T. Christopher Mast scite author profile

SummaryBackgroundWhile CMV viral load (CMV-VL) is commonly used to guide preemptive therapy in the post-transplant setting, there is little data correlating viremia with clinical endpoints. We therefore investigated the association of CMV-VL with mortality in the first year after hematopoietic cell transplantation (HCT).MethodsThis cohort study included patients who received an allogeneic HCT between 01 January 2007 and 28 February 2013, were CMV seropositive or had a seropositive donor, and underwent weekly plasma CMV monitoring by PCR through day 100 post-transplant. Cox proportional hazards models were used to estimate the association of CMV-VL at different thresholds with overall by 1 year post-transplant, adjusting for the use of preemptive therapy and other factors such as neutropenia, and graft-versus-host disease. Secondary endpoints were non-relapse mortality and CMV end organ disease by 1 year post-transplant.FindingsAmong 926 patients, the cumulative overall mortality was 30·0% (95% CI 26·9–33·0) by 1 year. CMV-VL of ≥250 IU/ml was associated with increased risk of early (day 0–60 post-transplant) death (adjusted HR 18·1, 95% CI 8·8–37·4). The risk was attenuated after day 60 (adjusted HR 1·8, 95% CI 1·4–2·4). Similar associations were observed for higher CMV-VL thresholds. CMV-VL was also associated with increased risk of non-relapse mortality and demonstrated a dose-response relationship. The adjusted HR (95% CI) for CMV-VL of any positive CMV-VL below 500, 501–1000, and >1000 IU/ml were 1·4 (0·9–2·1), 2·6 (1·3–4·9), and 5·0 (3·1–8·1), respectively.InterpretationCMV viremia is associated with increased risk of overall and non-relapse mortality in the first year after HCT, independent of the use of preemptive therapy and with evidence of a postitive dose-response relationship. These data establish the suitability of viral load as a surrogate clinical endpoint for clinical trials for CMV vaccines, biologics, and drugs.FundingMerck & Co., Inc., National Institute of Health (K23-AI097234, K24HL093294, HL088021, CA78902, CA18029, HL122173)

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International epidemiology of human pre-existing adenovirus (Ad) type-5, type-6, type-26 and type-36 neutralizing antibodies: Correlates of high Ad5 titers and implications for potential HIV vaccine trials

Mast

Kierstead

Gupta

et al. 2010

Vaccine

258

213

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Burden of rotavirus gastroenteritis and distribution of rotavirus strains in Asia: A systematic review

Kawai

O’Brien

Goveia

et al. 2012

Vaccine

157

159

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Epidemiological and economic burden of Clostridium difficile in the United States: estimates from a modeling approach

et al. 2016

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BackgroundDespite a large increase in Clostridium difficile infection (CDI) severity, morbidity and mortality in the US since the early 2000s, CDI burden estimates have had limited generalizability and comparability due to widely varying clinical settings, populations, or study designs.MethodsA decision-analytic model incorporating key input parameters important in CDI epidemiology was developed to estimate the annual number of initial and recurrent CDI cases, attributable and all-cause deaths, economic burden in the general population, and specific number of high-risk patients in different healthcare settings and the community in the US. Economic burden was calculated adopting a societal perspective using a bottom-up approach that identified healthcare resources consumed in the management of CDI.ResultsAnnually, a total of 606,058 (439,237 initial and 166,821 recurrent) episodes of CDI were predicted in 2014: 34.3 % arose from community exposure. Over 44,500 CDI-attributable deaths in 2014 were estimated to occur. High-risk susceptible individuals representing 5 % of the total hospital population accounted for 23 % of hospitalized CDI patients. The economic cost of CDI was $5.4 billion ($4.7 billion (86.7 %) in healthcare settings; $725 million (13.3 %) in the community), mostly due to hospitalization.ConclusionsA modeling framework provides more comprehensive and detailed national-level estimates of CDI cases, recurrences, deaths and cost in different patient groups than currently available from separate individual studies. As new treatments for CDI are developed, this model can provide reliable estimates to better focus healthcare resources to those specific age-groups, risk-groups, and care settings in the US where they are most needed. (Trial Identifier ClinicaTrials.gov: NCT01241552)Electronic supplementary materialThe online version of this article (doi:10.1186/s12879-016-1610-3) contains supplementary material, which is available to authorized users.

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