Biohybrid Electrospun Membrane for the Filtration of Ketoprofen Drug from Water

A current challenge in materials science and biotechnology is to express a specific and controlled functionality on the large interfacial area of a nanostructured material to create smart biohybrid systems for targeted applications. Here, we report on a biohybrid system featuring poly(vinyl alcohol) as the supporting synthetic polymer and bovine serum albumin as the biofunctional element. The optimal processing conditions to produce these self-standing composite membranes are determined, and the composition and distribution of the bioactive agent within the polymeric matrices are analyzed. A post-processing cross-linking using glutaraldehyde enables this functional membrane to be used as a chemical filter in aqueous environments. By demonstrating that our mats can remove large amounts of ketoprofen from water, we show that the combination of a BSA-induced biofunctionality with a nanostructured fibrous material allows for the development of an efficient biohybrid filtering device for the large and widely used family of nonsteroidal anti-inflammatory drugs (NSAIDs). The crystal structure of the complex between BSA and ketoprofen is determined for the first time and confirms the interaction between the two species

A hospital Protocol for decision making in Emergency Admission for Acute Diverticulitis: Initial Results from Small Cohort series

Background and objectives: We present initial results from a small cohort series for a hospital protocol related to the emergency hospitalization decision-making process for acute diverticulitis. We performed a retrospective analysis of 53 patients with acute diverticulitis admitted to the Department of Emergency and Trauma Surgery of the "Azienda Ospedaliero Universiaria-Ospedali Riuniti" in Ancona and to the Department of General and Emergency Surgery of the "Azienda Ospedaliera-Universitaria" in Perugia. Materials and Methods: All patients were evaluated according to hemodynamic status: stable or unstable. Secondly, it was distinguished whether patients were suffering from complicated or uncomplicated forms of diverticulitis. Finally, each patient was assigned to a risk class. In this way, we established a therapeutic/diagnostic process for each group of patients. Results: Non-operative treatment (NonOP) was performed in 16 patients, and it was successful in 69% of cases. This protocol primarily considers the patient's clinical condition and the severity of the disease. It is based on a multidisciplinary approach, in order to implement the most suitable treatment for each patient. In stable patients with uncomplicated diverticulitis or complicated Hinchey grade 1 or 2 diverticulitis, the management is conservative. In all grade 3 and grade 4 forms, patients should undergo urgent surgery. Conclusions: This protocol, which is based on both anatomical damage and the severity of clinical conditions, aims to standardize the choice of the best diagnostic and therapeutic strategy for the patient in order to reduce mortality and morbidity related to this pathology

Molecular diversity, population structure, and linkage disequilibrium in a worldwide collection of tobacco (Nicotiana tabacum L.) germplasm

<p>Abstract</p> <p>Background</p> <p>The goals of our study were to assess the phylogeny and the population structure of tobacco accessions representing a wide range of genetic diversity; identify a subset of accessions as a core collection capturing most of the existing genetic diversity; and estimate, in the tobacco core collection, the extent of linkage disequilibrium (LD) in seven genomic regions using simple sequence repeat (SSR) markers. To this end, a collection of accessions were genotyped with SSR markers. Molecular diversity was evaluated and LD was analyzed across seven regions of the genome.</p> <p>Results</p> <p>A genotyping database for 312 tobacco accessions was profiled with 49 SSR markers. Principal Coordinate Analysis (PCoA) and Bayesian cluster analysis revealed structuring of the tobacco population with regard to commercial classes and six main clades were identified, which correspond to "Oriental", Flue-Cured", "Burley", "Dark", "Primitive", and "Other" classes. Pairwise kinship was calculated between accessions, and an overall low level of co-ancestry was observed. A set of 89 genotypes was identified that captured the whole genetic diversity detected at the 49 loci. LD was evaluated on these genotypes, using 422 SSR markers mapping on seven linkage groups. LD was estimated as squared correlation of allele frequencies (<it>r²</it>). The pattern of intrachromosomal LD revealed that in tobacco LD extended up to distances as great as 75 cM with <it>r²</it>> 0.05 or up to 1 cM with <it>r²</it>> 0.2. The pattern of LD was clearly dependent on the population structure.</p> <p>Conclusions</p> <p>A global population of tobacco is highly structured. Clustering highlights the accessions with the same market class. LD in tobacco extends up to 75 cM and is strongly dependent on the population structure.</p

Erratum to: From simplicity towards complexity: the Italian multidimensional approach to obesity

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