Patient Positioning during Neurosurgery: A Relevant Skill for Neuroanesthesiologist in a Multidisciplinary Team Work

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Serotonin and Tryptophan Serum Concentrations in Shelter Dogs Showing Different Behavioural Responses to a Potentially Stressful Procedure

In mammals, serotonin (5-HT) levels depend on the availability of tryptophan (TRP). Low 5-HT concentrations have been linked to behavioural disorders in dogs. This study aimed at investigating possible differences in dogs’ serum TRP and 5-HT concentrations according to their behavioural response to a potentially stressful procedure. Thirty-nine physically healthy shelter dogs, 15 females and 24 males, mean age = 5.6 years, were categorized by a certified veterinary behaviourist according to their behavioural response to medical examination and blood collection, in: relaxation, stress signals, tension without growling, tension with growling, escape attempts, and aggression attempts. Extraction and quantification of 5-HT and TRP were performed using a HLPC method. Data were statistically analysed, applying Chi-square and Spearman tests. Results showed no significant difference in TRP (χ2 = 2.084, p = 0.555) nor 5-HT (χ2 = 0.972, p = 0.808) serum concentrations among different categories of dogs; however, some categories were underrepresented (relaxation = 20.5%, stress signals = 30.8%, tension without growling = 43.6%, tension with growling = 5.1%, escape attempts = 0%, aggression attempts = 0%). No correlation between serum TRP and 5-HT concentrations was found (ρ = 0.086, p = 0.602). Serum 5-HT levels do not seem to be associated with dogs’ behavioural response to a stressful situation nor with serum TRP concentrations. The relationship between serum TRP and 5-HT concentrations and behaviour needs further research

Can Grasslands in Photovoltaic Parks Play a Role in Conserving Soil Arthropod Biodiversity?

Under the increasing global energy demand, the new European Union Biodiversity Strategy for 2030 encourages combinations of energy production systems compatible with biodiversity conservation; however, in photovoltaic parks, panels shadowing the effects on soil health and biodiversity are still unknown. This study (location: Northern Italy) aimed to evaluate the effect of ground-mounted photovoltaic (GMPV) systems on soil arthropod biodiversity, considering two parks with different vegetation management: site 1-grassland mowed with tractor; site 2-grassland managed with sheep and donkeys. Three conditions were identified in each park: under photovoltaic panel (row), between the panel rows (inter-row), and around the photovoltaic plant (control). The soil pH and organic matter (SOM), soil arthropod community, biodiversity, and soil quality index (e.g., QBS-ar index) were characterised. Differences between the two GMPVs were mainly driven by the SOM content (higher values where grazing animals were present). No differences were observed in site 1, even if a high heterogeneity of results was observed for the soil biodiversity parameters under the panels. In site 2, SOM and pH, as well as arthropods biodiversity and QBS-ar, showed low values in the row. Soil fauna assemblages were also affected by ground-mounted panels, where Acarina, Collembola, Hymenoptera, and Hemiptera showed the lowest density in the row. This study suggests that ground-mounted solar panels had significant effects on below-ground soil fauna, and was more marked depending on the system management. Furthermore, the results obtained for the inter-row were similar to the control, suggesting that the area between the panel rows could be considered a good hotspot for soil biodiversity

dynamic simulation of a multi generation system for electric and cooling energy provision employing a sofc cogenerator and an adsorption chiller

Abstract Aim of this work is the dynamic simulation of the operation of a small-scale multi-generation system, based on a Solid Oxide Fuel Cell (SOFC) micro-cogenerator (μCHP) coupled to an adsorption chiller, to provide electric and cooling energy to a telecommunication shelter. The dynamic simulation model has been implemented in TRNSYS environment. The μCHP has nominal electric power of 2.5 kW and its thermal output is used to drive a thermally driven adsorption chiller, with nominal cooling power of 10 kW. The performance of both components were experimentally validated under controlled lab conditions. The developed model allowed to optimize the system configuration and to perform an energy and environmental analysis. This analysis demonstrated the possibility of achieving global energy efficiency up to 63% with a CO2 reduction proportional to the electric and cooling load of the telecommunication shelter

Solution chemical properties and anticancer potential of 8-hydroxyquinoline hydrazones and their oxidovanadium(IV) complexes

Funding Information: This work was supported by Centro de Química Estrutural, which is financed by national funds from Fundação para a Ciência e Tecnologia (FCT), projects UIDB/00100/2020, UIDP/00100/2020 and LA/P/0056/2020, and Programa Operacional Regional de Lisboa 2020. We also thank project PTDC/QUI-QIN/0586/2020 and N. Ribeiro acknowledges FCT for SFRH/BD/135797/2018 grant. The Portuguese NMR and Mass spectrometry IST-UL are acknowledged for the access to the equipment. This work was supported by the Portuguese-Hungarian Scientific & Technological CooperationTÉT-PT-2018-00002, ÚNKP-21-3-SZTE-455 (to V. Pósa) New National Excellence Program Ministry of Human Capacities. The support of the ‘Lendület’ Programme (ELKH, LP2019-6/2019) and the COST ActionCA18202, NECTAR-Network for Equilibria and Chemical Thermodynamics Advanced Research is also acknowledged. This work was also supported by Koç University School of Medicine (KUSOM) and the authors gratefully acknowledge use of the services and facilities of the Koç University Research Center for Translational Medicine (KUTTAM), funded by the Presidency of Turkey, Presidency of Strategy and Budget. The content is solely the responsibility of the authors and does not necessarily represent the official views of the Presidency of Strategy and Budget. G. Sciortino, V. Ugone, E. Garribba thank Fondazione di Sardegna (grant FdSGarribba2017) and Regione Autonoma della Sardegna (grant RASSR79857); G. Sciortino also thanks MICINN’ Juan de la Cierva program, FJC2019-039135-I for the financial support. L. Maia thanks the Associate Laboratory for Green Chemistry - LAQV, which is financed by national funds from Fundação para a Ciência e a Tecnologia, MCTES (FCT/MCTES; UIDB/50006/2020 and UIDP/50006/2020). Funding Information: This work was supported by Centro de Química Estrutural , which is financed by national funds from Fundação para a Ciência e Tecnologia (FCT), projects UIDB/00100/2020 , UIDP/00100/2020 and LA/P/0056/2020 , and Programa Operacional Regional de Lisboa 2020 . We also thank project PTDC/QUI-QIN/0586/2020 and N. Ribeiro acknowledges FCT for SFRH/BD/135797/2018 grant. The Portuguese NMR and Mass spectrometry IST-UL are acknowledged for the access to the equipment. This work was supported by the Portuguese-Hungarian Scientific & Technological Cooperation TÉT-PT-2018-00002 , ÚNKP-21-3-SZTE-455 (to V. Pósa) New National Excellence Program Ministry of Human Capacities . The support of the ‘Lendület’ Programme (ELKH, LP2019-6/2019 ) and the COST Action CA18202 , NECTAR-Network for Equilibria and Chemical Thermodynamics Advanced Research is also acknowledged. This work was also supported by Koç University School of Medicine (KUSOM) and the authors gratefully acknowledge use of the services and facilities of the Koç University Research Center for Translational Medicine (KUTTAM), funded by the Presidency of Turkey, Presidency of Strategy and Budget. The content is solely the responsibility of the authors and does not necessarily represent the official views of the Presidency of Strategy and Budget. G. Sciortino, V. Ugone, E. Garribba thank Fondazione di Sardegna (grant FdSGarribba2017 ) and Regione Autonoma della Sardegna (grant RASSR79857 ); G. Sciortino also thanks MICINN’ Juan de la Cierva program, FJC2019-039135-I for the financial support. L. Maia thanks the Associate Laboratory for Green Chemistry - LAQV , which is financed by national funds from Fundação para a Ciência e a Tecnologia, MCTES (FCT/MCTES; UIDB/50006/2020 and UIDP/50006/2020 ). Publisher Copyright: © 2022 Elsevier Inc.We report the synthesis and characterization of a family of benzohydrazones (Ln, n = 1–6) derived from 2-carbaldehyde-8-hydroxyquinoline and benzylhydrazides containing different substituents in the para position. Their oxidovanadium(IV) complexes were prepared and compounds with 1:1 and 1:2 metal-to-ligand stoichiometry were obtained. All compounds were characterized by elemental analyses and mass spectrometry as well as FTIR, UV–visible absorption, NMR (ligand precursors) and EPR (complexes) spectroscopies, and by DFT computational methods. Proton dissociation constants, lipophilicity and solubility in aqueous media were determined for all ligand precursors. Complex formation with V(IV)O was evaluated by spectrophotometry for L4 (Me-substituted) and L6 (OH-substituted) and formation constants for mono [VO(HL)]+, [VO(L)] and bis [VO(HL)2], [VO(HL)(L)]−, [VO(L)2]2− complexes were determined. EPR spectroscopy indicates the formation of [VO(HL)]+ and [VO(HL)2], with this latter being the major species at the physiological pH. Noteworthy, the EPR data suggest a different behaviour for L4 and L6, which confirm the results obtained in the solid state. The antiproliferative activity of all compounds was evaluated in malignant melanoma (A-375) and lung (A-549) cancer cells. All complexes show much higher activity on A-375 (IC50 20 μM). Complex 3 (F-substituted) shows the lowest IC50 on both cell lines and lower than cisplatin (in A-375). Studies identified this compound as the one showing the highest increase in Annexin-V staining, caspase activity and induction of double stranded breaks, corroborating the cytotoxicity results. The mechanism of action of the complexes involves reactive oxygen species (ROS) induced DNA damage, and cell death by apoptosis.publishersversionpublishe

Promising anticancer agents based on 8-hydroxyquinoline hydrazone copper(II) complexes

We report the synthesis and characterization of a group of benzoylhydrazones (L n ) derived from 2-carbaldehyde-8-hydroxyquinoline and benzylhydrazides containing distinct para substituents (R = H, Cl, F, CH 3 , OCH 3 , OH and NH 2 , for L 1-7 , respectively; in L 8 isonicotinohydrazide was used instead of benzylhydrazide). Cu(II) complexes were prepared by reaction of each benzoylhydrazone with Cu(II) acetate. All compounds were characterized by elemental analysis and mass spectrometry as well as by FTIR, UV-visible absorption, NMR or electron paramagnetic resonance spectroscopies. Complexes isolated in the solid state ( 1–8 ) are either formulated as [Cu(HL)acetate] (with L 1 and L 4 ) or as [Cu(L n )] 3 ( n = 2, 3, 5, 6, 7 and 8). Single crystal X-ray diffraction studies were done for L 5 and [Cu(L 5 )] 3 , confirming the trinuclear formulation of several complexes. Proton dissociation constants, lipophilicity and solubility were determined for all free ligands by UV-Vis spectrophotometry in 30% (v/v) DMSO/H 2 O. Formation constants were determined for [Cu(LH)], [Cu(L)] and [Cu(LH −1 )] for L = L 1 , L 5 and L 6 , and also [Cu(LH −2 )] for L = L 6 , and binding modes are proposed, [Cu(L)] predominating at physiological pH. The redox properties of complexes formed with L 1 , L 5 and L 6 are investigated by cyclic voltammetry; the formal redox potentials fall in the range of +377 to +395 mV vs. NHE. The binding of the Cu(II)-complexes to bovine serum albumin was evaluated by fluorescence spectroscopy, showing moderate-to-strong interaction and suggesting formation of a ground state complex. The interaction of L 1 , L 3 , L 5 and L 7 , and of the corresponding complexes with calf thymus DNA was evaluated by thermal denaturation. The antiproliferative activity of all compounds was evaluated in malignant melanoma (A-375) and lung (A-549) cancer cells. The complexes show higher activity than the corresponding free ligand, and most complexes are more active than cisplatin. Compounds 1, 3, 5 , and 8 were selected for additional studies: while these complexes induce reactive oxygen species and double-strand breaks in both cancer cells, their ability to induce cell-death by apoptosis varies. Within the set of compounds tested, 8 emerges as the most promising one, presenting low IC 50 values, and high induction of oxidative stress and DNA damage, which eventually lead to high rates of apoptosis

Immune senescence and cancer in elderly patients: Results from an exploratory study

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Hybrid cascade heat pump and thermal-electric energy storage system for residential buildings: experimental testing and performance analysis

The need for innovative heating and cooling systems to decarbonize the building sector is widely recognized. It is especially important to increase the share of renewables at building level by maximizing self-consumption and reducing the primary energy demand. Accordingly, in the present paper, the results on a wide experimental campaign on a hybrid system are discussed. The system included a sorption module working as the topping cycle in a cascade configuration with a DC-driven vapor compression heat pump. A three-fluids heat exchanger with a phase change material (PCM), i.e., RT4 with nominal melting temperature of 4 °C, was installed on the evaporator side of the heat pump, for simultaneous operation as thermal storage and heat pumping purposes. The heat pump was connected to a DC-bus that included PV connection and electricity storage (batteries). Results showed that the energy efficiency of the heat pump in cascade operation was double compared to compression-only configuration and that, when simultaneously charging and discharging the latent storage in cascade configuration, no penalization in terms of efficiency compared to the compression-only configuration was measured. The self-sufficiency of the system was evaluated for three reference weeks in summer conditions of Athens climate and it was found that up to 100% of the electricity needed to drive the system could be self-produced for a modest cooling demand and up to 67% for the warmer conditions with high cooling demand.This project has received funding from the European Union’s Horizon 2020 research and innovation program under grant agreement No. 768824 (HYBUILD). This work was partially funded by the Ministerio de Ciencia, Innovación y Universidades de España (RTI2018-093849-B-C31) and by the Ministerio de Ciencia, Innovación y Universidades—Agencia Estatal de Investi-gación (AEI) (RED2018-102431-T). GREiA is certified agent TECNIO in the category of technology developers from the Government of Catalonia. This work is partially supported by ICREA under the ICREA Academia program