OBJECTIVE: To describe incidence of immune reconstitution inflammatory syndrome (IRIS) and its association with mortality in a large multisite US HIV-infected cohort applying an objective, comprehensive definition. DESIGN: We studied 2,610 patients seen during 1996-2007 who initiated or resumed highly active combination antiretroviral therapy (cART) and, during the next 6 months, demonstrated a decline in plasma HIV-RNA viral load of at least 0.5 log(10) copies/ml or an increase of at least 50% in CD4 cell count per microliter. We defined IRIS as the diagnosis of a type B or C condition [as per the Centers for Disease Control and Prevention (CDC) 1993 AIDS case definition] or any new mucocutaneous disorder during this same 6-month period. METHODS: We assessed the incidence of IRIS and evaluated risk factors for IRIS using conditional logistic regression and for all-cause mortality using proportional hazards models. RESULTS: We identified 370 cases of IRIS (in 276 patients). Median and nadir CD4 cell counts at cART initiation were 90 and 43 cells/μl, respectively; median viral load was 2.7 log(10) copies/ml. The most common IRIS-defining diagnoses were candidiasis (all forms), cytomegalovirus infection, disseminated Mycobacterium avium intracellulare, Pneumocystis pneumonia, varicella zoster, Kaposi's sarcoma and non-Hodgkin lymphoma. Only one case of Mycobacterium tuberculosis was observed. IRIS was independently associated with CD4 cell count less than 50 cells/μl vs. at least 200 cells/μl [odds ratio (OR) 5.0] and a viral load of at least 5.0 log(10) copies vs. less than 4.0 log(10) copies (OR 2.3). IRIS with a type B-defining or type C-defining diagnosis approximately doubled the risk for all-cause mortality. CONCLUSION: In this large US-based HIV-infected cohort, IRIS occurred in 10.6% of patients who responded to effective ART and contributed to increased mortality.
OBJECTIVE: To describe incidence of immune reconstitution inflammatory syndrome (IRIS) and its association with mortality in a large multisite US HIV-infected cohort applying an objective, comprehensive definition. DESIGN: We studied 2,610 patients seen during 1996-2007 who initiated or resumed highly active combination antiretroviral therapy (cART) and, during the next 6 months, demonstrated a decline in plasma HIV-RNA viral load of at least 0.5 log(10) copies/ml or an increase of at least 50% in CD4 cell count per microliter. We defined IRIS as the diagnosis of a type B or C condition [as per the Centers for Disease Control and Prevention (CDC) 1993 AIDS case definition] or any new mucocutaneous disorder during this same 6-month period. METHODS: We assessed the incidence of IRIS and evaluated risk factors for IRIS using conditional logistic regression and for all-cause mortality using proportional hazards models. RESULTS: We identified 370 cases of IRIS (in 276 patients). Median and nadir CD4 cell counts at cART initiation were 90 and 43 cells/μl, respectively; median viral load was 2.7 log(10) copies/ml. The most common IRIS-defining diagnoses were candidiasis (all forms), cytomegalovirus infection, disseminated Mycobacterium avium intracellulare, Pneumocystis pneumonia, varicella zoster, Kaposi's sarcoma and non-Hodgkin lymphoma. Only one case of Mycobacterium tuberculosis was observed. IRIS was independently associated with CD4 cell count less than 50 cells/μl vs. at least 200 cells/μl [odds ratio (OR) 5.0] and a viral load of at least 5.0 log(10) copies vs. less than 4.0 log(10) copies (OR 2.3). IRIS with a type B-defining or type C-defining diagnosis approximately doubled the risk for all-cause mortality. CONCLUSION: In this large US-based HIV-infected cohort, IRIS occurred in 10.6% of patients who responded to effective ART and contributed to increased mortality.
Authors: Myrna C B Godoy; C Isabela S Silva; Jennifer Ellis; Peter Phillips; Nestor L Müller Journal: J Thorac Imaging Date: 2008-02 Impact factor: 3.000
Authors: S Antinori; E Longhi; G Bestetti; R Piolini; V Acquaviva; A Foschi; S Trovati; C Parravicini; M Corbellino; L Meroni Journal: Br J Dermatol Date: 2007-09-13 Impact factor: 9.302
Authors: Kate Buchacz; Bryan Lau; Yuezhou Jing; Ronald Bosch; Alison G Abraham; M John Gill; Michael J Silverberg; James J Goedert; Timothy R Sterling; Keri N Althoff; Jeffrey N Martin; Greer Burkholder; Neel Gandhi; Hasina Samji; Pragna Patel; Anita Rachlis; Jennifer E Thorne; Sonia Napravnik; Keith Henry; Angel Mayor; Kelly Gebo; Stephen J Gange; Richard D Moore; John T Brooks Journal: J Infect Dis Date: 2016-04-18 Impact factor: 5.226
Authors: Henry Masur; John T Brooks; Constance A Benson; King K Holmes; Alice K Pau; Jonathan E Kaplan Journal: Clin Infect Dis Date: 2014-02-27 Impact factor: 9.079
Authors: Susanna L Lamers; Gary B Fogel; Elyse J Singer; Marco Salemi; David J Nolan; Leanne C Huysentruyt; Michael S McGrath Journal: Int Rev Immunol Date: 2012-12 Impact factor: 5.311
Authors: Juan G Sierra-Madero; Susan Ellenberg; Mohammed S Rassool; Ann Tierney; Pablo F Belaunzarán-Zamudio; Alondra López-Martínez; Alicia Piñeirúa-Menéndez; Luis J Montaner; Livio Azzoni; César Rivera Benítez; Irini Sereti; Jaime Andrade-Villanueva; Juan L Mosqueda-Gómez; Benigno Rodriguez; Ian Sanne; Michael M Lederman Journal: Lancet HIV Date: 2014-11-01 Impact factor: 12.767