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An explainable AI program for automatic COVID-19 examination along with patch categorization via CT-scans.
The nerve plexus of the enteric nervous system (ENS) plays a crucial part in regulating gastrointestinal functions, such as muscle contractile activity and nutrient absorption. Studying the nerve plexus can provide vital information for research on ENS disorders. Whole-mount preparation is an important technique for investigating the nerve plexus. However, currently available methods are time consuming and highly technical.

This study describes a simple and rapid method for preparing whole mounts of the longitudinal muscle and myenteric plexuses (LMMPs) of rat colon. Integral LMMPs can be easily separated from the underlying layer by using glass rods and wet cotton swabs.

The proposed method allows the easy separation of the LMMPs in intact sheets. Immunofluorescence histochemical staining of whole mounts enable clear visualization of enteric ganglia, nerve fibers, and several subtypes of neuronal populations residing in the myenteric plexus.

Compared with existing procedures for whole-mount preparations, the proposed method achieves a quicker and more efficient preparation of high-quality LMMPs from intestinal segments in sufficient quantity.

This work provides a rapid method for efficiently preparing whole mounts of the intestines. Our method can be used for in situ observation of the morphological and functional alterations of the myenteric plexus for further studies on the ENS.
This work provides a rapid method for efficiently preparing whole mounts of the intestines. Our method can be used for in situ observation of the morphological and functional alterations of the myenteric plexus for further studies on the ENS.
The construction of multichannel micro-electrode arrays (MEA) generally requires complex and expensive procedures. Here we describe a simple, cheap, flexible method of linear MEA construction.

Our method allows manufacture of linear MEA (cross section ∼ 375 × 250 μm with 12 electrodes) of any desired length, with customized spacing of the electrode tips (down to a minimum spacing of 200 μm or less) to suit different needs and experiments. We describe the following steps (1) set-up for MEA construction; (2) building of a construction jig; (3) building the reference, ground and optional electrical stimulation electrodes; (4) treatment of the main recording microwires; (5) soldering of the microwires to the main connector plug and arrangement of the microwires in a customizable array; and (6) testing of the MEA resistance and correct connections. Finally, we describe methods for quick surgical implantation of multiple MEAs and bipolar micro-stimulation electrodes for in vivo experiments in free-moving rats.

We provide examples of multi-site local field potentials from prolonged recordings in awake and free-moving rodents, with recordings viable for months, as well as samples of electrical stimulation effects on cortical and hippocampal recordings. Hippocampal recordings showed clear phase reversal and amplitude changes across its layers.

We briefly discuss how the arrays can support other forms of stimulation such as optogenetic probes.
We briefly discuss how the arrays can support other forms of stimulation such as optogenetic probes.The bioeconomy is a new and essential paradigm for reducing our dependence on natural resources and responding to the environmental threats that the Earth is currently facing. In this regard, microalgae offer almost unlimited possibilities for developing a modern bioeconomy given their metabolic flexibility and high biomass output rates, even when produced under harsh conditions, such as when treating wastewaters or using flue gases. In this article, the microalgal contribution to important economic activities such as the production of food and feed, cosmetics and health-related compounds is reviewed. Moreover, potential contributions of microalgae to emerging sectors are discussed, as in the production of biomaterials, agriculture-related products, biofuels and provision of services such as wastewater treatment and the clean-up of industrial gases. The different microalgal production technologies have also been analyzed to identify the main bottlenecks affecting microalgal use in different applications. Finally, the major challenges facing microalgal biotechnology in enlarging its contribution to the bioeconomy are evaluated, and future trends discussed.Wheat curl mite (WCM) is the only known arthropod vector of four wheat viruses, the most important of which is Wheat streak mosaic virus (WSMV). Host resistance to WCM and WSMV is limited to a small number of loci, most of which are introgressed from wild relatives and are often associated with linkage drag and temperature sensitivity. Selleck EHT 1864 Reports of virulent WCM populations and potential resistance-breaking WSMV isolates highlight the need for more diverse sources of resistance. Genome sequencing will be critical to fully characterize the genetic diversity in WCM and WSMV populations to better understand the incidence of WCM-transmitted viruses and to evaluate the potential stability of resistance genes. Characterizing host resistance genes will help build a mechanistic understanding of wheat-WCM-WSMV interactions and inform strategies to identify and engineer more durable resistance sources.Combining physical exercise with cognitive training is a popular intervention in dementia prevention trials and guidelines. However, it remains unclear what combination strategies are most beneficial for cognitive and physical outcomes. We aimed to compare the efficacy of the three main types of combination strategies (simultaneous, sequential or exergaming) to either intervention alone or control in older adults. Randomized controlled trials of combined cognitive and physical training were included in multivariate and network meta-analyses. In cognitively healthy older adults and mild cognitive impairment, the effect of any combined intervention relative to control was small and statistically significant for overall cognitive (k = 41, Hedges' g = 0.22, 95 % CI 0.14 to 0.30) and physical function (k = 32, g = 0.25, 95 % CI 0.13 to 0.37). Simultaneous training was the most efficacious approach for cognition, followed by sequential combinations and cognitive training alone, and significantly better than physical exercise.
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