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Bigum Blackburn posted an update 6 months, 2 weeks ago
Aromatherapy had a large effect on fatigue in adults receiving haemodialysis treatment and high heterogeneity.
Aromatherapy has a high and positive effect on fatigue in the adults receiving haemodialysis and can be used as an effective intervention in the management of fatigue.
Aromatherapy may help to reduce the severity of fatigue in adults receiving haemodialysis. The findings of this systematic review and meta-analysis will contribute to the use of aromatherapy in the management of fatigue and conduction of randomised controlled trials related to aromatherapy.
Aromatherapy may help to reduce the severity of fatigue in adults receiving haemodialysis. The findings of this systematic review and meta-analysis will contribute to the use of aromatherapy in the management of fatigue and conduction of randomised controlled trials related to aromatherapy.The chemical identification of Cannabis is commonly carried out using the Duquenois-Levine (DL) colorimetric test. On the other hand, its active substances called cannabinoids are differentiated by thin-layer chromatography (TLC). This work aims to optimize parameters of these two chemical tests using different samples of Cannabis in natura and previously heated (decarboxylated), as well as their isolated bioactive and possible false positives. The efficiency of the DL test without using ether and aliphatic aldehyde was evaluated, comparing the removal or not of the solid sample from the reaction medium after applying different concentrations of the vanillin ethanolic solution. The chemical properties of different cannabinoids and solvents were estimated and correlated with the TLC retention factors. DL tests applied directly to the plant matrix did not show the expected color, even using a high concentration of vanillin. However, obtaining ethanolic extracts from the samples using low vanillin concentration was sufficient without detecting false positives described in the literature. Cannabinoids with high dipole moment ( μ ) were poorly eluted in TLC, indicating a great interaction with the stationary phase. Their identifications could be conducted based on their distinct lipophilic characteristics ( log P OW ) and the choice of a more polar solvent mix ( μ mix ). It is concluded that the DL test can be conducted with reagents of less toxicity, but it is necessary to remove the plant matrix from the reaction medium. The correlation of the TLC results with the chemical properties of cannabinoids and solvents was consistent and can be extrapolated for more complex analyses.The brain has its own intrinsic renin-angiotensin system (RAS) with all its components present in the central nervous system (CNS). Recent data demonstrate that also the main components of the angiotensin concerting enzyme 2 (ACE2) system (at least ACE2 itself, as well as the biologically active angiotensin (1-7) and its cognate receptor Mas) are expressed in the brain. Aside from these members, alamadine and MrgD are discussed as further members that have neuro-active roles in the CNS. Little is known about the possible functions of MrgD within the brain. Concerning angiotensin (1-7) acting through the Mas receptor, data were accumulating that this system is involved in numerous processes contributing to neuronal plasticity and even learning and memory. Malfunctions in the brain ACE2 system are associated with disturbances in neuronal plasticity. Since SARS-CoV-2 has a high affinity towards ACE2, Neuro-Covid may directly or indirectly depend on a disturbed balance in the ACE2 derived angiotensin system in the brain. Since the ACE2 system in the brain is far from being understood, a deeper understanding of e.g. the angiotensin (1-7) / Mas system is needed, especially with regard to the roles of angiotensin (1-7) in neuronal plasticity.Soon after fertilization of egg and sperm, plant genomes become transcriptionally activated and drive a series of coordinated cell divisions to form the basic body plan during embryogenesis. Early embryonic cells rapidly diversify from each other, and investigation of the corresponding gene expression dynamics can help elucidate underlying cellular differentiation programs. However, current plant embryonic transcriptome datasets either lack cell-specific information or have RNA contamination from surrounding non-embryonic tissues. We have coupled fluorescence-activated nuclei sorting together with single-nucleus mRNA-sequencing to construct a gene expression atlas of Arabidopsis thaliana early embryos at single-cell resolution. In addition to characterizing cell-specific transcriptomes, we found evidence that distinct epigenetic and transcriptional regulatory mechanisms operate across emerging embryonic cell types. These datasets and analyses, as well as the approach we devised, are expected to facilitate the discovery of molecular mechanisms underlying pattern formation in plant embryos. Ro-3306 This article has an associated ‘The people behind the papers’ interview.Axial elongation of the neural tube is crucial during mammalian embryogenesis for anterior-posterior body axis establishment and subsequent spinal cord development, but these processes cannot be interrogated directly in humans as they occur post-implantation. Here, we report an organoid model of neural tube extension derived from human pluripotent stem cell (hPSC) aggregates that have been caudalized with Wnt agonism, enabling them to recapitulate aspects of the morphological and temporal gene expression patterns of neural tube development. Elongating organoids consist largely of neuroepithelial compartments and contain TBXT+SOX2+ neuro-mesodermal progenitors in addition to PAX6+NES+ neural progenitors. A critical threshold of Wnt agonism stimulated singular axial extensions while maintaining multiple cell lineages, such that organoids displayed regionalized anterior-to-posterior HOX gene expression with hindbrain (HOXB1) regions spatially distinct from brachial (HOXC6) and thoracic (HOXB9) regions. CRISPR interference-mediated silencing of TBXT, a Wnt pathway target, increased neuroepithelial compartmentalization, abrogated HOX expression and disrupted uniaxial elongation. Together, these results demonstrate the potent capacity of caudalized hPSC organoids to undergo axial elongation in a manner that can be used to dissect the cellular organization and patterning decisions that dictate early human nervous system development.
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