Sahinhurley7513

Several studies have raised concerns that transfusion of O red blood cells (RBCs) to ABO and D non-identical recipients can intensify group O inventory shortages. The aim of this study was to retrospectively analyse particular clinical indications and polices responsible for O RBCs use by ABO and D non-identical recipients, as well as to assess the impact of this practice on the overall utilisation of O RBCs.

Data of all transfused RBCs from 2014 to 2018 were extracted from the comprehensive database of transfusion service. Extracted variables included date of transfusion, ABO and D group of the transfused RBCs and recipients, recipient's demographic, and specific characteristics regarding transfusion requirements.

Over a 5-year period, 124,220 RBCs were transfused 38,962 (31.4%) group O D+ and 9109 (7.3%) group O D-. ABO and D non-identical recipient received 4842 (10.1%) of all administered O RBCs 2880 (7.4%) of all transfused O D+ and 1962 (21.5%) of all transfused O D- RBCs. The common indications for this practice were ABO and D mismatched hematopoietic stem cell transplantation (HSCT) (52.5%), infants under the age of 4 months (18.6%), shortage of ABO identical RBCs (9.0%), phenotype-matched RBCs (8,1%), and urgent transfusion (7.2%).

A significant proportion of O RBCs was transfused to ABO and D non-identical recipients, mainly due to transfusion of ABO and D mismatched HSCT recipients. However, the proportion of all transfused RBCs O D+ and especially O D- remained relatively low.

A significant proportion of O RBCs was transfused to ABO and D non-identical recipients, mainly due to transfusion of ABO and D mismatched HSCT recipients. However, the proportion of all transfused RBCs O D+ and especially O D- remained relatively low.We report the case of a 43-years-old Turkish man with acquired deficiency of factor V (FV) diagnosed in a usual screening before a (recto) colonoscopy. In the biologic explorations, activated partial prothrombin time (APTT) was abnormally high and prothrombin time (PT) was low 18IU/dL with no anticoagulant drugs (the PT was normal 6 months ago). The controlled level of factor V was 3IU/dL with FV antibodies (9 Bethesda Units/mL). This patient had a previous history of primary sclerosing cholangitis (2000) and ulcero haemorrhagic rectocolitis (2002) and a fortuitous biological Biermer's disease was revealed. Corticosteroids were prescribed at 1mg/kg/day with decreasing during 6 months, patient had gradual regression of the caused bleeding and FV became greater than 90%, F V antibodies decreased to less than 0.7 Bethesda Units/mL. This case illustrates the presence of FV inhibitor in an autoimmune gastrointestinal context with regression of clinical (caused) signs and antibodies with corticosteroids.Blood and blood products save lives and are a part of the WHO Essential Medicines List. Access to safe and quality-assured blood and blood products are essential for health systems strengthening and it is a global concern. Their use is associated with infectious and immunologic risks. At global level, many resolutions have been adopted by the World Health Assembly that urged Member States to ensure regulatory control of access to quality-assured blood and blood products along the entire transfusion chain. The WHO has also developed an action framework to advance universal access to blood. As part of the implementation of these resolutions and guidelines, the WHO Regional Office for Africa and some partners provided support to countries in the region to strengthen their capacity to establish an effective blood regulatory system through organization of regional training workshops on blood regulation, benchmarking of blood regulatory systems, internship at Paul Ehrlich Institut and establishment of the African Blood Regulators Forum. The current status of blood regulation reveals that there are weak transfusion legislation and blood regulatory systems in most African countries, since many national blood transfusion services still rely on self-regulation. However, the national regulatory authorities have reached the maturity level 3 in two countries (Ghana and Tanzania), but only the experience from Ghana has been described in this paper. Like in other low- and middle-income countries, the regulatory systems for associated substances and medical devices including IVDs are not well established in the African region. Misunderstanding by different stakeholders, lack of legislation that provides legal basis, weak capacity and insufficiency of resources are main challenges facing countries to establish an effective national blood regulatory system. To address these challenges, strong advocacy with governments and collaboration with partners are needed to strengthen national blood regulatory systems.

Capacity building of African based blood services researchers has been identified as key in developing a sustainable programme of generation local evidence to support sound decision making. There are a number of research training programmes that have been instituted targeted at blood services in Africa. The article shares programme experiences of building research capacities for blood services in Africa.

The Francophone Africa Transfusion Medicine Research Training network, the NIH REDS-III and NIH Fogarty South Africa programmes and T-REC (Building transfusion research capacity in Africa) have been the key research capacity programmes targeting blood services in Africa over the last decade. To understand their experiences on the implementation of the capacity building programmes, data were drawn from research outputs, publications and end of programme reports. The success, challenges and the main research outputs from their initiatives were highlighted.

The Francophone research network achievements inces research capacity building include the need for research collaborations with high-income countries which can jump-start research,and for more in-country grant-writing capacity building, which would help sustainability.

The key achievements for the blood services research capacity building include a mix of short courses, medium-term (epidemiology & biostats) and MS/PhD degree training. Also, having a "train the trainers' programme to develop in-country mentors has been instrumental. Overall, the key recommendations for blood services research capacity building include the need for research collaborations with high-income countries which can jump-start research,and for more in-country grant-writing capacity building, which would help sustainability.Exendin-4 has been found to have hypoglycemic effect and prevent bone loss in diabetic patients, but its mechanism of preventing bone loss is still unclear. In this study, high-fat diet combined with streptozotocin was used to establish type 2 diabetes mellitus (T2DM) mice, and bone marrow mesenchyme stem cells (BMSCs) were isolated for osteogenic induction in vitro. Alizarin red staining and ALP activity detection were used to observe the effect of exendin-4 on osteogenic differentiation of BMSCs. Western blot was used to detect the proteins expression in BMSCs. In vivo, the effects of exendin-4 treatment on body weight, blood glucose, bone density and bone quality of T2DM mice were observed by treatment with exendin-4. The results showed that exendin-4 promoted osteogenic differentiation of T2DM derived BMSCs, down-regulated histone deacetylase 1 (HDAC1) and p-β-Catenin proteins expression, and up-regulated Wnt3, β-Catenin and runt-related transcription factor 2 (Runx 2) proteins expression. In vivo, exendin-4 effectively suppressed the blood glucose and increased body weight of T2DM mice, and significantly improved bone density and bone quality of the right tibia. Interestingly, by over-expression of HDAC1 in BMSCs, the effect of exendin-4 on promoting osteogenic differentiation of BMSCs was attenuated, and the regulation of Wnt3a, β-Catenin, p-β-Catenin or Runx2 proteins were reversed. By injecting adenovirus containing HDAC1 into the right tibia of mice, the effect of exendin-4 on bone density and bone quality of T2DM mice was significantly attenuated. All above results suggest that the HDAC1-Wnt/β-Catenin signal axis is involved in the anti-diabetic bone loss effect of exendin-4, and HDAC1 may be the target of exendin-4.As fluorescence in the second near-infrared window (NIR-II, 1000-1400 nm) could image deep tissue with high signal-to-noise ratios compared with that in NIR-I (750-900 nm), Ag2Se quantum dots (QDs) with fluorescence in the NIR-II could be ideal fluorophores. Here, we described a biosynthesis method to prepare the Ag2Se QDs by using temporally coupling the irrelated biochemical reactions, whose photoluminescence (PL) emission can reach NIR-II. The nanoparticles were characterized by transmission electron microscopy (TEM), high-resolution transmission electron microscopy (HRTEM), energy-dispersive X-ray spectroscopy (EDX) and X-ray diffraction (XRD). The results showed that the nanoparticles obtained by extracellular purification were Ag2Se QDs with a uniform size of 3.9 ± 0.6 nm. In addition, the fluorescence intensity of Saccharomyces cerevisiae was improved successfully by nearly 4-fold by constructed engineering strain. In particular, the biosynthesis of Ag2Se QDs had good biocompatibility because it was capped by protein. Furthermore, investigating the toxicity of Ag2Se on cells and NIR images of nude mice showed that the Ag2Se synthesized using S. cerevisiae had low toxicity and could be used for in vivo imaging. In this work, the synthesis pathway of biocompatible Ag2Se was broadened and laid a foundation for the enlarged applicability of bioimaging in the biosynthesis of NIR-II QDs.Dental pulp stem cells (DPSCs) can differentiate into diverse cell lineages, including odontogenic cells that are responsible for dentin formation, which is important in pulp repair and tooth regeneration. While glycolysis plays a central role in various cellular activities in both physiological and pathological conditions, its role and regulation in odontogenic differentiation are unknown. Here, we show that aerobic glycolysis is induced during odontoblastic differentiation from human DPSCs. Importantly, we demonstrate that during odontoblastic differentiation, protein expression levels of phosphofructokinase 1 muscle isoform (PFKM) and PFK2, but not other glycolytic enzymes, are mainly upregulated by AKT activation, resulting in increased total PFK enzyme activity. Increased PFK activity is essential to enhance aerobic glycolysis, which plays an important role in the odontoblastic differentiation of human DPSCs. These findings underscore that PFK activation-induced aerobic glycolysis accompanies, and participates in, human DPSCs differentiation into odontogenic lineage, and could play a role in the regulation of dental pulp repair.Alcoholic liver disease (ALD) occurs as a result of chronic and excessive alcohol consumption. It encompasses a wide spectrum of chronic liver abnormalities that range from steatosis to alcoholic hepatitis, progressive fibrosis and cirrhosis. Endoplasmic reticulum (ER) stress induced by ethanol metabolism in hepatocytes has been established as an important contributor to the pathogenesis of ALD. However, whether SIRT6 exerts regulatory effects on ethanol-induced ER stress and contributes to the pathogenesis of ALD is unclear. In this study, we developed and characterized Sirt6 hepatocyte-specific knockout and transgenic mouse models that were treated with chronic-plus-binge ethanol feeding. We observed that hepatic Sirt6 deficiency led to exacerbated ethanol-induced liver injury and aggravated hepatic ER stress. selleck kinase inhibitor Tauroursodeoxycholic acid (TUDCA) treatment remarkably attenuated ethanol-induced ER stress and ameliorated ALD pathologies caused by Sirt6 ablation. Reciprocally, SIRT6 hepatocyte-specific transgenic mice exhibited reduced ER stress and ameliorated liver injury caused by ethanol exposure.