Romain Rivoirard scite author profile

Background Cancer patients are thought to have an increased risk of developing severe Coronavirus Disease 2019 (COVID-19) infection and of dying from the disease. In this work, predictive factors for COVID-19 severity and mortality in cancer patients were investigated. Patients and Methods In this large nationwide retro-prospective cohort study, we collected data on patients with solid tumours and COVID-19 diagnosed between March 1 and June 11, 2020. The primary endpoint was all-cause mortality and COVID-19 severity, defined as admission to an intensive care unit (ICU) and/or mechanical ventilation and/or death, was one of the secondary endpoints. Results From April 4 to June 11, 2020, 1289 patients were analysed. The most frequent cancers were digestive and thoracic. Altogether, 424 (33%) patients had a severe form of COVID-19 and 370 (29%) patients died. In multivariate analysis, independent factors associated with death were male sex (odds ratio 1.73, 95%CI: 1.18-2.52), ECOG PS ≥ 2 (OR 3.23, 95%CI: 2.27-4.61), updated Charlson comorbidity index (OR 1.08, 95%CI: 1.01-1.16) and admission to ICU (OR 3.62, 95%CI 2.14-6.11). The same factors, age along with corticosteroids before COVID-19 diagnosis, and thoracic primary tumour site were independently associated with COVID-19 severity. None of the anticancer treatments administered within the previous 3 months had any effect on mortality or COVID-19 severity, except cytotoxic chemotherapy in the subgroup of patients with detectable SARS-CoV-2 by RT-PCR, which was associated with a slight increase of the risk of death (OR 1.53; 95%CI: 1.00-2.34; p = 0.05). A total of 431 (39%) patients had their systemic anticancer treatment interrupted or stopped following diagnosis of COVID-19. Conclusions Mortality and COVID-19 severity in cancer patients are high and are associated with general characteristics of patients. We found no deleterious effects of recent anticancer treatments, except for cytotoxic chemotherapy in the RT-PCR-confirmed subgroup of patients. In almost 40% of patients, the systemic anticancer therapy was interrupted or stopped after COVID-19 diagnosis.

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Quality of reporting in oncology phase II trials: A 5-year assessment through systematic review

Langrand-Escure

Rivoirard

Oriol

et al. 2017

PLoS ONE

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BackgroundPhase II clinical trials are a cornerstone of the development in experimental treatments They work as a "filter" for phase III trials confirmation. Surprisingly the attrition ratio in Phase III trials in oncology is significantly higher than in any other medical specialty. This suggests phase II trials in oncology fail to achieve their goal.Objective The present study aims at estimating the quality of reporting in published oncology phase II clinical trials.Data sourcesA literature review was conducted among all phase II and phase II/III clinical trials published during a 5-year period (2010–2015).Study eligibility criteriaAll articles electronically published by three randomly-selected oncology journals with Impact-Factors>4 were included: Journal of Clinical Oncology, Annals of Oncology and British Journal of Cancer.InterventionQuality of reporting was assessed using the Key Methodological Score.Results557 articles were included. 315 trials were single-arm studies (56.6%), 193 (34.6%) were randomized and 49 (8.8%) were non-randomized multiple-arm studies. The Methodological Score was equal to 0 (lowest level), 1, 2, 3 (highest level) respectively for 22 (3.9%), 119 (21.4%), 270 (48.5%) and 146 (26.2%) articles. The primary end point is almost systematically reported (90.5%), while sample size calculation is missing in 66% of the articles. 3 variables were independently associated with reporting of a high standard: presence of statistical design (p-value <0.001), multicenter trial (p-value = 0.012), per-protocol analysis (p-value <0.001).LimitationsScreening was mainly performed by a sole author. The Key Methodological Score was based on only 3 items, making grey zones difficult to translate.Conclusions & implications of key findingsThis literature review highlights the existence of gaps concerning the quality of reporting. It therefore raised the question of the suitability of the methodology as well as the quality of these trials, reporting being incomplete in the corresponding articles.

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Effectiveness of a nurse-led telephone follow-up in the therapeutic management of patients receiving oral antineoplastic agents: a randomized, multicenter controlled trial (ETICCO study)

Bouleftour

Muron

Guillot

et al. 2021

Support Care Cancer

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General management of nonagenarian patients: a review of the literature

Rivoirard¹,

Chargari²,

Trone³

et al. 2014

Swiss Med Wkly

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The number of nonagenarian people in the world is steadily growing. This phenomenon will increase in future years: in 2050, world population prospects estimate 71.16 million people aged 90 years or older. The two main causes of death among people aged 85 years or more in Europe in 2003 were cardiovascular and cerebrovascular diseases and cancers. However, the elderly are often excluded from clinical trials; they are underrepresented in clinical registries and especially nonagenarians. Care (medical, surgical, oncology) of these very elderly is currently insufficiently based on scientific recommendations. For the physician, the choice to treat or not to treat very elderly patients (for fear of side effects) is difficult. Oncology is particularly affected by this problem. Here we review these different fields of internal medicine management of nonagenarian patients with a special focus on oncology and on comprehensive geriatric assessment as a base for all care decision taking.

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Vaccination and Immune Checkpoint Inhibitors

Désage¹,

Bouleftour²,

Rivoirard³

et al. 2020

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Introduction: Immune checkpoint inhibitors (ICIs) have become part of cancer treatments. Their main side effects are immune-related adverse events (irAEs). So far, there has been no recommendation regarding routine vaccinations during ICIs treatment. Clinicians are aware of the risk of irAEs increases in this specific situation. The aim of this review of literature is to summarize the main studies about vaccination and ICIs interactions. Methods: A systematic assessment of literature articles was performed by searching in PubMed (MEDLINE), and major oncology meeting following PRISMA guidelines. Results: This review highlights the lack of literature. Indeed, most of the studies published were about influenza vaccination. Vaccination for patients under ICIs causes a humoral response and seems to be associated with an increase rate of seroconversion. Interestingly vaccination may provoke irAEs in ICIs-treated patients. So far, inactivated vaccines have not been contraindicated during ICI treatment. Conclusion: Larger prospective studies are needed in order to define a consensus on the use of vaccines under immunotherapy.

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