OBJECTIVE: To evaluate Merkel cell polyomavirus (MCPyV) DNA prevalence and load among men with human immunodeficiency virus (HIV) (hereafter referred to as HIV-positive men) and among healthy male control subjects. DESIGN: Prospective study from February 4, 2009, through April 24, 2010. SETTING: Dermatology department of a university hospital. PATIENTS: A total of 449 male adults were prospectively recruited, including 210 HIV-positive men who have sex with men and 239 healthy controls. Cutaneous swabs were obtained once from the surface of the forehead in all participants. MAIN OUTCOME MEASURES: Swabs were evaluated for the presence of MCPyV DNA using single-round and nested polymerase chain reaction. The MCPyV DNA load (the number of MCPyV DNA copies per β-globin gene copy) was determined in MCPyV-positive samples using quantitative real-time polymerase chain reaction. RESULTS: Among 449 forehead swabs analyzed, MCPyV DNA was detected in 242 (53.9%). Compared with healthy controls, HIV-positive men more frequently had MCPyV DNA on nested polymerase chain reaction (49.4% vs 59.0%, P = .046) and on single-round polymerase chain reaction (15.9% vs 28.1%, P = .002). The MCPyV DNA loads in HIV-positive men were similar to those in HIV-negative men, but HIV-positive men with poorly controlled HIV infection had significantly higher MCPyV DNA loads than those who had well-controlled HIV infection (median and mean MCPyV DNA loads, 2.48 and 273.04 vs 0.48 and 11.84; P = .046). CONCLUSIONS: Cutaneous MCPyV prevalence is increased among HIV-positive men who have sex with men. Furthermore, MCPyV DNA loads are significantly higher in HIV-positive men with poorly controlled HIV infection compared with those who have well-controlled HIV infection. This could explain the increased risk of MCPyV-associated Merkel cell carcinoma observed among HIV-positive individuals.
OBJECTIVE: To evaluate Merkel cell polyomavirus (MCPyV) DNA prevalence and load among men with human immunodeficiency virus (HIV) (hereafter referred to as HIV-positive men) and among healthy male control subjects. DESIGN: Prospective study from February 4, 2009, through April 24, 2010. SETTING: Dermatology department of a university hospital. PATIENTS: A total of 449 male adults were prospectively recruited, including 210 HIV-positive men who have sex with men and 239 healthy controls. Cutaneous swabs were obtained once from the surface of the forehead in all participants. MAIN OUTCOME MEASURES: Swabs were evaluated for the presence of MCPyV DNA using single-round and nested polymerase chain reaction. The MCPyV DNA load (the number of MCPyV DNA copies per β-globin gene copy) was determined in MCPyV-positive samples using quantitative real-time polymerase chain reaction. RESULTS: Among 449 forehead swabs analyzed, MCPyV DNA was detected in 242 (53.9%). Compared with healthy controls, HIV-positive men more frequently had MCPyV DNA on nested polymerase chain reaction (49.4% vs 59.0%, P = .046) and on single-round polymerase chain reaction (15.9% vs 28.1%, P = .002). The MCPyV DNA loads in HIV-positive men were similar to those in HIV-negative men, but HIV-positive men with poorly controlled HIV infection had significantly higher MCPyV DNA loads than those who had well-controlled HIV infection (median and mean MCPyV DNA loads, 2.48 and 273.04 vs 0.48 and 11.84; P = .046). CONCLUSIONS: Cutaneous MCPyV prevalence is increased among HIV-positive men who have sex with men. Furthermore, MCPyV DNA loads are significantly higher in HIV-positive men with poorly controlled HIV infection compared with those who have well-controlled HIV infection. This could explain the increased risk of MCPyV-associated Merkel cell carcinoma observed among HIV-positive individuals.
Authors: Lesley S Park; Raúl U Hernández-Ramírez; Michael J Silverberg; Kristina Crothers; Robert Dubrow Journal: AIDS Date: 2016-01 Impact factor: 4.177
Authors: Baki Akgül; Paola Zigrino; Martin Hufbauer; Xi Liu; Patrick S Moore; Cornelia Mauch; Herbert Pfister Journal: J Dermatol Sci Date: 2012-03-30 Impact factor: 4.563
Authors: Stephan Herberhold; Martin Hellmich; Marcus Panning; Eva Bartok; Steffi Silling; Baki Akgül; Ulrike Wieland Journal: Med Microbiol Immunol Date: 2016-11-10 Impact factor: 4.148