Immunodeficiency as a risk factor for non-AIDS-defining malignancies in HIV-1-infected patients receiving combination antiretroviral therapy

A. Kesselring; L. Gras; C. Smit; G. Van Twillert; A. Verbon; F. De Wolf; P. Reiss; F. Wit; Ferran Torres

doi:10.1093/cid/cir207

Immunodeficiency as a risk factor for non-AIDS-defining malignancies in HIV-1-infected patients receiving combination antiretroviral therapy

A. Kesselring, L. Gras, C. Smit, G. Van Twillert, A. Verbon, F. De Wolf, P. Reiss, F. Wit, Ferran Torres

Departament de Pediatria, d’Obstetrícia i Ginecologia i de Medicina Preventiva i Salut Pública

Producció científica: Contribució a revista › Article › Recerca › Avaluat per experts

85 Cites (Scopus)

Resum

Background. The aim of this study was to investigate the association between immunodeficiency, viremia, and non-AIDS-defining malignancies (NADM). Methods. Patients starting combination antiretroviral therapy (cART) as of 1 January 1996 were selected from the AIDS Therapy Evaluation in the Netherlands (ATHENA) cohort. In Cox models, risk factors for NADM were investigated. These included age, sex, transmission route, smoking, alcohol abuse, prior AIDS diagnosis, duration of exposure to cART, and estimated duration of human immunodeficiency virus infection. CD4+ cell count and viral load (VL) were considered as time-updated variables and as measures of cumulative exposure to CD4+ cell counts of <200, <350, or <500 cells/mm3 and detectable VL >50, >400, and >1000 copies/mL, respectively. Results. In a cohort of 11,459 patients, 236 NADMs were diagnosed; 102 were caused by infection, and 134 were attributable to other causes. Median CD4+ cell count at NADM diagnosis was 340 cells/mm3 (range, 210-540 cells/mm 3). Median time to first NADM after starting cART was 5.0 years (range, 2.2-8.2 years). In multivariate models, cumulative exposure to CD4+ cell counts <200 cells/mm3 remained significant (hazard ratio [HR], 1.12; range, 1.03-1.22) for each additional year of exposure. In stratified analyses, cumulative exposure to CD4+ cell counts <200 cells/mm3 was associated with malignancies possibly caused by infection (HR, 1.16; range, 1.03-1.31]) but was not associated with other types of cancers. No significant effect of viremia was seen in either type of cancer. Conclusions. Cumulative exposure to CD4+ cell counts <200 cells/mm3 during cART was associated with an increased risk of infection-related non-AIDS-defining malignancies. © 2011 The Author.

Idioma original	Anglès
Pàgines (de-a)	1458-1465
Nombre de pàgines	8
Revista	Clinical Infectious Diseases
Volum	52
Número	12
DOIs	https://doi.org/10.1093/cid/cir207
Estat de la publicació	Publicada - de juny 2011

SDG de les Nacions Unides

Aquest resultat contribueix als següents objectius de desenvolupament sostenible.

Accés al document

10.1093/cid/cir207

https://www.scopus.com/inward/record.uri?eid=2-s2.0-79958104634&doi=10.1093%2fcid%2fcir207&partnerID=40&md5=de458a65477d23fcdc6d268c598df620

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Com citar-ho

@article{389fa74756e84fe48ce18697f6d5bdb6,

title = "Immunodeficiency as a risk factor for non-AIDS-defining malignancies in HIV-1-infected patients receiving combination antiretroviral therapy",

abstract = "Background. The aim of this study was to investigate the association between immunodeficiency, viremia, and non-AIDS-defining malignancies (NADM). Methods. Patients starting combination antiretroviral therapy (cART) as of 1 January 1996 were selected from the AIDS Therapy Evaluation in the Netherlands (ATHENA) cohort. In Cox models, risk factors for NADM were investigated. These included age, sex, transmission route, smoking, alcohol abuse, prior AIDS diagnosis, duration of exposure to cART, and estimated duration of human immunodeficiency virus infection. CD4+ cell count and viral load (VL) were considered as time-updated variables and as measures of cumulative exposure to CD4+ cell counts of <200, <350, or <500 cells/mm3 and detectable VL >50, >400, and >1000 copies/mL, respectively. Results. In a cohort of 11,459 patients, 236 NADMs were diagnosed; 102 were caused by infection, and 134 were attributable to other causes. Median CD4+ cell count at NADM diagnosis was 340 cells/mm3 (range, 210-540 cells/mm 3). Median time to first NADM after starting cART was 5.0 years (range, 2.2-8.2 years). In multivariate models, cumulative exposure to CD4+ cell counts <200 cells/mm3 remained significant (hazard ratio [HR], 1.12; range, 1.03-1.22) for each additional year of exposure. In stratified analyses, cumulative exposure to CD4+ cell counts <200 cells/mm3 was associated with malignancies possibly caused by infection (HR, 1.16; range, 1.03-1.31]) but was not associated with other types of cancers. No significant effect of viremia was seen in either type of cancer. Conclusions. Cumulative exposure to CD4+ cell counts <200 cells/mm3 during cART was associated with an increased risk of infection-related non-AIDS-defining malignancies. {\textcopyright} 2011 The Author.",

keywords = "nonnucleoside reverse transcriptase inhibitor, proteinase inhibitor, RNA directed DNA polymerase inhibitor, adult, age, alcohol abuse, article, cancer risk, CD4+ T lymphocyte, disease association, disease transmission, female, highly active antiretroviral therapy, human, Human immunodeficiency virus 1, Human immunodeficiency virus 1 infection, immune deficiency, Kaposi sarcoma, liver cell carcinoma, lymphocyte count, major clinical study, male, neoplasm, non aids defining malignancy, nonhodgkin lymphoma, nonhuman, priority journal, sex difference, smoking, treatment duration, uterine cervix cancer, viremia, Acquired Immunodeficiency Syndrome, Adult, Anti-HIV Agents, Antiretroviral Therapy, Highly Active, CD4 Lymphocyte Count, Female, HIV-1, Humans, Male, Middle Aged, Neoplasms, Netherlands, Risk Factors, Statistics as Topic, Viral Load, Viremia",

author = "A. Kesselring and L. Gras and C. Smit and \{Van Twillert\}, G. and A. Verbon and \{De Wolf\}, F. and P. Reiss and F. Wit and Ferran Torres",

note = "Cited By :72 Export Date: 17 February 2022 CODEN: CIDIE Correspondence Address: Kesselring, A.; HIV Monitoring Foundation, Meibergdreef 9, 1105 AZ, Amsterdam, Netherlands; email: [email protected] Chemicals/CAS: proteinase inhibitor, 37205-61-1; Anti-HIV Agents Funding details: Ministerie van Volksgezondheid, Welzijn en Sport, VWS Funding text 1: Financial support. The ATHENA Cohort Study is maintained by the HIV Monitoring Foundation, supported by the Dutch Ministry of Health. References: Clifford, G.M., Polesel, J., Rickenbach, M., Maso, L.D., Keiser, O., Kofler, A., Rapiti, E., Yerly, S., Cancer risk in the Swiss HIV cohort study: Associations with immunodeficiency, smoking, and highly active antiretroviral therapy (2005) Journal of the National Cancer Institute, 97 (6), pp. 425-432. , DOI 10.1093/jnci/dji072; Mocroft, A., Katlama, C., Johnson, A.M., Pradier, C., Antunes, F., Mulcahy, F., Chiesi, A., Lundgren, J.D., AIDS across Europe, 1994-98: The EuroSIDA study (2000) Lancet, 356 (9226), pp. 291-296; Highly active antiretroviral therapy and incidence of cancer in human immunodeficiency virus-infected adults (2000) J Natl Cancer Inst, 92, pp. 1823-1830; Lima, V.D., Hogg, R.S., Harrigan, P.R., Moore, D., Yip, B., Wood, E., Montaner, J.S.G., Continued improvement in survival among HIV-infected individuals with newer forms of highly active antiretroviral therapy (2007) AIDS, 21 (6), pp. 685-692. , DOI 10.1097/QAD.0b013e32802ef30c, PII 0000203020070330000006; Bonnet, F., Burty, C., Lewden, C., Changes in cancer mortality among HIV-infected patients: The Mortalite 2005 Survey (2009) Clin Infect Dis, 48, pp. 633-639; Marin, B., Thiebaut, R., Bucher, H.C., Non-AIDS-defining deaths and immunodeficiency in the era of combination antiretroviral therapy (2009) AIDS, 23, pp. 1743-1753; Patel, P., Hanson, D.L., Sullivan, P.S., Novak, R.M., Moorman, A.C., Tong, T.C., Holmberg, S.D., Brooks, J.T., Incidence of types of cancer among HIV-infected persons compared with the general population in the United States, 1992-2003 (2008) Annals of Internal Medicine, 148 (10), pp. 728-736. , http://www.annals.org/cgi/reprint/148/10/728.pdf; Prosperi, M.C., Cozzi-Lepri, A., Castagna, A., Incidence of malignancies in HIV-infected patients and prognostic role of current CD4 cell count: Evidence from a large Italian cohort study (2010) Clin Infect Dis, 50, pp. 1316-1321; Bruyand, M., Thiebaut, R., Lawson-Ayayi, S., Role of uncontrolled HIV RNA level and immunodeficiency in the occurrence of malignancy in HIV-infected patients during the combination antiretroviral therapy era: Agence Nationale de Recherche sur le Sida (ANRS) CO3 Aquitaine Cohort (2009) Clin Infect Dis, 49, pp. 1109-1116; Powles, T., Robinson, D., Stebbing, J., Highly active antiretroviral therapy and the incidence of non-AIDS-defining cancers in people with HIV infection (2009) J Clin Oncol, 27, pp. 884-890; Sgadari, C., Monini, P., Barillari, G., Ensoli, B., Use of HIV protease inhibitors to block Kaposi's sarcoma and tumour growth (2003) Lancet Oncology, 4 (9), pp. 537-547. , DOI 10.1016/S1470-2045(03)01192-6, PII S1470204503011926; De Falco, G., Bellan, C., Lazzi, S., Claudio, P., La Sala, D., Cinti, C., Tosi, P., Leoncini, L., Interaction between HIV-1 Tat and pRb2/p130: A possible mechanism in the pathogenesis of AIDS-related neoplasms (2003) Oncogene, 22 (40), pp. 6214-6219. , DOI 10.1038/sj.onc.1206637; Ferry, T., Raffi, F., Collin-Filleul, F., Uncontrolled viral replication as a risk factor for non-AIDS severe clinical events in HIV-infected patients on long-term antiretroviral therapy: APROCO/COPILOTE (ANRS CO8) cohort study (2009) J Acquir Immune Defic Syndr, 51, pp. 407-415; Zoufaly, A., Stellbrink, H.J., Heiden, M.A., Cumulative HIV viremia during highly active antiretroviral therapy is a strong predictor of AIDS-related lymphoma (2009) J Infect Dis, 200, pp. 79-87; El-Sadr, W.M., Lundgren, J.D., Neaton, J.D., Gordin, F., Abrams, D., Arduino, R.C., Babiker, A., Rappoport, C., CD4+ count-guided interruption of antiretroviral treatment (2006) New England Journal of Medicine, 355 (22), pp. 2283-2296. , http://content.nejm.org/cgi/reprint/355/22/2283.pdf, DOI 10.1056/NEJMoa062360; Silverberg, M.J., Neuhaus, J., Bower, M., Gey, D., Hatzakis, A., Henry, K., Hidalgo, J., Abrams, D.I., Risk of cancers during interrupted antiretroviral therapy in the SMART study (2007) AIDS, 21 (14), pp. 1957-1963. , DOI 10.1097/QAD.0b013e3282ed6338, PII 0000203020070912000015; Frisch, M., Biggar, R.J., Engels, E.A., Goedert, J.J., Association of cancer with AIDS-related immunosuppression in adults (2001) Journal of the American Medical Association, 285 (13), pp. 1736-1745; Grulich, A.E., Van Leeuwen, M.T., Falster, M.O., Vajdic, C.M., Incidence of cancers in people with HIV/AIDS compared with immunosuppressed transplant recipients: A meta-analysis (2007) Lancet, 370 (9581), pp. 59-67. , DOI 10.1016/S0140-6736(07)61050-2, PII S0140673607610502; Monforte, A., Abrams, D., Pradier, C., HIV-induced immunodeficiency and mortality from AIDS-defining and non-AIDS-defining malignancies (2008) AIDS, 22, pp. 2143-2153; Incidence and risk factors of HIV-related non-Hodgkin's lymphoma in the era of combination antiretroviral therapy: A European multicohort study (2009) Antivir Ther, 14, pp. 1065-1074; Forslund, O., Iftner, T., Andersson, K., Lindelof, B., Hradil, E., Nordin, P., Stenquist, B., De Villiers, E.-M., Cutaneous human papillomaviruses found in sun-exposed skin: Beta-papillomavirus species 2 predominates in squamous cell carcinoma (2007) Journal of Infectious Diseases, 196 (6), pp. 876-883. , DOI 10.1086/521031; Clifford, G.M., Rickenbach, M., Polesel, J., Influence of HIV-related immunodeficiency on the risk of hepatocellular carcinoma (2008) AIDS, 22, pp. 2135-2141; Wong, H.L., Breen, E.C., Pfeiffer, R.M., Cytokine signaling pathway polymorphisms and AIDS-related non-Hodgkin lymphoma risk in the multicenter AIDS cohort study (2010) AIDS, 24, pp. 1025-1033; Gras, L., Van Sighem, A., Smit, C., Zaheri, S., De Wolf, F., Monitoring of Human Immunodeficiency Virus (HIV) Infection in the Netherlands, , 8 A.D. Jan 1; http://www.cphiv.dk/DAD/About/tabid/106/Default.aspx, Accessed 24 March 2011; http://www.cphiv.dk/Portals/0/files/Cancer\%20Version\%201.1.pdf, Accessed 24 March 2011; Anderson, R.E., Warner, N.L., Ionizing radiation and the immune response (1976) Adv Immunol, 24, pp. 215-335; Kavanaugh, D.Y., Carbone, D.P., Immunologic dysfunction in cancer (1996) Hematology/Oncology Clinics of North America, 10 (4), pp. 927-951. , DOI 10.1016/S0889-8588(05)70376-2; Silverberg, M.J., Abrams, D.I., AIDS-defining and non-AIDS-defining malignancies: Cancer occurrence in the antiretroviral therapy era (2007) Current Opinion in Oncology, 19 (5), pp. 446-451. , DOI 10.1097/CCO.0b013e3282c8c90d, PII 0000162220070900000006; Grulich, A.E., Cancer: The effects of HIV and antiretroviral therapy, and implications for early antiretroviral therapy initiation (2009) Curr Opin HIV AIDS, 4, pp. 183-187; Burnet, F.M., Immunological surveillance in neoplasia (1971) Transplant Rev, 7, pp. 3-25; Kirk, G.D., Merlo, C., O'Driscoll, P., Mehta, S.H., Galai, N., Vlahov, D., Samet, J., Engels, E.A., HIV infection is associated with an increased risk for lung cancer, independent of smoking (2007) Clinical Infectious Diseases, 45 (1), pp. 103-110. , DOI 10.1086/518606; Bower, M., Powles, T., Nelson, M., Shah, P., Cox, S., Mandelia, S., Gazzard, B., HIV-related lung cancer in the era of highly active antiretroviral therapy (2003) AIDS, 17 (3), pp. 371-375. , DOI 10.1097/00002030-200302140-00011; Strickler, H.D., Burk, R.D., Fazzari, M., Anastos, K., Minkoff, H., Massad, L.S., Hall, C., Palefsky, J.M., Natural history and possible reactivation of human papillomavirus in human immunodeficiency virus-positive women (2005) Journal of the National Cancer Institute, 97 (8), pp. 577-586. , DOI 10.1093/jnci/dji073; Colin, J.-F., Cazals-Hatem, D., Loriot, M.A., Martinot-Peignoux, M., Pham, B.N., Auperin, A., Degott, C., Marcellin, P., Influence of human immunodeficiency virus infection on chronic hepatitis B in homosexual men (1999) Hepatology, 29 (4), pp. 1306-1310; Ling, P.D., Vilchez, R.A., Keitel, W.A., Poston, D.G., Peng, R.S., White, Z.S., Visnegarwala, F., Butel, J.S., Epstein-Barr Virus DNA Loads in Adult Human Immunodeficiency Virus Type 1-Infected Patients Receiving Highly Active Antiretroviral Therapy (2003) Clinical Infectious Diseases, 37 (9), pp. 1244-1249. , DOI 10.1086/378808; Guiguet, M., Boue, F., Cadranel, J., Lang, J.M., Rosenthal, E., Costagliola, D., Effect of immunodeficiency HIV viral load, and antiretroviral therapy on the risk of individual malignancies (FHDH-ANRS CO4): A prospective cohort study (2009) Lancet Oncol, 10, pp. 1152-1159; Egger, M., Cause or Consequence?, , Peripheral CD4 cell counts and Hodgkin's disease in patients on cART 2010; Dunn, G.P., Bruce, A.T., Ikeda, H., Old, L.J., Schreiber, R.D., Cancer immunoediting: From immunosurveillance to tumor escape (2002) Nature Immunology, 3 (11), pp. 991-998. , DOI 10.1038/ni1102-991; Swann, J.B., Smyth, M.J., Immune surveillance of tumors (2007) Journal of Clinical Investigation, 117 (5), pp. 1137-1146. , http://www.jci.org/cgi/reprint/117/5/1137, DOI 10.1172/JCI31405; Giordano, T.P., Kramer, J.R., Does HIV infection independently increase the incidence of lung cancer? [1] (2005) Clinical Infectious Diseases, 40 (3), pp. 490-491. , DOI 10.1086/427028",

year = "2011",

month = jun,

doi = "10.1093/cid/cir207",

language = "English",

volume = "52",

pages = "1458--1465",

number = "12",

}

TY - JOUR

T1 - Immunodeficiency as a risk factor for non-AIDS-defining malignancies in HIV-1-infected patients receiving combination antiretroviral therapy

AU - Kesselring, A.

AU - Gras, L.

AU - Smit, C.

AU - Van Twillert, G.

AU - Verbon, A.

AU - De Wolf, F.

AU - Reiss, P.

AU - Wit, F.

AU - Torres, Ferran

N1 - Cited By :72 Export Date: 17 February 2022 CODEN: CIDIE Correspondence Address: Kesselring, A.; HIV Monitoring Foundation, Meibergdreef 9, 1105 AZ, Amsterdam, Netherlands; email: [email protected] Chemicals/CAS: proteinase inhibitor, 37205-61-1; Anti-HIV Agents Funding details: Ministerie van Volksgezondheid, Welzijn en Sport, VWS Funding text 1: Financial support. The ATHENA Cohort Study is maintained by the HIV Monitoring Foundation, supported by the Dutch Ministry of Health. References: Clifford, G.M., Polesel, J., Rickenbach, M., Maso, L.D., Keiser, O., Kofler, A., Rapiti, E., Yerly, S., Cancer risk in the Swiss HIV cohort study: Associations with immunodeficiency, smoking, and highly active antiretroviral therapy (2005) Journal of the National Cancer Institute, 97 (6), pp. 425-432. , DOI 10.1093/jnci/dji072; Mocroft, A., Katlama, C., Johnson, A.M., Pradier, C., Antunes, F., Mulcahy, F., Chiesi, A., Lundgren, J.D., AIDS across Europe, 1994-98: The EuroSIDA study (2000) Lancet, 356 (9226), pp. 291-296; Highly active antiretroviral therapy and incidence of cancer in human immunodeficiency virus-infected adults (2000) J Natl Cancer Inst, 92, pp. 1823-1830; Lima, V.D., Hogg, R.S., Harrigan, P.R., Moore, D., Yip, B., Wood, E., Montaner, J.S.G., Continued improvement in survival among HIV-infected individuals with newer forms of highly active antiretroviral therapy (2007) AIDS, 21 (6), pp. 685-692. , DOI 10.1097/QAD.0b013e32802ef30c, PII 0000203020070330000006; Bonnet, F., Burty, C., Lewden, C., Changes in cancer mortality among HIV-infected patients: The Mortalite 2005 Survey (2009) Clin Infect Dis, 48, pp. 633-639; Marin, B., Thiebaut, R., Bucher, H.C., Non-AIDS-defining deaths and immunodeficiency in the era of combination antiretroviral therapy (2009) AIDS, 23, pp. 1743-1753; Patel, P., Hanson, D.L., Sullivan, P.S., Novak, R.M., Moorman, A.C., Tong, T.C., Holmberg, S.D., Brooks, J.T., Incidence of types of cancer among HIV-infected persons compared with the general population in the United States, 1992-2003 (2008) Annals of Internal Medicine, 148 (10), pp. 728-736. , http://www.annals.org/cgi/reprint/148/10/728.pdf; Prosperi, M.C., Cozzi-Lepri, A., Castagna, A., Incidence of malignancies in HIV-infected patients and prognostic role of current CD4 cell count: Evidence from a large Italian cohort study (2010) Clin Infect Dis, 50, pp. 1316-1321; Bruyand, M., Thiebaut, R., Lawson-Ayayi, S., Role of uncontrolled HIV RNA level and immunodeficiency in the occurrence of malignancy in HIV-infected patients during the combination antiretroviral therapy era: Agence Nationale de Recherche sur le Sida (ANRS) CO3 Aquitaine Cohort (2009) Clin Infect Dis, 49, pp. 1109-1116; Powles, T., Robinson, D., Stebbing, J., Highly active antiretroviral therapy and the incidence of non-AIDS-defining cancers in people with HIV infection (2009) J Clin Oncol, 27, pp. 884-890; Sgadari, C., Monini, P., Barillari, G., Ensoli, B., Use of HIV protease inhibitors to block Kaposi's sarcoma and tumour growth (2003) Lancet Oncology, 4 (9), pp. 537-547. , DOI 10.1016/S1470-2045(03)01192-6, PII S1470204503011926; De Falco, G., Bellan, C., Lazzi, S., Claudio, P., La Sala, D., Cinti, C., Tosi, P., Leoncini, L., Interaction between HIV-1 Tat and pRb2/p130: A possible mechanism in the pathogenesis of AIDS-related neoplasms (2003) Oncogene, 22 (40), pp. 6214-6219. , DOI 10.1038/sj.onc.1206637; Ferry, T., Raffi, F., Collin-Filleul, F., Uncontrolled viral replication as a risk factor for non-AIDS severe clinical events in HIV-infected patients on long-term antiretroviral therapy: APROCO/COPILOTE (ANRS CO8) cohort study (2009) J Acquir Immune Defic Syndr, 51, pp. 407-415; Zoufaly, A., Stellbrink, H.J., Heiden, M.A., Cumulative HIV viremia during highly active antiretroviral therapy is a strong predictor of AIDS-related lymphoma (2009) J Infect Dis, 200, pp. 79-87; El-Sadr, W.M., Lundgren, J.D., Neaton, J.D., Gordin, F., Abrams, D., Arduino, R.C., Babiker, A., Rappoport, C., CD4+ count-guided interruption of antiretroviral treatment (2006) New England Journal of Medicine, 355 (22), pp. 2283-2296. , http://content.nejm.org/cgi/reprint/355/22/2283.pdf, DOI 10.1056/NEJMoa062360; Silverberg, M.J., Neuhaus, J., Bower, M., Gey, D., Hatzakis, A., Henry, K., Hidalgo, J., Abrams, D.I., Risk of cancers during interrupted antiretroviral therapy in the SMART study (2007) AIDS, 21 (14), pp. 1957-1963. , DOI 10.1097/QAD.0b013e3282ed6338, PII 0000203020070912000015; Frisch, M., Biggar, R.J., Engels, E.A., Goedert, J.J., Association of cancer with AIDS-related immunosuppression in adults (2001) Journal of the American Medical Association, 285 (13), pp. 1736-1745; Grulich, A.E., Van Leeuwen, M.T., Falster, M.O., Vajdic, C.M., Incidence of cancers in people with HIV/AIDS compared with immunosuppressed transplant recipients: A meta-analysis (2007) Lancet, 370 (9581), pp. 59-67. , DOI 10.1016/S0140-6736(07)61050-2, PII S0140673607610502; Monforte, A., Abrams, D., Pradier, C., HIV-induced immunodeficiency and mortality from AIDS-defining and non-AIDS-defining malignancies (2008) AIDS, 22, pp. 2143-2153; Incidence and risk factors of HIV-related non-Hodgkin's lymphoma in the era of combination antiretroviral therapy: A European multicohort study (2009) Antivir Ther, 14, pp. 1065-1074; Forslund, O., Iftner, T., Andersson, K., Lindelof, B., Hradil, E., Nordin, P., Stenquist, B., De Villiers, E.-M., Cutaneous human papillomaviruses found in sun-exposed skin: Beta-papillomavirus species 2 predominates in squamous cell carcinoma (2007) Journal of Infectious Diseases, 196 (6), pp. 876-883. , DOI 10.1086/521031; Clifford, G.M., Rickenbach, M., Polesel, J., Influence of HIV-related immunodeficiency on the risk of hepatocellular carcinoma (2008) AIDS, 22, pp. 2135-2141; Wong, H.L., Breen, E.C., Pfeiffer, R.M., Cytokine signaling pathway polymorphisms and AIDS-related non-Hodgkin lymphoma risk in the multicenter AIDS cohort study (2010) AIDS, 24, pp. 1025-1033; Gras, L., Van Sighem, A., Smit, C., Zaheri, S., De Wolf, F., Monitoring of Human Immunodeficiency Virus (HIV) Infection in the Netherlands, , 8 A.D. Jan 1; http://www.cphiv.dk/DAD/About/tabid/106/Default.aspx, Accessed 24 March 2011; http://www.cphiv.dk/Portals/0/files/Cancer%20Version%201.1.pdf, Accessed 24 March 2011; Anderson, R.E., Warner, N.L., Ionizing radiation and the immune response (1976) Adv Immunol, 24, pp. 215-335; Kavanaugh, D.Y., Carbone, D.P., Immunologic dysfunction in cancer (1996) Hematology/Oncology Clinics of North America, 10 (4), pp. 927-951. , DOI 10.1016/S0889-8588(05)70376-2; Silverberg, M.J., Abrams, D.I., AIDS-defining and non-AIDS-defining malignancies: Cancer occurrence in the antiretroviral therapy era (2007) Current Opinion in Oncology, 19 (5), pp. 446-451. , DOI 10.1097/CCO.0b013e3282c8c90d, PII 0000162220070900000006; Grulich, A.E., Cancer: The effects of HIV and antiretroviral therapy, and implications for early antiretroviral therapy initiation (2009) Curr Opin HIV AIDS, 4, pp. 183-187; Burnet, F.M., Immunological surveillance in neoplasia (1971) Transplant Rev, 7, pp. 3-25; Kirk, G.D., Merlo, C., O'Driscoll, P., Mehta, S.H., Galai, N., Vlahov, D., Samet, J., Engels, E.A., HIV infection is associated with an increased risk for lung cancer, independent of smoking (2007) Clinical Infectious Diseases, 45 (1), pp. 103-110. , DOI 10.1086/518606; Bower, M., Powles, T., Nelson, M., Shah, P., Cox, S., Mandelia, S., Gazzard, B., HIV-related lung cancer in the era of highly active antiretroviral therapy (2003) AIDS, 17 (3), pp. 371-375. , DOI 10.1097/00002030-200302140-00011; Strickler, H.D., Burk, R.D., Fazzari, M., Anastos, K., Minkoff, H., Massad, L.S., Hall, C., Palefsky, J.M., Natural history and possible reactivation of human papillomavirus in human immunodeficiency virus-positive women (2005) Journal of the National Cancer Institute, 97 (8), pp. 577-586. , DOI 10.1093/jnci/dji073; Colin, J.-F., Cazals-Hatem, D., Loriot, M.A., Martinot-Peignoux, M., Pham, B.N., Auperin, A., Degott, C., Marcellin, P., Influence of human immunodeficiency virus infection on chronic hepatitis B in homosexual men (1999) Hepatology, 29 (4), pp. 1306-1310; Ling, P.D., Vilchez, R.A., Keitel, W.A., Poston, D.G., Peng, R.S., White, Z.S., Visnegarwala, F., Butel, J.S., Epstein-Barr Virus DNA Loads in Adult Human Immunodeficiency Virus Type 1-Infected Patients Receiving Highly Active Antiretroviral Therapy (2003) Clinical Infectious Diseases, 37 (9), pp. 1244-1249. , DOI 10.1086/378808; Guiguet, M., Boue, F., Cadranel, J., Lang, J.M., Rosenthal, E., Costagliola, D., Effect of immunodeficiency HIV viral load, and antiretroviral therapy on the risk of individual malignancies (FHDH-ANRS CO4): A prospective cohort study (2009) Lancet Oncol, 10, pp. 1152-1159; Egger, M., Cause or Consequence?, , Peripheral CD4 cell counts and Hodgkin's disease in patients on cART 2010; Dunn, G.P., Bruce, A.T., Ikeda, H., Old, L.J., Schreiber, R.D., Cancer immunoediting: From immunosurveillance to tumor escape (2002) Nature Immunology, 3 (11), pp. 991-998. , DOI 10.1038/ni1102-991; Swann, J.B., Smyth, M.J., Immune surveillance of tumors (2007) Journal of Clinical Investigation, 117 (5), pp. 1137-1146. , http://www.jci.org/cgi/reprint/117/5/1137, DOI 10.1172/JCI31405; Giordano, T.P., Kramer, J.R., Does HIV infection independently increase the incidence of lung cancer? [1] (2005) Clinical Infectious Diseases, 40 (3), pp. 490-491. , DOI 10.1086/427028

PY - 2011/6

Y1 - 2011/6

N2 - Background. The aim of this study was to investigate the association between immunodeficiency, viremia, and non-AIDS-defining malignancies (NADM). Methods. Patients starting combination antiretroviral therapy (cART) as of 1 January 1996 were selected from the AIDS Therapy Evaluation in the Netherlands (ATHENA) cohort. In Cox models, risk factors for NADM were investigated. These included age, sex, transmission route, smoking, alcohol abuse, prior AIDS diagnosis, duration of exposure to cART, and estimated duration of human immunodeficiency virus infection. CD4+ cell count and viral load (VL) were considered as time-updated variables and as measures of cumulative exposure to CD4+ cell counts of <200, <350, or <500 cells/mm3 and detectable VL >50, >400, and >1000 copies/mL, respectively. Results. In a cohort of 11,459 patients, 236 NADMs were diagnosed; 102 were caused by infection, and 134 were attributable to other causes. Median CD4+ cell count at NADM diagnosis was 340 cells/mm3 (range, 210-540 cells/mm 3). Median time to first NADM after starting cART was 5.0 years (range, 2.2-8.2 years). In multivariate models, cumulative exposure to CD4+ cell counts <200 cells/mm3 remained significant (hazard ratio [HR], 1.12; range, 1.03-1.22) for each additional year of exposure. In stratified analyses, cumulative exposure to CD4+ cell counts <200 cells/mm3 was associated with malignancies possibly caused by infection (HR, 1.16; range, 1.03-1.31]) but was not associated with other types of cancers. No significant effect of viremia was seen in either type of cancer. Conclusions. Cumulative exposure to CD4+ cell counts <200 cells/mm3 during cART was associated with an increased risk of infection-related non-AIDS-defining malignancies. © 2011 The Author.

AB - Background. The aim of this study was to investigate the association between immunodeficiency, viremia, and non-AIDS-defining malignancies (NADM). Methods. Patients starting combination antiretroviral therapy (cART) as of 1 January 1996 were selected from the AIDS Therapy Evaluation in the Netherlands (ATHENA) cohort. In Cox models, risk factors for NADM were investigated. These included age, sex, transmission route, smoking, alcohol abuse, prior AIDS diagnosis, duration of exposure to cART, and estimated duration of human immunodeficiency virus infection. CD4+ cell count and viral load (VL) were considered as time-updated variables and as measures of cumulative exposure to CD4+ cell counts of <200, <350, or <500 cells/mm3 and detectable VL >50, >400, and >1000 copies/mL, respectively. Results. In a cohort of 11,459 patients, 236 NADMs were diagnosed; 102 were caused by infection, and 134 were attributable to other causes. Median CD4+ cell count at NADM diagnosis was 340 cells/mm3 (range, 210-540 cells/mm 3). Median time to first NADM after starting cART was 5.0 years (range, 2.2-8.2 years). In multivariate models, cumulative exposure to CD4+ cell counts <200 cells/mm3 remained significant (hazard ratio [HR], 1.12; range, 1.03-1.22) for each additional year of exposure. In stratified analyses, cumulative exposure to CD4+ cell counts <200 cells/mm3 was associated with malignancies possibly caused by infection (HR, 1.16; range, 1.03-1.31]) but was not associated with other types of cancers. No significant effect of viremia was seen in either type of cancer. Conclusions. Cumulative exposure to CD4+ cell counts <200 cells/mm3 during cART was associated with an increased risk of infection-related non-AIDS-defining malignancies. © 2011 The Author.

KW - nonnucleoside reverse transcriptase inhibitor

KW - proteinase inhibitor

KW - RNA directed DNA polymerase inhibitor

KW - adult

KW - age

KW - alcohol abuse

KW - article

KW - cancer risk

KW - CD4+ T lymphocyte

KW - disease association

KW - disease transmission

KW - female

KW - highly active antiretroviral therapy

KW - human

KW - Human immunodeficiency virus 1

KW - Human immunodeficiency virus 1 infection

KW - immune deficiency

KW - Kaposi sarcoma

KW - liver cell carcinoma

KW - lymphocyte count

KW - major clinical study

KW - male

KW - neoplasm

KW - non aids defining malignancy

KW - nonhodgkin lymphoma

KW - nonhuman

KW - priority journal

KW - sex difference

KW - smoking

KW - treatment duration

KW - uterine cervix cancer

KW - viremia

KW - Acquired Immunodeficiency Syndrome

KW - Adult

KW - Anti-HIV Agents

KW - Antiretroviral Therapy, Highly Active

KW - CD4 Lymphocyte Count

KW - Female

KW - HIV-1

KW - Humans

KW - Male

KW - Middle Aged

KW - Neoplasms

KW - Netherlands

KW - Risk Factors

KW - Statistics as Topic

KW - Viral Load

KW - Viremia

UR - https://academic.oup.com/cid/article-lookup/doi/10.1093/cid/cir207

UR - https://www.scopus.com/pages/publications/79958104634

U2 - 10.1093/cid/cir207

DO - 10.1093/cid/cir207

M3 - Article

SN - 1058-4838

VL - 52

SP - 1458

EP - 1465

JO - Clinical Infectious Diseases

JF - Clinical Infectious Diseases

IS - 12

ER -

Immunodeficiency as a risk factor for non-AIDS-defining malignancies in HIV-1-infected patients receiving combination antiretroviral therapy

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