Total acid content (TAC) and reducing sugar content (RSC) are important evaluation indicators for the quality of fermented grains. In this study, the TAC and RSC of fermented grains were quantified using hyperspectral imaging (HSI). Two combined algorithms were used to extract the characteristic wavelengths of TAC and RSC. Nine color features of fermented grains were extracted based on H, S and V color channels. Multivariate analytical models were developed to predict TAC and RSC using full wavelengths, characteristic wavelengths, color features and fused data, respectively. The CF model established based on characteristic wavelengths extracted by CARS-SPA showed the best results in predicting TAC. Meanwhile, the PSO-SVR model built using fused data was the best model for predicting RSC. The visualization of the TAC and RSC was achieved using the optimal models. These results show that HSI can achieve non-destructive detection and visualization of TAC and RSC in fermented grains.Lipids are important nutrient components in walnuts. However, there has been a lack of comprehensive analysis of lipid composition in walnuts. Here, UHPLC-Q-Exactive Orbitrap/MS was employed to qualify and quantify the lipid compounds in seven walnut varieties from Xinjiang. A total of 390 lipids were tentatively identified, which were classified into six categories and 30 subcategories. GL and GP were the two most abundant lipids in all walnuts. Compared with fresh walnuts (FW), dried walnuts (DW) showed significantly higher lipids; in the 30 subcategories, DW showed decreases in some MGDG and PC while increases in LPC and MePC, all of which were related to the moisture content of walnuts. Totally, 128 lipids can be used as potential markers to distinguish FW from DW. Besides, the lipid profile varied among different varieties of walnut kernels. These findings may facilitate walnut variety selection and processing based on the characteristic lipids.This study aimed to evaluate the applicability of purified pea ingredients (starch and protein isolate) by assessing their potential to form volatile compounds during the different steps of sponge cake development compared to pea flour and wheat flour. While pea flour was highly susceptible to lipid oxidation during batter beating, the combination of purified pea starch and pea protein yielded significantly fewer oxidation markers with known green-beany off-odors. This was due more to the inactivation of lipoxygenase during flour fractionation than to differences in batter structure. However, fractionated ingredients were highly prone to participating in the Maillard reaction and caramelization during baking, leading to a more complex mixture of pyrazines, Strecker aldehydes and furanic compounds with potential malty and roasted notes compared to cakes based on pea flour or wheat flour. These findings confirm that using purified pea fractions can create high-quality products with an attractive composition.The COVID-19 pandemic has impacted the food industry and consumers, with production gaps, shipping delays, and changes in supply and demand leading to an increased risk of food fraud. Rice has a high probability for adulteration by food fraudsters, being a staple commodity for more than half the global population, making the assessment of geographical origins of rice for authenticity important in terms of protecting businesses and consumers. In this study, we describe ICP-MS elemental profiling coupled with elementomic modelling to identify the geographical indications of Indian, Chinese, and Vietnamese rice. A PLS-DA model exhibited good discrimination (R2 = 0.8393, Q2 = 0.7673, accuracy = 1.0). Data-driven soft independent modelling of class analogy (dd-SIMCA) and K-nearest neighbours (K-NN) models have good sensitivity (98%) and specificity (100%).The effect of alkali extraction (AE), enzymatic extraction (EE), ultrasonic-assisted enzymatic extraction (UAEE), and shear homogeneous-assisted enzymatic extraction (SHAEE) on the physicochemical, structural properties, and in vitro hypoglycemic activity of bamboo shoot dietary fibers (BSDF) were investigated and compared. BSDF obtained by AE had the lowest protein content and crystallinity index. The lowest oil holding capacity (OHC) and highest protein content were observed in EE. BSDF generated highest OHC and glucose adsorption capacity by UAEE. SHAEE obtained the highest SDF content (17.89%), water-holding capacity (8.81 g/g), and α-amylase activity inhibition ratio (19.89%) and the smallest particle size (351.33 μm). BSDF extracted by SHAEE and UAEE presented a porous and loose structure. Furthermore, the in vitro hypoglycemic activity of the four BSDF samples generally followed the order of SHAEE > UAEE > EE > AE. Results show that SHAEE is an innovative and promising method to obtain BSDF with its excellent physicochemical and functional properties.Bioaccessibility and bioactivity of phenolic compounds in coffee beans relate to roasting and digestion process. This study aimed to estimate phenolic content, antioxidant potential, bioaccessibility, and changes in short chain fatty acids (SCFAs) production during in vitro digestion and colonic fermentation of commercial roasted (light, medium and dark) coffee beans. There was no significant difference found among all three different roasting levels. TPC and DPPH were enhanced 15 mg GAE/g and 60 mg TE/g during gastrointestinal digestion, respectively. For colonic fermentation, the highest TPC and FRAP of all coffee beans was found at 2 and 4 h, respectively. The gastric bioaccessibility of most of the phenolic compounds were relatively higher due to thermal phenolic degradation. Total SCFAs production was only up to 0.02 mM because of thermal polysaccharide decomposition. Light roasted beans exhibited relatively higher phenolic bioaccessibility, antioxidant activities and SCFAs production, which would be more beneficial to gut health.It is crucial to on-site monitor H2S for addressing the concerns associated with food safety. We rationally prepared an AIE-active fluorescent probe (CLBZ) with the aggregated state conversion for sensing H2S in a ratiometric response manner. CLBZ displayed ratiometric response, fast response time (5 s), well-resolved emission peak shift (147 nm) and high selectivity towards H2S, and it can be used as a reversible and reusable probe. The probe-based test strip was also developed to conveniently detect H2S generated during food spoilage in the absence of laboratory instruments. It achieved the consistent results and sensitivity with that determined by the colony forming unit (CFU) assay. These results paved a successful way to develop an effective analytical method for food quality and safety.Given the health-promoting properties associated with trans-resveratrol consumption and knowing its photochemical instability, as it rapidly isomerizes to the less biologically active conformer, the photoprotective role of a carbon-based nanomaterial was investigated. The resveratrol adsorption on graphene quantum dots (GQDs), synthesized from uric acid, produces a considerable inhibition in the trans- to cis-resveratrol conversion process under light-induced radiation, conferring photostability to the bioactive. The influence of different parameters affecting the adsorption efficiency and loading capacity of resveratrol on GQDs was explored. Several characterization techniques confirmed this interaction, even proving to be non-toxic at the concentration at which the maximum inhibition of isomerization occurs. This adsorption also implies an increase in the antioxidant capacity of the polyphenol. The photoprotective effect was evaluated in food samples, resulting in a considerable slowing down of isomerization. This fact confirms the potential of GQDs to be an effective vehicle of trans-resveratrol to supplement food systems.A novel ratio electrochemical biosensor based on multi-functional nanocomposite was developed. Fe3O4 was synthesized in situ on carboxyl functionalized 2D nanomaterial MXene, and then covalently bonded with [Ru(NH3)6]3+ to obtain nanocomposites MXC-Fe3O4-Ru. Fe3O4 and [Ru(NH3)6]3+ can neutralize the electronegativity of the MXene to make the nanocomposites electrically neutral. Combine with the good hydrophilicity and conductivity of MXene, the nanocomposites can be utilized to construct antifouling electrochemical biosensors without modifying with specific antifouling materials. Moreover, Fe3O4 can endow the nanocomposites with magnetism, and [Ru(NH3)6]3+ is used as an internal standard molecule. The strong magnetic MXC-Fe3O4-Ru can be easily separated and firmly modified on the magnetic gold electrode (MGE). DNA double-stranded (dsDNA) containing an ferrocene (Fc)-modified carcinoembryonic antigen (CEA) aptamer can be specifically captured to the surface of the electrode by amido bond. In the presence of CEA, CEA binds to the aptamer and leaves the electrode surface, the electrochemical signal of Fc decreases, while the electrochemical signal of [Ru(NH3)6]3+ is fixed on the electrode surface remains basically unchanged. The ratio of the electrochemical signals of Fc and [Ru(NH3)6]3+ is proportional to the CEA concentration. The linear range of the sensor is 1 pg/mL to 1 μg/mL with a detection limit of 0.62 pg/mL. With the excellent antifouling performance, good conductivity of the nanocomposite, and the application of the ratiometric strategy, the biosensor can achieve high selectivity, accuracy, and sensitivity for the detection of targets even in complex samples, such as FBS and clinical serum.Foodborne pathogens are major public health concerns worldwide. Paper-based microfluidic devices are versatile, user friendly and low cost. We report a novel paper-based single input channel microfluidic device that can detect more than one whole-cell foodborne bacteria at the same time, and comes with quantitative reading via image analysis. This microfluidic paper-based multiplexed aptasensor simultaneously detects E. coli O157H7 and S. Typhimurium. Custom designed particles provide colorimetric signal enhancement and false results prevention. Several aptamers were screened and the highest-affinity aptamers were optimized and employed for detection of these bacteria in solution, both in a buffer as well as pear juice. Image analysis was used to read and quantify the colorimetric signal and measure bacteria concentration, thus rendering this paper based microfluidic device quantitative. The colorimetric results show linearity over a wide concentration range (102CFU/mL to 108CFU/mL) and a limit of detection (LOD) of 103CFU/mL and 102CFU/mL for E. coli O157H7 and S. Typhimurium, respectively. An insignificant change in colorimetric response for non-target bacteria indicates the aptasesnors are specific. The reported multiplexed colorimetric paper-based microfluidic devices is likely to perform well for on-site rapid screening of pathogenic bacteria in water and food products.

Impairments in speech and executive functions are both observed in Parkinson’s disease (PD) and might be influenced by subthalamic nucleus deep brain stimulation (STN-DBS). We investigated the effects of STN-DBS on speech and executive functions and their mutual interference in PD.

14 PD patients eligible for bilateral STN-DBS (PD-DBS), and 16 PD patients with best medical treatment (PD-BMT) were included. Global cognition, executive functions (inhibition and verbal fluency), speech tasks with acoustic measures, and a dual-task (DT) combining a speech task with a Go or Go/NoGo task were performed at baseline and 12 months follow-up. A normative group of matched healthy participants was included at baseline for the evaluation of speech and DT performance.

In both patient groups, global cognition mildly decreased after 12 months (p<.001). PD-DBS showed decreased inhibition (p=.016) whereas PD-BMT deteriorated in vowel articulation (p=.011). Using the DT paradigm, PD-DBS showed a slowing of speech rate after 12 months (p=.009) in contrast to PD-BMT (p=.203).

STN-DBS does not seem to impair speech and global cognition but might affect certain executive functions (notably inhibition). Speech-cognition interference is relatively preserved in PD patients, even though PD-DBS present larger DT cost on speech rate at 12 months post-DBS compared to PD-BMT. An evaluation with a longer follow-up using a larger sample is needed to confirm long-term effects.

STN-DBS does not seem to impair speech and global cognition but might affect certain executive functions (notably inhibition). Speech-cognition interference is relatively preserved in PD patients, even though PD-DBS present larger DT cost on speech rate at 12 months post-DBS compared to PD-BMT. An evaluation with a longer follow-up using a larger sample is needed to confirm long-term effects.Understanding the brain changes underlying cognitive dysfunction is a key priority in multiple sclerosis (MS) to improve monitoring and treatment of this debilitating symptom. Functional connectivity network changes are associated with cognitive dysfunction, but it is less well understood how changes in normal appearing white matter relate to cognitive symptoms. If white matter tracts have network structure it would be expected that tracts within a network share susceptibility to MS pathology. In the present study, we used a tractometry approach to explore patterns of variance in white matter metrics across white matter (WM) tracts, and assessed how such patterns relate to neuropsychological test performance across cognitive domains. A sample of 102 relapsing-remitting MS patients and 27 healthy controls underwent MRI and neuropsychological testing. Tractography was performed on diffusion MRI data to extract 40 WM tracts and microstructural measures were extracted from each tract. Principal component analysis improve the understanding of the network structure of the brain in MS.

To investigate structural connectivity after total callosotomy.

Deterministic fiber tracking (tractography) of whole brain white matter was performed on 13 epilepsy patients pre- and post-callosotomy. The analysis of structural connectivity was based on graph theory and network-based analysis with a focus on the inter- and intrahemispheric networks. Clinical demographic data including seizure patterns and outcomes were scored for the identification of correlations.

After total callosotomy, structural interhemispheric networks were significantly interrupted. Specific changes were observed in the structural intrahemispheric networks in both hemispheres 3 edges presented with significant decreases in the left hemisphere, whereas 2 edges presented with significant decreases in the right hemisphere. No global changes were observed in the network density, average weighted strength, average characteristic path length, or global efficiency of intrahemispheric networks. The intrahemispheric hubs and nodal efficiency were minimal changed after callosotomy.

While there was a significant decrease in structural interhemispheric connectivity post-callosotomy, we observed synchronously decremented changes of intrahemispheric edges in each hemisphere. This study suggests that white matter maintains the structural connectivity intrahemispherically although functional connectivity recovered after total callosotomy.

While there was a significant decrease in structural interhemispheric connectivity post-callosotomy, we observed synchronously decremented changes of intrahemispheric edges in each hemisphere. This study suggests that white matter maintains the structural connectivity intrahemispherically although functional connectivity recovered after total callosotomy.Rheumatoid arthritis (RA) is a common autoimmune disease characterized by chronic synovial inflammation, which ultimately leads to joint deformity and dysfunction. [18F]-GE-180 is a specific PET tracer of the 18 kDa translocator protein (TSPO), which is overexpressed on activated macrophages, and proposed as a biomarker of inflammation. Our study addresses the need to streamline the automatic synthesis of [18F]-GE-180 to make it more accessible for routine production and widespread clinical evaluation and application. The nucleophilic radiofluorination was performed on an AllinOne synthesis module by SPE purification method, and the formulated [18F]-GE-180 was obtained in non-decay corrected radiochemical yields of 69 ± 1.8% in 32 min. PET/CT imaging in animal model showed that [18F]-GE-180 highly concentrated in joints from RA rats. This methodology facilitates efficient synthesis of [18F]-GE-180 in a commercially available synthesis module and shows potential diagnosis performance in RA models.Activation cross sections of alpha-particle-induced reactions on natural vanadium were measured. The production cross sections of 54, 52gMn, 51Cr, 48V, and 47, 46gSc were determined up to 50 MeV. The stacked-foil activation technique and high-resolution gamma-ray spectrometry were used. The experimental results were compared with previous experimental data and theoretical calculations in the TENDL-2019 library. The physical yield of the medical radionuclide 52gMn was derived from the measured cross sections.Although early emotional and verbal development are thought to be related, emotional and verbal parent-toddler communication are often studied separately, and are frequently measured during brief, semi-structured tasks. Moreover, there is mixed, indirect evidence as to whether toddler negative emotions may elicit or disrupt parent-toddler verbal communication. To address these gaps, the present study used a wearable audio-recording and processing technology, Language Environment Analysis (LENA; Xu, Yapanel, & Gray, 2009), to sample full-day communication between twenty-five parents and their toddlers (12-23 months). We examined the extent to which toddler vocal negative emotion expressions („cries”), relative to toddler (pre)-verbal vocalizations or adult speech, initiated, occurred within, or terminated parent-toddler conversation. We found that most (60%) toddler cries were involved in parent-toddler conversation. Toddler cries were unlikely to initiate conversations and, unexpectedly, were unlikely to terminate conversation. Conversations were most often initiated by toddler vocalizations and terminated by adult speech. Findings highlight the importance of measuring both emotional and verbal aspects of parent-toddler communication and the benefit of using sampling techniques that capture communication processes as they unfold in daily life.Low back pain is a major chronic musculoskeletal disorder, caused mainly due the degeneration of the intervertebral discs (IVDs). Bisphosphonates (BPs), like zoledronic acid (ZOL), are used in osteoporosis management; however, their accumulation in the IVDs and their physiological role has not been addressed so far. To this end, an SPE-liquid chromatography-tandem mass spectrometry (SPE-LC-MS/MS) analytical method, using on-cartridge derivatization, has been developed and validated. The analytical method presented excellent linearity (R2 > 0.992), high recoveries (67.8-82.6%), increased repeatability (0.5-9.9%) and low LOD values (21 ng g-1 in the case of IVDs) in all matrices studied. The injection of ZOL in a rabbit animal model resulted in rapid accumulation in blood plasma and the skin, followed by quick clearance. On the other hand, no ZOL was detected in nucleus pulposus, the core of the IVD, while in the peripheral annulus fibrosus a lower and delayed accumulation, as well as dispersal was found. These variations are most probably due to the avascular nature of IVD, allowing only the diffusion of small molecules in and out of the tissue, and/or to the unique physicochemical environment of IVDs. Finally, ZOL, at the concentrations found, did not affect cells’ viability or the increase of reactive oxygen species (ROS).

In a healthcare system which aims to empower the patient, self-management becomes increasingly important. In Multiple Sclerosis, an effective self-management is associated with various favorable health-related outcomes like improvement in quality of life, the reduction of depression and anxiety symptoms, and reduced healthcare costs. This study investigates the association between the Big Five personality traits and self-management including activity in self-help groups.

People with MS were recruited via several paths within Germany (e.g. medical practices, social events and the German MS society). The final study sample consisted of 682 participants who answered a multidimensional questionnaire. This comprised the Big-Five-Inventory-10 for personality, the Health Education Impact Questionnaire (heiQ) for self-management competencies, questions for participation in self-help groups, and socio-demographic and clinical variables.

Multivariate regression analyses showed that personality could explain a greclinical practice to identify patients at risk; however, at a minimum, personality traits should be considered in consultations with their neurologists. They may need help to understand the benefits of effective self-management and should receive support to improve their self-management skills and to reduce their neuroticism to lower the risk of secondary complications.Objectives To determine to what extent acute demyelinating episodes versus chronic degenerative phenomena drive retinal neuroaxonal damage in pediatric acquired demyelinating syndromes (ADS). Methods We acquired optical coherence tomography (OCT) data (follow-up range 2 weeks – 5 years, at variable intervals from presentation) in pediatric participants who had multiple sclerosis (MS), monophasic ADS, or were healthy. Multivariable mixed effects models were used to assess the association of the number of demyelinating episodes (either optic neuritis [ON], or non-ON relapses) with changes in retinal nerve fiber layer (RNFL) or ganglion cell layer-inner plexiform layer (GCIPL) thickness. Results 64 OCT sans from 23 MS, and 33 scans from 12 monophasic ADS participants were compared with 68 scans from 62 healthy participants. The first ON episode had the biggest impact on RNFL or GCIPL thickness in monophasic ADS (RNFL -7.9 µm, CI=5.5, p = 0.0056; GCIPL -8.4 µm, CI=4.4, p = 0.0002) and MS (RNFL -16 µm, CI = 3.7, p less then 10-6; GCIPL -15 µm, CI = 2.6, p less then 10-6). Non-ON relapses were also associated with small but significant retinal thickness reductions in MS (RNFL -2.6 µm/relapse, CI = 1.4, p = 0.0003; GCIPL -2.8 µm/relapse, CI = 0.89, p less then 10-6). MS participants showed progressive GCIPL thinning independent of acute demyelinating episodes (-2.7 µm/year, CI = 1.9, p = 0.0058). Conclusions We showed a prominent impact of early ON episodes on OCT measures of neuroaxonal structure in patients with ADS. We also demonstrated negative effects of non-ON relapses, and the presence of chronic retinal neurodegenerative changes, in youth with MS.

Multiple sclerosis (MS) is a chronic progressive neurodegenerative disease of the central nervous system. Although there is increasing evidence that aerobic exercise has a positive effect on both cognitive and psychological functioning, there is limited evidence for Relapsing-Remitting MS (RRMS) patients. Moreover, it is unclear at what exercise modality and intensity the irisin, the cleaved and circulating form of the exercise-associated membrane protein Fibronectin Type III Domain Containing 5, is induced in patients with MS. This study aimed to investigate the effect of a regular aerobic exercise program on irisin serum level, depression, fatigue, and cognitive performance in patients with MS.

Thirty-two individuals with RRMS were randomized into 2 groups as control and study groups (mean EDSS score 1.69 and 1.97, respectively). While the Study Group received a combined exercise training consisting of three sessions of aerobic exercise and Frenkel Coordination Exercises per week for 6 weeks, the ControS patients. We think that this study, in which a significant increase in irisin serum level, significant improvement in depression, cognitive performance and fatigue states were obtained in the Study Group, will be a pioneering study for the future studies aiming to investigate the effects of irisin serum level on these symptoms in detail.

The aerobic exercise revealed significant changes in depression, fatigue and irisin serum levels in MS patients. We think that this study, in which a significant increase in irisin serum level, significant improvement in depression, cognitive performance and fatigue states were obtained in the Study Group, will be a pioneering study for the future studies aiming to investigate the effects of irisin serum level on these symptoms in detail.

The aim of this study was to evaluate the safety of Sinofarm vaccine (BBIBP-CorV) in patients with multiple sclerosis (pwMS).

This study was conducted on pwMS patients in Isfahan, Iran. All participants received two doses of BBIBP-CorV (Sinopharm vaccine). Demographic information and data on vaccine side effects were collected after each dose using questionnaires. All patients that recorded worsening of MS symptoms were evaluated and those with true relapse were treated with IV methyl prednisolone.

Of the 1538 patients, 1151 (74.8%) were female and the mean age was 40.45 ± 9.74. The average disease duration was 10.38±6.81 years and 76.1% of participants had RRMS. 92.8% of the participants were using DMTs and mean EDSS was 2.06 ± 3.16. 54.2% (833 patient) reported at least one adverse event after the first dose of vaccine and 46.8% (720 patient) after the second dose; in both cases going away in a few days. Most prevalent adverse events after both doses were injection site pain, headache, myalgia, fever ng vaccination with Sinopharm vaccine was similar to the general population, which were more common in younger patients and less common in those with mild disability. As no increase in relapse rate after vaccination was detected, Sinopharm vaccine was safe in MS patients.Neurofibromatosis type 1 (NF-1) is associated with multiple vascular abnormalities, including internal carotid artery (ICA) stenosis/occlusion. Depending on the site of stenosis/occlusion of the ICA, both cerebral circulation and ocular circulation can be impaired. We describe a rare pediatric case of ocular ischemic syndrome (OIS) due to ICA occlusion in NF-1. The patient diagnosed with NF-1 suffered right ICA occlusion at 12 years of age, and developed right dense vitreous hemorrhage due to OIS at 13 years of age. The patient underwent right cerebral revascularization surgery to improve cerebral and ocular ischemia, but the visual acuity of the right eye did not improve. This case suggests that attention should be paid not only to cerebral ischemia but also to ocular ischemia in patients with ICA stenosis/occlusion of NF-1. Surgical interventions such as cerebral revascularization surgery should be considered in the early stages of OIS to protect visual function, and careful follow-up is required.Vascular smooth muscle cell (SMCs) differentiation is critical for cardiovascular development, but the mechanisms remain largely unknown. The overall aim of this study was to investigate the functional impact and mechanism of cellular repressor of E1A-stimulated genes (CREG) in SMC differentiation. Two embryonic stem cell (ESC) models were generated (1) the overexpression of CREG (CREG-OE), by transfection with Pcreg-IRECS2-EGFP vector, and (2) the knockout of CREG, by transfection with CREG shRNA (CREG-KO). Interesting, SMC-marker levels (SM α-actin, SM22, Calponin, and SM-MHC) dramatically increased in CREG-OE ESCs into the SMC while significantly decreased in CREG-KO ESCs during differentiation. After 14 days, and calcium ion concentrations in angiotensin II-stimulated embryoid bodies were increased in CREG-OE ESCs but reduced in CREG-KO ESCs. Consistently, the contractile capacity of SMC from CREG-OE ESC was increased, while the contractile capacity of SMC CREG1 from CREG-KO ESCs was significantly reduced. Furthermore, we demonstrated that CREG promotes differentiation of ESCs to SMCs and maturation of their function through the transforming growth factor-β -smad2/3 pathway.Mouse embryonic stem cells (mESCs) are characterized by self-renewal and pluripotency and can undergo differentiation into the three germ layers (ectoderm, mesoderm, and endoderm). Melanoma-associated antigen D1 (Maged1), which is expressed in all developing and adult tissues, modulates tissue regeneration and development. In the present study, we examined the expression and function of Maged1 in mESCs. Maged1 protein and mRNA expression increased during mESC differentiation. The pluripotency of mESCs was significantly reduced through extracellular signal-regulated kinase 1/2 phosphorylation upon knockdown of Maged1, and through G1 cell cycle arrest during cell division, resulting in significantly reduced mESC proliferation. Moreover, the diameter of the embryoid bodies was significantly reduced, accompanied by increased levels of ectodermal differentiation markers and decreased levels of mesodermal and endodermal differentiation markers. Maged1-knockdown mESC lines showed significantly reduced teratoma volumes and inhibition of teratoma formation in nude mice. Additionally, we observed increased ectodermal markers but decreased mesodermal and endodermal markers in teratoma tissues. These findings show that Maged1 affects mESC pluripotency, proliferation, cell cycle, and differentiation, thereby contributing to our understanding of the basic molecular biological mechanisms and potential roles of Maged1 as a regulator of various mESC properties.Since domestic dogs are the main reservoir hosts of Leishmania infantum throughout the world, they are the main focus in terms of controlling zoonotic visceral leishmaniosis. To protect dogs from leishmaniosis, chemical repellents of durable efficacy are available in the form of collars, spot-on and sprays. However, the negative effects of chemical pesticides on the environment are well established as they affect animals and plants. This phenomenon has created the need for safer and more environmentally friendly substitutes. Plant extract-based insecticides and/or repellents have therefore been increasingly used by pet owners and veterinarians. Several botanical products have been tested as insecticides and/or repellents against a variety of bloodsucking arthropods that transmit human diseases. Among the products tested against Leishmania vectors, neem oil containing azadirachtin is the most studied. This study reviews the scientific literature concerning the efficacy of neem oil (azadirachtin-based products) limited data on the duration of protection and the dose of the active ingredient, more studies are required on the efficacy of neem oil-based products in reducing the risk of contracting canine leishmaniosis. These studies should also refer specifically to the concentration of the active ingredient as well as the interval of administration. Until such results are available, the use of azadirachtin-based products as the only topical products for the prevention of leishmaniosis in dogs is not recommended.This article reviews evidence for the social compensation hypothesis of online dating, according to which individuals who experience challenges with traditional dating gravitate towards and benefit from online dating. Three categories of psychosocial vulnerabilities that interfere with the initiation of romantic relationships are identified 1) internalizing symptoms (i.e., anxiety, depression); 2) rejection sensitivity; and 3) attachment insecurity (i.e., anxiety, avoidance). The literature shows positive associations between anxiety, depression, rejection sensitivity, and attachment anxiety (but not avoidance) and online dating use. But significant lacunae exist in understanding the relational and wellbeing outcomes experienced by individuals with these psychosocial vulnerabilities, or of the mechanism through which vulnerabilities cause enhanced use of online dating. A detailed agenda for future research is proposed.

Community-acquired pneumonia (CAP) is a common and potentially deadly infection that often arises in older adults. However, the relevance of frailty assessments in older CAP patients remains to be established. The present study was designed to assess the value of a pretreatment frailty index based upon routine laboratory parameters as a predictor of complication and mortality among older CAP patients.

Design Retrospective cohort study.

One of the teaching hospitals in western China. Hospitalized CAP patients≥60 years of age. Relevant data were gathered from medical records, local government mortality databases, and telephone interviews. Analyzed outcomes included complication (including respiratory failure and septic shock) and all-cause mortality. A frailty index was constructed based upon 44 pre-treatment laboratory parameters (FI-LAB), and then three cut-off values were selected to define individuals that were robust (0.0-0.2), pre-frail (0.2-0.35), and frail (≥0.35).

In total, this study incorporated 627 patients (60.77% male; median age 80 years). Rates of respiratory failure, septic shock and death were higher for frail and prefrail individuals relative to robust individuals (30.13% vs 21.13% vs 6.59%, p<0.001; 40.38% vs 15.02% vs 3.88%, p<0.001; 73.08% vs 54.93% vs 24.42%, p<0.001). Following adjustment for potential confounders, both the pre-frail and frail groups exhibited elevated risk of respiratory failure (OR=3.326, 95%CI 1.799-6.15; OR=5.353, 95%CI 2.835-10.107), higher risk of septic shock (OR=3.701, 95%CI 1.736-7.889; OR=12.713, 95%CI 6.112-26.445), and a higher risk of death (HR=2.173, 95%CI 1.576-2.996; HR=2.877, 95%CI 2.026-4.083) than the robust group.

Frailty, as defined using a scale based upon routine laboratory parameters, can predict a higher risk of complication and mortality in older CAP patients.

Frailty, as defined using a scale based upon routine laboratory parameters, can predict a higher risk of complication and mortality in older CAP patients.

Multimorbidity has negative impacts on the health outcomes of older adults. Previous research has discovered different patterns of multimorbidity. However, evidence is scarce for associations between multimorbidity patterns and disability/frailty, especially evidence from longitudinal studies. This study aimed to explore the relationship between multimorbidity patterns and disability/frailty among older adults in Taiwan.

This population-based cohort study used data from the Taiwan Longitudinal Study on Aging. It included 2,194 older adults (age >50 years) who were followed from 1996 to 2011. The participants’ multimorbidity patterns in 1996 were determined by latent class analysis; their incident disability and frailty were ascertained in 2011. Multivariate logistic regression was used to analyze the relationship between multimorbidity patterns and disability/frailty.

In 1996, the participants’ average age was 62 years. Four multimorbidity patterns were discovered through latent class analysis, as foin Taiwan were associated with incident disability during later life but were not related to frailty.

Polypharmacy and frailty are two common geriatric conditions. In community-dwelling healthy older adults, we examined whether polypharmacy is associated with frailty and affects disability-free survival (DFS), assessed as a composite of death, dementia, or persistent physical disability.

We included 19,114 participants (median age 74.0 years, IQR 6.1 years) from ASPirin in Reducing Events in the Elderly (ASPREE) clinical trial. Frailty was assessed by a modified Fried phenotype and a deficit accumulation Frailty Index (FI). Polypharmacy was defined as concomitant use of five or more prescription medications. Multinomial logistic regression was used to examine the cross-sectional association between polypharmacy and frailty at base line, and Cox regression to determine the effect of polypharmacy and frailty on DFS over five years.

Individuals with polypharmacy (vs. <5 medications) were 55% more likely to be pre-frail (Relative Risk Ratio or RRR 1.55; 95%Confidence Interval or CI1.44, 1.68) and three times more likely to be frail (RRR 3.34; 95%CI2.64, 4.22) according to Fried phenotype. Frailty alone was associated with double risk of the composite outcome (Hazard ratio or HR 2.16; 95%CI 1.56, 2.99), but frail individuals using polypharmacy had a four-fold risk (HR 4.24; 95%CI 3.28, 5.47). Effect sizes were larger when frailty was assessed using the FI.

Polypharmacy was significantly associated with pre-frailty and frailty at baseline. Polypharmacy-exposed frailty increased the risk of reducing disability-free survival among older adults. Addressing polypharmacy in older people could ameliorate the impact of frailty on individuals’ functional status, cognition and survival.

Polypharmacy was significantly associated with pre-frailty and frailty at baseline. Polypharmacy-exposed frailty increased the risk of reducing disability-free survival among older adults. Addressing polypharmacy in older people could ameliorate the impact of frailty on individuals’ functional status, cognition and survival.Millions of COVID-19 patients have succumbed to respiratory and systemic inflammation. Hyperstimulation of toll-like receptor (TLR) signaling is a key driver of immunopathology following infection by viruses. We found that severely ill COVID-19 patients in the Intensive Care Unit (ICU) display hallmarks of such hyper-stimulation with abundant agonists of nucleic acid-sensing TLRs present in their blood and lungs. These nucleic acid-containing Damage and Pathogen Associated Molecular Patterns (DAMPs/PAMPs) can be depleted using nucleic acid-binding microfibers to limit the patient samples’ ability to hyperactivate such innate immune receptors. Single-cell RNA-sequencing revealed that CD16+ monocytes from deceased but not recovered ICU patients exhibit a TLR-tolerant phenotype and a deficient anti-viral response after ex vivo TLR stimulation. Plasma proteomics confirmed such myeloid hyperactivation and revealed DAMP/PAMP carrier consumption in deceased patients. Treatment of these COVID-19 patient samples with MnO nanoparticles effectively neutralizes TLR activation by the abundant nucleic acid-containing DAMPs/PAMPs present in their lungs and blood. Finally, MnO nanoscavenger treatment limits the ability of DAMPs/PAMPs to induce TLR tolerance in monocytes. Thus, treatment with microfiber- or nanoparticle-based DAMP/PAMP scavengers may prove useful for limiting SARS-CoV-2 induced hyperinflammation, preventing monocytic TLR tolerance, and improving outcomes in severely ill COVID-19 patients.Ownership is often viewed as demarcating who can use resources and who is restricted from using them. This paper explores another side of ownership-ownership may be attributed to mark individuals as accountable and responsible for causing harm. Across eight experiments, participants (total N = 2517) read vignettes where an agent’s actions led resources to be deposited on others’ land (Experiments 1-5) or on unowned land (Experiments 6-8). The resources benefitted, harmed, or had no effect on the landowners, or on plants and animals on the land. This manipulation caused an asymmetry between harms and benefits in ownership judgments. Participants more strongly endorsed the agent as owner for harmful resources than beneficial ones, and they also judged it more acceptable for the agent to retrieve harmful resources from others’ land. In contrast, participants more strongly endorsed resources as belonging to landowners or to no one when they were beneficial rather than harmful. We also found that participants endorsed the agent as owning harmful resources even when other means were available for conveying the agent was accountable. Together, our findings show that ownership serves functions besides rewarding individuals with rights over property and besides ensuring individuals are responsible for harm caused by their property-people also attribute ownership to ensure that wrongdoers remain connected and accountable for harm they cause. We discuss implications for theories of ownership, and how our findings relate to other asymmetries between harms and benefits.To benefit from social interactions, people need to predict how their social partners will behave. Such predictions arise through integrating prior expectations with evidence from observations, but where the priors come from and whether they influence the integration into beliefs about a social partner is not clear. Furthermore, this process can be affected by factors such as paranoia, in which the tendency to form biased impressions of others is common. Using a modified social value orientation (SVO) task in a large online sample (n = 697), we showed that participants used a Bayesian inference process to learn about partners, with priors that were based on their own preferences. Paranoia was associated with preferences for earning more than a partner and less flexible beliefs regarding a partner’s social preferences. Alignment between the preferences of participants and their partners was associated with better predictions and with reduced attributions of harmful intent to partners. Together, our data and model expand upon theories of interpersonal relationships by demonstrating how dyadic similarity mechanistically influences social interaction by generating more accurate predictions and less threatening impressions.People tend to avoid engaging in cognitively demanding tasks unless it is 'worth our while’-that is, if the benefits outweigh the costs of effortful action. Yet, we seemingly partake in a variety of effortful mental activities (e.g. playing chess, completing Sudoku puzzles) because they impart a sense of progress. Here, we examine the possibility that information about progress-specifically, the number of trials completed of a demanding cognitive control task, relative to the total number of trials to be completed-reduces individuals’ aversion to cognitively effort activity, across four experiments. In Experiment 1, we provide an initial demonstration that presenting progress information reduces individuals’ avoidance of cognitively demanding activity avoidance using a variant of the well-characterized Demand Selection Task (DST). The subsequent experiments buttress this finding using a more sophisticated within-subjects versions of the DST, independently manipulating progress information and demand level to further demonstrate that, 1) people prefer receiving information about temporal progress in a task, and 2) all else being equal, individuals will choose to engage in tasks that require greater levels of cognitive effort when the more demanding option confers information about their progress in a task. Together, these results suggest that progress information can motivate cognitive effort expenditure and, in some cases, override individuals’ default bias towards demand avoidance.Design of interface devices for effective, long-term integration into neural tissue is dependent on the biomechanical properties of the nerve membranes. Within the peripheral nerve, the two relevant connective tissue layers for interfacing are the epineurium and perineurium. Previous work has reported the forces needed to penetrate the whole nerve, but the mechanical differences between epineurium and perineurium were not reported. Design of intraneural electrodes that place electrodes within the nerve requires knowledge of the mechanics of individual tissues. This study quantified the Young’s moduli and ultimate strains of the perineurium and the epineurium separately. We also measured the forces necessary to penetrate each tissue in isolation. We used a custom-built microtensile testing device to measure the Young’s modulus values. The measured Young’s moduli of the epineurium and the perineurium was 0.4 ± 0.1 MPa and 3.0 ± 0.3 MPa, respectively. We also measured the force required for blunt and sharp stainless steel, 100 µm diameter probes to be inserted into isolated epineurial tissue and perineurial tissue at 2 mm/s. These data provide additional guidelines for selection of materials for long-term implants that best match the tissue properties. The results will guide neural interface design such that electrodes can be placed through either the epineurium alone or both the epineurium and perineurium.Biodegradable in-situ hydrogels as drug release carriers injected into the eye can treat Neovascular age-related macular degeneration (NV-AMD). Obviously, the biodegradation behavior of hydrogels affects the drug diffusion process in the eye, which can influence the drug concentration distribution and development in the macula. Herein, the intraocular diffusion process of the drugs which are released from the biodegradable hydrogel was studied by using finite element method, with the effect of the biodegradation behavior of hydrogels on the drug release process was considered. The effects of the initial average mesh size, rate constant of biodegradation, and position of hydrogels on the drug release process were analyzed. The results showed that the biodegradation behavior of hydrogels decreases the drug release rate by gradually expanding the mesh size, prolonging the duration of drug treatment in the macula. The biodegradable hydrogels’ position, initial mesh size, and biodegradation rate constant also affect drug delivery. Different locations of hydrogels denote different distances between the drug and macula, which affects the diffusion time and further influence the macular drug concentration. The initial mesh size alters the initial drug release rate, which affects the duration of hydrogels’ drug release process and drug concentration and duration in the macula. The hydrogel degradation rate affects the development of its mesh size, which affects the drug diffusion in hydrogels, and further affects the drug concentration in the macular region.

Asthma is one of the most common chronic inflammatory diseases of the respiratory tract. Previous studies have shown that the reduction of regulatory B cells (Bregs) can increase inflammation of the body and promote the formation of chronic airway inflammation in asthma, but the detailed mechanisms have not been fully elucidated. The intestinal flora Clostridium leptum (CL) has been reported to modulate immune regulatory cells in the body, but the specific mechanisms are not clear. This study aimed to investigate the effects of CL on the differentiation of interleukin (IL)-10

Bregs and the regulation of the asthmatic inflammation-associated immune network.

The abundances of CL and the frequencies of blood Bregs from asthmatic patients and healthy controls were compared. The house dust mite (HDM)-induced asthma model was established in mice. The effects of CL exposure and B cell infusion on Breg differentiation, T cell cytokine production, and inflammatory cell infiltration in mouse lungs were examined. py.Microplastics (MPs) are widespread in the water column of several aquatic ecosystems. Thus, the sampling methodology is considered as a basic factor influencing MPs abundance. In this baseline, a total of 67 investigations were chosen to conduct a quantitative analysis between two sampling methods Trawl and bulk. The aim is to report a general overview of the MPs abundance and characteristic differences based on the sampling procedures and provide methodological recommendations. MPs abundance reported by bulk studies is 3500 higher than trawl studies. Furthermore, the morphological types and polymers abundances were statistically affected by the type of sampling tool. Conversely, MPs size ranges were significantly different between sampling procedures, suggesting that trawling underestimates the smaller MPs fractions. The analysis confirms that the sampling methods should be selected based on the research objectives. In this sense, it is recommended to combine both types of sampling procedures to obtain comprehensive data.Societal and environmental concern due to frequent reports of microplastics in fish stomachs raised as they may accumulate along the trophic chain. The request for analysing microplastics in fish stresses two major analytical issues sample treatment and final characterization. The, so far, workhorse for chemical characterization is infrared spectroscopy which is time-consuming. Here, a quantum cascade laser-based device is used to accelerate the characterization stage. Its novelty poses new challenges for sample processing and particle handling because the unknown particles must be transferred to a reflective slide. In this study, three sample digestion protocols (alkaline-oxidative with H2O2, and alkaline-oxidative with NaClO and enzymatic-oxidative) and three different procedures to transfer the filter cake to reflective slides are compared. A simplified enzymatic-oxidative digestion (validated through an interlaboratory exercise) combined with a Syncore® automatic evaporation system and a Laser Direct Infrared Imaging (LDIR) device is proposed first time as a reliable and relatively fast method to treat gastrointestinal tracts of fish. Analytical recoveries were studied using samples of Scomber scombrus and they were ca. 100% for big -i.e., >500 μm- and ca. 90% for medium -i.e., 200-300 μm- particles and ca. 75% for 10 μm thick fibres.This study investigated the concentration fluctuation of organotin compounds in the Turbidity Maximum Zone (TMZ) of the Yangtze Estuary within a tidal cycle. Organotin concentrations varied greatly during the tidal cycle with dissolved organotins ranged from 39 to 682 ng Sn·L-1 and 40-1588 ng Sn·L-1, and particulate organotins ranged from 59 to 467 ng Sn·g-1 dw and 21-429 ng Sn·g-1 dw in TMZ water close to Hengsha Island and Jiuduansha Island, respectively. Meanwhile, the maximum levels of organotins appeared at each period of tidal transition, suggesting the tidal-driven pulsed exposure of organotins was prevalent in the estuaries. Besides, the organic carbon-normalized partition coefficients (Koc) of tri-organotins between suspended particulate matter (SPM) and aqueous phase were correlated with the phase distribution of natural organic matter (NOM). The dissolved tri-organotins were also associated with the properties of dissolved organic carbon (DOC) including aromaticity, hydrophobicity, and chromophoricity. Hence, pulsed exposure on organotins in the TMZ are highly dictated by the dynamic environmental conditions (i.e., SPM and NOM) with the tidal currents, which could further provide information to assess organotin ecological risks accurately in estuaries.Coral reefs across the southern Arabian Gulf have declined in the past two decades, with extensive loss of formerly Acropora table corals, which are now functionally extinct in nearshore reefs. This study documents the coral community at Sir Bu Nair (SBN), an offshore island buffered by less extreme environmental conditions, which contains the last remaining large stands of Acropora in the southern Gulf. We found that Acropora is a major reef-building coral throughout SBN. Mean coral cover was 27% (range 6%-49%) across all sites and depths, of which more than half was comprised by Acropora. This varied around the island, with the highest densities to the south and southwest in shallow waters. Our study provides essential information for the management and conservation of these highly valuable and vulnerable corals.