36 research outputs found

    Adverse maternal, fetal, and newborn outcomes among pregnant women with SARS-CoV-2 infection: an individual participant data meta-analysis.

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    INTRODUCTION Despite a growing body of research on the risks of SARS-CoV-2 infection during pregnancy, there is continued controversy given heterogeneity in the quality and design of published studies. METHODS We screened ongoing studies in our sequential, prospective meta-analysis. We pooled individual participant data to estimate the absolute and relative risk (RR) of adverse outcomes among pregnant women with SARS-CoV-2 infection, compared with confirmed negative pregnancies. We evaluated the risk of bias using a modified Newcastle-Ottawa Scale. RESULTS We screened 137 studies and included 12 studies in 12 countries involving 13 136 pregnant women.Pregnant women with SARS-CoV-2 infection-as compared with uninfected pregnant women-were at significantly increased risk of maternal mortality (10 studies; n=1490; RR 7.68, 95% CI 1.70 to 34.61); admission to intensive care unit (8 studies; n=6660; RR 3.81, 95% CI 2.03 to 7.17); receiving mechanical ventilation (7 studies; n=4887; RR 15.23, 95% CI 4.32 to 53.71); receiving any critical care (7 studies; n=4735; RR 5.48, 95% CI 2.57 to 11.72); and being diagnosed with pneumonia (6 studies; n=4573; RR 23.46, 95% CI 3.03 to 181.39) and thromboembolic disease (8 studies; n=5146; RR 5.50, 95% CI 1.12 to 27.12).Neonates born to women with SARS-CoV-2 infection were more likely to be admitted to a neonatal care unit after birth (7 studies; n=7637; RR 1.86, 95% CI 1.12 to 3.08); be born preterm (7 studies; n=6233; RR 1.71, 95% CI 1.28 to 2.29) or moderately preterm (7 studies; n=6071; RR 2.92, 95% CI 1.88 to 4.54); and to be born low birth weight (12 studies; n=11 930; RR 1.19, 95% CI 1.02 to 1.40). Infection was not linked to stillbirth. Studies were generally at low or moderate risk of bias. CONCLUSIONS This analysis indicates that SARS-CoV-2 infection at any time during pregnancy increases the risk of maternal death, severe maternal morbidities and neonatal morbidity, but not stillbirth or intrauterine growth restriction. As more data become available, we will update these findings per the published protocol

    Protocol for a sequential, prospective meta-analysis to describe coronavirus disease 2019 (COVID-19) in the pregnancy and postpartum periods.

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    We urgently need answers to basic epidemiological questions regarding SARS-CoV-2 infection in pregnant and postpartum women and its effect on their newborns. While many national registries, health facilities, and research groups are collecting relevant data, we need a collaborative and methodologically rigorous approach to better combine these data and address knowledge gaps, especially those related to rare outcomes. We propose that using a sequential, prospective meta-analysis (PMA) is the best approach to generate data for policy- and practice-oriented guidelines. As the pandemic evolves, additional studies identified retrospectively by the steering committee or through living systematic reviews will be invited to participate in this PMA. Investigators can contribute to the PMA by either submitting individual patient data or running standardized code to generate aggregate data estimates. For the primary analysis, we will pool data using two-stage meta-analysis methods. The meta-analyses will be updated as additional data accrue in each contributing study and as additional studies meet study-specific time or data accrual thresholds for sharing. At the time of publication, investigators of 25 studies, including more than 76,000 pregnancies, in 41 countries had agreed to share data for this analysis. Among the included studies, 12 have a contemporaneous comparison group of pregnancies without COVID-19, and four studies include a comparison group of non-pregnant women of reproductive age with COVID-19. Protocols and updates will be maintained publicly. Results will be shared with key stakeholders, including the World Health Organization (WHO) Maternal, Newborn, Child, and Adolescent Health (MNCAH) Research Working Group. Data contributors will share results with local stakeholders. Scientific publications will be published in open-access journals on an ongoing basis

    Adverse maternal, fetal, and newborn outcomes among pregnant women with SARS-CoV-2 infection: an individual participant data meta-analysis.

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    INTRODUCTION: Despite a growing body of research on the risks of SARS-CoV-2 infection during pregnancy, there is continued controversy given heterogeneity in the quality and design of published studies. METHODS: We screened ongoing studies in our sequential, prospective meta-analysis. We pooled individual participant data to estimate the absolute and relative risk (RR) of adverse outcomes among pregnant women with SARS-CoV-2 infection, compared with confirmed negative pregnancies. We evaluated the risk of bias using a modified Newcastle-Ottawa Scale. RESULTS: We screened 137 studies and included 12 studies in 12 countries involving 13 136 pregnant women.Pregnant women with SARS-CoV-2 infection-as compared with uninfected pregnant women-were at significantly increased risk of maternal mortality (10 studies; n=1490; RR 7.68, 95% CI 1.70 to 34.61); admission to intensive care unit (8 studies; n=6660; RR 3.81, 95% CI 2.03 to 7.17); receiving mechanical ventilation (7 studies; n=4887; RR 15.23, 95% CI 4.32 to 53.71); receiving any critical care (7 studies; n=4735; RR 5.48, 95% CI 2.57 to 11.72); and being diagnosed with pneumonia (6 studies; n=4573; RR 23.46, 95% CI 3.03 to 181.39) and thromboembolic disease (8 studies; n=5146; RR 5.50, 95% CI 1.12 to 27.12).Neonates born to women with SARS-CoV-2 infection were more likely to be admitted to a neonatal care unit after birth (7 studies; n=7637; RR 1.86, 95% CI 1.12 to 3.08); be born preterm (7 studies; n=6233; RR 1.71, 95% CI 1.28 to 2.29) or moderately preterm (7 studies; n=6071; RR 2.92, 95% CI 1.88 to 4.54); and to be born low birth weight (12 studies; n=11 930; RR 1.19, 95% CI 1.02 to 1.40). Infection was not linked to stillbirth. Studies were generally at low or moderate risk of bias. CONCLUSIONS: This analysis indicates that SARS-CoV-2 infection at any time during pregnancy increases the risk of maternal death, severe maternal morbidities and neonatal morbidity, but not stillbirth or intrauterine growth restriction. As more data become available, we will update these findings per the published protocol

    [Hypersensitivity pneumonitis related to Penicillium chrysogenum and mesophilic Streptomyces: the usefulness of the Medical Indoor Environment Councelor (MIEC)].

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    International audienceHypersensitivity pneumonitis (HP) occurred after organic antigens inhalation at home is rare and the diagnosis is very often difficult. We report the case of a 55-year male patient with allergic asthma since childhood, well controlled with inhaled corticosteroids, twice hospitalized for respiratory distresses. The patient presented fever (39°C), dry cough, rapidly progressive dyspnea, chest pain and crackles. Blood gas analysis found a hypoxemia of 52 mmHg, and CT-scan showed ground glass images in the upper lobes. Respiratory function tests showed severe obstructive syndrome and a decrease of diffusion test. HP was suspected because the symptoms were triggered by domestic environmental. The Medical Indoor Environment Councelor (MIEC) visited the patient's house and camper and performed air and dust samples. Moldy walnuts were found in the camper. The identification of microorganisms present in the air and on the surfaces in the camper was used for serum precipitins research by double diffusion (DD) and electrosyneresis (E) methods. From the 14 antigens tested, serological tests were considered significant for mesophilic Streptomyces (five arcs DD, six arcs E) and Penicillium chrysogenum (one arc DD, four arcs E). After removal from the camper of the objects suspected to be contaminated, the patient's symptoms regressed. This is a typical case of domestic HP to mesophilic Streptomyces and P. chrysogenum. The MIEC's intervention was useful in both diagnosis and treatment

    Les défensines : des allergÚnes végétaux importants ?

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    International audienceDefensins are small disulfide-rich proteins, which are widely distributed in plants. They all have a knottin domain with an abcabc topology, which is characterized by the existence of a knot interlaced with disulfide bridges. The knot is made up of a disulphide bridge, which is crossed by a loop formed by two other disulfide bridges connected to a peptide backbone. This structure denotes that the crossing disulfide bridge(s) is oriented perpendicularly to the two other disulfide bridges forming the loop. The knottin domain can be connected either by a long C-terminal tail rich in hydroxyproline (definsins with a long chain with about 110 amino acids) or by a short C-terminal chain (with about 50 amino acids). The Art v 1 allergen of mugwort (Artemisia vulgaris) pollen is the prototype of the long-chain defensins whereas defensins of the Brassicaceae essentially belong to the short-chain defensin group. Except for Art v 1 and the closely-related Amb a 4 allergen from ragweed (Ambrosia artemisiifolia) pollen, both of which are well-known allergens, the allergenicity of other plant defensins is far from being clinically demonstrated. Nevertheless, the fact that electropositive amino acid patches (with lysine and arginine) and electronegative patches (with aspartic and glutamic acids) which have been identified on the surface of both Art v 1 and Amb a 4 also exist in a few other defensins suggests that other defensins could also be allergenic. Further clinical and immunological investigations are necessary to ascertain the allergenicity of these putative defensin allergens.Les dĂ©fensines sont des protĂ©ines de petite taille, riches en ponts disulfure, largement distribuĂ©es dans le rĂšgne vĂ©gĂ©tal. Elles possĂšdent toutes un domaine « knottin » qui se caractĂ©rise par l’existence d’un nƓud (entrelac) de ponts disulfure. Ce nƓud est constituĂ© d’un pont disulfure qui vient traverser une grande boucle constituĂ©e par deux autres ponts disulfure reliĂ©s au squelette peptidique. Cette organisation suppose que le pont disulfure traversant soit disposĂ© perpendiculairement par rapport aux deux autres ponts disulfure constituant la boucle. Ce domaine « knottin » est reliĂ© Ă  une longue queue C-terminale riche en hydroxyproline (dĂ©fensines Ă  longue chaĂźne d’environ 110 acides aminĂ©s) ou non (dĂ©fensines Ă  courte chaĂźne d’environ 50 acides aminĂ©s). L’allergĂšne Art v 1 du pollen d’armoise (Artemisia vulgaris) est le prototype des dĂ©fensines Ă  longue chaĂźne, tandis que la plupart des dĂ©fensines de BrassicacĂ©es sont des dĂ©fensines Ă  courte chaĂźne. À l’exception d’Art v 1 et de l’allergĂšne Amb a 4 du pollen d’ambroisie (Ambrosia artemisiifolia) qui sont des allergĂšnes bien connus, l’allergĂ©nicitĂ© des autres dĂ©fensines vĂ©gĂ©tales est loin d’avoir Ă©tĂ© dĂ©montrĂ©e. NĂ©anmoins, le fait que les plages Ă©lectropositives (constituĂ©es de lysine et d’arginine) et Ă©lectronĂ©gatives (constituĂ©es d’acides aspartique et glutamique) identifiĂ©es Ă  la surface d’Art v 1 et d’Amb a 4 se retrouvent dans quelques autres dĂ©fensines, suggĂšre que d’autres dĂ©fensines pourraient ĂȘtre allergĂ©niques. Des investigations cliniques et biologiques seront bien sĂ»r nĂ©cessaires pour justifier ce statut d’allergĂšne
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