A Data Architecture to aid Life Cycle Assessment in closed-loop Reusable Plastic Container networks

Abstract Returnable container networks have caught the eye of those companies that aim to reduce waste generation and environmental impact. The literature already includes studies on the environmental impact (i.e. Life Cycle Assessment, LCA) of these networks. However, the major part is based on secondary data since the collection of primary data is complex and time-intensive. This paper proposes an object-relational database dedicated to the storage of data from a closed-loop reusable plastic crates (RPC) networks for fruits and vegetables. The goal is supporting scholars and managers during the LCA through a user-friendly data architecture, while suggesting structured guidelines for the primary data collection. Each node of the RPC network is characterized by a similar set of entity types, such as machines, which allows to process the RPCs with respect to specific cycles. Each entity, process and cycle are therefore reflected in the database by objects that are connected with relations

Evaluation of Common Bean Varieties for Yield and Yield Component in Segen Area Peoples Zone SNNPRS, Ethiopia

Studies on the evaluation of variety performance provide opportunities to increase productivity of common bean. Therefore, the current study evaluates the performance of varieties on yield and yield components of common bean during the main cropping season of 2015 and 2016 at four locations in Segen Zone,Konso woreda (Southwestern Ethiopia) with the objectives of  selecting high yielding common bean varieties those are adapted to the study area. Fifteen released common bean varieties and one local cultivar were planted in randomized complete block design with three replications. The analysis revealed that significant variation for all traits except maturity date. Highest yield obtained from Nasir(2136 kgha-1) and Hawassa dume (1948 kgha-1) followed by Sari (1751 kgha-1) were as at Addis Gebere, high grain yield was obtained from Sari (2227 kgha-1), Hawassa dume (2111 kgha-1) and Dimtu (2073 kgha-1). For average mean yield from overall location, high yield obtained from Hawassa dume (2129 kgha-1) and Nasir (2002 kgha-1) followed by Sari (1989 kgha-1). Results revealed that Hawassa dume, Nasir and Sari were best performed and better adapted varieties than the others respectively. Therefore, the above mentioned varieties are promising varieties for the production area and recommendable for area with similar agro-ecologies. Keywords: Phaseolus Vulagris L, Evaluation, Grain yield,Varieties

The psoriatic shift induced by interleukin 17 is promptly reverted by a specific anti-IL-17A agent in a three-dimensional organotypic model of normal human skin culture

Interleukin 17A (IL-17A), mainly produced by the T helper subclass Th17, plays a key role in the psoriatic plaque formation and progression. The clinical effectiveness of anti-IL-17A agents is documented, but the early and specific mechanisms of their protection are not identified yet. The challenge of the present study is to investigate the possible reversal exerted by a specific anti-IL-17A agent on the psoriatic events induced by IL-17A in a three-dimensional organotypic model of normal human skin. Bioptic skin fragments obtained after aesthetic surgery of healthy women (n=5) were incubated with i) IL-17A biological inhibitor (anti-IL-17A), ii) IL-17A, iii) a combination of IL-17A and its specific IL-17A biological inhibitor (COMBO). A Control group was in parallel cultured and incubation lasted for 24 and 48 h epidermal-side-up at the air-liquid interface. All subjects were represented in all experimental groups at all considered time-points. Keratinocyte proliferation and the presence of epidermal Langerhans cells were quantitatively estimated. In parallel with transmission electron microscopy analysis, immunofluorescence studies for the epidermal distribution of keratin (K)10, K14, K16, K17, filaggrin/occludin, Toll-like Receptor 4, and Nuclear Factor kB were performed. IL-17A inhibited cell proliferation and induced K17 expression, while samples incubated with the anti-IL-17A agent were comparable to controls. In the COMBO group the IL-17A-induced effects were almost completely reverted. Our study, for the first time, elucidates the most specific psoriatic cellular events that can be partially affected or completely reverted by a specific anti-IL-17A agent during the early phases of the plaque onset and progression. On the whole, this work contributes to expand the knowledge of the psoriatic tableau

Characterization of structural bone properties through portable single-sided nmr devices: State of the art and future perspectives

Nuclear Magnetic Resonance (NMR) is a well-suited methodology to study bone composition and structural properties. This is because the NMR parameters, such as the T2 relaxation time, are sensitive to the chemical and physical environment of the1H nuclei. Although magnetic resonance imaging (MRI) allows bone structure assessment in vivo, its cost limits the suitability of conventional MRI for routine bone screening. With difficulty accessing clinically suitable exams, the diagnosis of bone diseases, such as osteoporosis, and the associated fracture risk estimation is based on the assessment of bone mineral density (BMD), obtained by the dual-energy X-ray absorptiometry (DXA). However, integrating the information about the structure of the bone with the bone mineral density has been shown to improve fracture risk estimation related to osteoporosis. Portable NMR, based on low-field single-sided NMR devices, is a promising and appealing approach to assess NMR properties of biological tissues with the aim of medical applications. Since these scanners detect the signal from a sensitive volume external to the magnet, they can be used to perform NMR measurement without the need to fit a sample inside a bore of a magnet, allowing, in principle, in vivo application. Techniques based on NMR single-sided devices have the potential to provide a high impact on the clinical routine because of low purchasing and running costs and low maintenance of such scanners. In this review, the development of new methodologies to investigate structural properties of trabecular bone exploiting single-sided NMR devices is reviewed, and current limitations and future perspectives are discussed

Morphological analysis of JAK1 intracellular pathway activation after pro-inflammatory psoriatic cytokines exposure: inside-out and outside-in the epidermis

For their normal growth, cells depend on a continuous flow of signals from the environment. The Janus kinases (JAK) 1 transducers signalling pathway is a pleiotropic cascade used to transduce a multitude of signals among cells. A variety of ligands including cytokines, hormones, growth factors, and their receptors stimulate the JAK1 pathway. Cytokines, a large and very heterogeneous family of small and generally soluble glycoproteins, both control multiple biological processes as haematopoiesis, inflammation, and immunity playing a central role in cell-cell communication. Their action is mediated by the binding to specific receptors on the cell surface, thus transducing biological information to target cells [1]. Pro-inflammatory cytokines play a pivotal role in several inflammatory illnesses including psoriasis. Among them, interleukin (IL)-17, IL-22, IL-23 and tumor necrosis factor (TNF)-alpha play a central role. In the formation and progression of the psoriatic lesion a typical marker is keratin (K) 17 which is correlated with psoriasis severity. The aims of this study were to evaluate the early, direct, and specific effects of pro-inflammatory psoriatic cytokines i) on the activation of the intracellular pathway JAK1 and ii) on the correlation with the induction of K17 expression in a three-dimensional model (3D) of human skin (n=7) by immunofluorescence. Biopsies were cultured overnight epidermal side-up in a Transwell system and exposed to 50 ng/ml IL-17, or 100 ng/ml IL-22, or 50 ng/ml IL-23 or 100 ng/ml TNF-alpha. Samples were harvested 24 (T24), 48 (T48), and 72 (T72) hours after cytokine incubation. In samples not exposed to cytokines, a JAK1 slight labelling was observed throughout the epidermis, decreasing at T72 in the lower layers. At T24, IL-17 and IL-22, but not IL-23 and TNF-alpha, induced an expression of JAK1 in the spinous layer. At T72, JAK1 immunostaining decreased in all samples, similarly to controls. K17 immunopositivity was induced and progressively increased with time in the suprabasal layers of epidermis in all experimental groups, with the exception of the TNF-alpha group. These results suggest that cytokines exert parallel effects on JAK1 pathway activation and K17 induction. In conclusion, 3D this model, reproducing some features of psoriatic microenvironment, represents a useful experimental approach to dissect the specific role of each cytokine in the different steps of psoriatic lesion formation

A Novel Approach for an Integrated Straw tube-Microstrip Detector

We report on a novel concept of silicon microstrips and straw tubes detector, where integration is accomplished by a straw module with straws not subjected to mechanical tension in a Rohacell $^{\circledR}$ lattice and carbon fiber reinforced plastic shell. Results on mechanical and test beam performances are reported on as well.Comment: Accepted by Transactions on Nuclear Science (2005). 11 pages, 9 figures, uses lnfprep.st

A METHODOLOGICAL APPROACH TO INTERPRET AND COMPARE THE VISCOELASTIC BEHAVIOR OF BIOLOGICAL TISSUES AND HYDROGELS

Cell behavior is strongly influenced by the physical properties of the microenvironment and complex mechanotransduction mechanisms are involved in cell and tissue development, homeostasis and even pathologies. Thus, when developing materials mimicking the extracellular matrix of healthy or pathological tissues their mechanical features should be closely considered. In this context, nanoindentation is a powerful technique for mechanically characterizing biomaterials and hydrogels at the cell-length scale, however, standardized experimental protocols and data analysis techniques are lacking. Here, we propose a methodological approach for quantitatively analyzing and comparing the time-dependent mechanical responses of different samples. As an explanatory study, stress-relaxation nanoindentation tests were performed on human and pig lung samples and on hydrogels in order to quantify and compare their viscoelastic properties

Effects of UV rays and natural compound repairs using an ex-vivo human skin model: morphological and genotoxicological analysis

Among the key factors in skin disorders such as wrinkling, dryness and photo-aging, the exposure to solar ultraviolet (UV) radiation plays a central role (1). Recently, compounds rich in polyphenols such as Thymus Vulgaris Leaf (TVL) extract and its major component Thymol (T) have been proposed in the prevention of UV-induced skin damages (2). Experiments were carried out in a human ex-vivo skin model, in which biopsies were obtained from aesthetic surgery of healthy 20-40 year-old women (n=6) after written informed consent (3). After 24 h, samples were pre-treated for 1 h with comparable concentrations of two compounds (TVL: 1.82 \ub5g/mL and T: 1 \ub5g/mL) before being irradiated with different UVB doses (0.24 J/cm2 to 0.72 J/cm2) or UVA radiation (8 J/cm2 to 32 J/cm2). Samples were harvested 24 h after irradiation and were processed both for light and transmission electron microscopy.Cell proliferation, Lactate Dehydrogenase assay, alkaline comet test, and histone H2AX phosphorylationwere evaluated. Both UVB and UVA induced an early inhibition of cell proliferation and DNA damage compared with respective controls. In particular, UVB rays were always more cytotoxic and genotoxic than UVA. The T-pretreatment showed a reduction of UVB-induced structural/ultrastructural and genotoxic damages. These results suggest that polyphenol fraction of tested substances may be useful for skin photoprotection after UV radiation damage in an ex-vivo human skin model. The present study suggests that this experimental setting can be a reliable approach for safety evaluation of UV skin exposure

Effect of TNF-alpha and IL-17 on TLR expression and Langerhans cells phenotype in a three-dimensional model of normal human skin: a morphological study

Toll-like receptors (TLRs) are essential for innate immunity and contribute to create the skin barrier. Their abnormal stimulation is involved in the development of several dermatological diseases, among which psoriasis. Tumor Necrosis Factor (TNF)-alpha and interleukin (IL)-17 play a pivotal role in the pathogenesis of psoriatic plaques and their proinflammatory activity can affect Langerhans cell (LC) phenotype. In a well characterized three-dimensional model of organotypic cultures of normal human skin [1-3] we evaluated the effect of TNF-alpha and IL-17 on the expression of TLR2 and 9 by immunofluorescence, on the ultrastructural morphology of keratinocytes and LCs by transmission electron microscopy (TEM). Human skin explants (n=7) were cultured at the air-liquid interface overnight in a Transwell system and exposed to 50 ng/ml IL-17 or 100 ng/ml TNF-alpha or a combination of both cytokines. Samples were harvested 24 (T24) and 48h (T48) after cytokines incubation. After incubation with IL-17 and IL-17+TNF-alpha, TLR2 immunostaining was not detectable in the basal layer, differently from controls and TNF-alpha-treated samples. Conversely, TLR9 expression was progressively induced in granular keratinocytes in all cytokine-exposed groups. By TEM, enlargements of intercellular spaces were evident especially and, after IL-17 treatment, LCs showed an activated phenotype. At T24 LCs number increased indicating that TNF-alpha and IL-17+TNF-alpha exert a chemoattractant activity, while at T48 only IL-17+TNF-alpha maintained this effect on trapping LCs in epidermis. TNF-alpha and IL-17 differently affect LCs behaviour and TLR expression, with a specific contribution to the inflammatory loop underlying the lesion formation. The simultaneous inhibition of the effect of different cytokines - all with a defined role in the pathogenesis of psoriasis - could further improve psoriasis treatment