected in 12%, 6%, and 8%, respectively, of samples tested. Cervical IgG antibodies were most strongly associated with HPV-16 DNA detected within the previous 12 months (odds ratio, 3.3; 95% confidence interval, 1.4-7.8). Secretory IgA (cervical IgA- and secretory piece-positive) was most strongly associated with detection of a squamous intraepithelial lesions 4-8 months earlier (odds ratio, 6.4; 95% confidence interval, 1.9-21.8). As with serum HPV-16 antibodies, there appears to be a several-month delay between cervical HPV infection and detection of cervical antibodies.

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Year:  2000        PMID: 10753726     DOI: 10.1086/315364

Source DB:  PubMed          Journal:  J Infect Dis        ISSN: 0022-1899            Impact factor:   5.226


  8 in total

1.  Human papillomavirus-specific antibody status in oral fluids modestly reflects serum status in human immunodeficiency virus-positive individuals.

Authors:  Jennifer E Cameron; Isaac V Snowhite; Anil K Chaturvedi; Michael E Hagensee
Journal:  Clin Diagn Lab Immunol       Date:  2003-05

2.  The use of human papillomavirus seroepidemiology to inform vaccine policy.

Authors:  Mark Schiffman; Mahboobeh Safaeian; Nicolas Wentzensen
Journal:  Sex Transm Dis       Date:  2009-11       Impact factor: 2.830

Review 3.  Epidemiology of human papillomavirus infection in men, cancers other than cervical and benign conditions.

Authors:  Anna R Giuliano; Guillermo Tortolero-Luna; Elena Ferrer; Ann N Burchell; Silvia de Sanjose; Susanne Kruger Kjaer; Nubia Muñoz; Mark Schiffman; F Xavier Bosch
Journal:  Vaccine       Date:  2008-08-19       Impact factor: 3.641

Review 4.  Mechanisms of virus immune evasion lead to development from chronic inflammation to cancer formation associated with human papillomavirus infection.

Authors:  Masachika Senba; Naoki Mori
Journal:  Oncol Rev       Date:  2012-10-05

5.  Detention of HPV L1 Capsid Protein and hTERC Gene in Screening of Cervical Cancer.

Authors:  Huang Bin; Wu Ruifang; Li Ruizhen; Liang Yiheng; Liu Zhihong; Li Juan; Wang Chun; Zhou Yanqiu; Weng Leiming
Journal:  Iran J Basic Med Sci       Date:  2013-06       Impact factor: 2.699

6.  Serum and cervicovaginal IgG immune responses against α7 and α9 HPV in non-vaccinated women at risk for cervical cancer: Implication for catch-up prophylactic HPV vaccination.

Authors:  Ralph-Sydney Mboumba Bouassa; Hélène Péré; Camélia Gubavu; Thierry Prazuck; Mohammad-Ali Jenabian; David Veyer; Jean-François Meye; Antoine Touzé; Laurent Bélec
Journal:  PLoS One       Date:  2020-05-18       Impact factor: 3.240

7.  Cross-sectional study of HPV-16 infection in a population-based subsample of Hispanic adults.

Authors:  A P Ortiz; E R Unger; C Muñoz; G Panicker; G Tortolero-Luna; M Soto-Salgado; Y Otero; E Suárez; C M Pérez
Journal:  BMJ Open       Date:  2014-02-04       Impact factor: 2.692

Review 8.  Infection and vaccine-induced HPV-specific antibodies in cervicovaginal secretions. A review of the literature.

Authors:  Jade Pattyn; Severien Van Keer; Wiebren Tjalma; Veerle Matheeussen; Pierre Van Damme; Alex Vorsters
Journal:  Papillomavirus Res       Date:  2019-09-05
  8 in total

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