Vitamin D may be implicated in the pathophysiology of several ocular diseases, but its role in age-related macular degeneration (AMD) remains uncertain. We sought to review systematically the existing evidence to evaluate the association between serum 25-hydroxyvitamin D 25(OH)D levels and AMD. A four-database search (PubMed, ISI Web of Science, Cochrane, and Scopus) was performed from inception to May 2020 using the MeSH terms („Macular Degeneration” OR „Age-related macular degeneration” OR „Retinal degeneration” OR „Macula lutea”) AND („Vitamin D” OR „Ergocalciferols” OR „Cholecalciferol” OR „25-Hydroxyvitamin D”). Random-effects meta-analyses were performed to compute 1) the standard mean difference in 25(OH)D concentration between AMD and non-AMD patients and 2) the AMD risk according to serum 25(OH)D levels. Eighteen observational studies enrolling 75,294 patients after a selection process among 375 original abstracts were selected. No significant differences were found, but there appears to exist a trend for late AMD among subjects with a serum 25(OH)D level below 50 nmol/L (odds ratio, 1.8; 95% confidence interval 1.00-3.24, P = 0.05). There is no clear evidence of a definitive association between serum 25(OH)D and AMD risk, mainly due to heterogeneity in study procedures and lack of longitudinal designs.

Tooth mobility is often discussed among dental health care providers according to a numerical scale (ie, 1, 2, or 3) without a clear understanding of the definition of each category. Thus, a comprehensive review to examine and discuss the various classifications is needed. The aim of this comprehensive review was to discuss the main clinical classifications of tooth mobility.

The authors conducted electronic searches in MEDLINE, Scopus, and PubMed. Additionally, the authors manually searched the textbooks, gray literature, and bibliographies of all relevant articles.

The most commonly referenced clinical index for mobility was the Miller index; yet, many other mobility classifications exist as well as modifications of those indexes. The literature has been very inconsistent and at times inaccurate when classifying mobility; using various stages of mobility using grades, classes, and scores interchangeably and not defining the meaning of the actual numerical scores/terminologies are common problems.

In order to avoid ambiguity and provide clarity regarding the impact of degrees of mobility when used clinically, this review comprehensively discusses different classifications and definitions of tooth mobility with attention to the importance of using them consistently and accurately. There is a need to standardize 1 classification for mobility.

In order to avoid ambiguity and provide clarity regarding the impact of degrees of mobility when used clinically, this review comprehensively discusses different classifications and definitions of tooth mobility with attention to the importance of using them consistently and accurately. There is a need to standardize 1 classification for mobility.Previous studies have shown that injection of the mGlu5 receptor positive allosteric modulator (PAM) VU0360172 into either the thalamus or somatosensory cortex markedly reduces the frequency of spike-and-wave discharges (SWDs) in the WAG/Rij model of absence epilepsy. Here we have investigated the effects of VU0360172 on GABA transport in the thalamus and somatosensory cortex, as possible modes of action underlying the suppression of SWDs. Systemic VU0360172 injections increase GABA uptake in thalamic synaptosomes from epileptic WAG/Rij rats. Consistent with this observation, VU0360172 could also enhance thalamic GAT-1 protein expression, depending on the dosing regimen. This increase in GAT-1 expression was also observed in the thalamus from non-epileptic rats (presymptomatic WAG/Rij and Wistar) and appeared to occur selectively in neurons. The tonic GABAA receptor current present in ventrobasal thalamocortical neurons was significantly reduced by VU0360172 consistent with changes in GAT-1 and GABA uptake. The in vivo effects of VU0360172 (reduction in tonic GABA current and increase in GAT-1 expression) could be reproduced in vitro by treating thalamic slices with VU0360172 for at least 1 h and appeared to be dependent on the activation of PLC. Thus, the effects of VU0360172 do not require an intact thalamocortical circuit. In the somatosensory cortex, VU0360172 reduced GABA uptake but did not cause significant changes in GAT-1 protein levels. These findings reveal a novel mechanism of regulation mediated by mGlu5 receptors, which could underlie the powerful anti-absence effect of mGlu5 receptor enhancers in animal models.Visuospatial memory (VSM) performance depends on intrinsic (biopsychosocial parameters) and extrinsic (space) factors. We aimed at characterizing the determinants of VSM performance according to space. Young healthy adults, 20 males and 41 females (23 ± 3 years old), were assessed for VSM performance through a pathway learning task, in reaching (eCorsi Block Tapping task) and walking space (Virtual Walking Corsi Task). We evaluated psychosocial factors through seven questionnaires – Epworth Sleepiness Scale, Pittsburgh Sleep Quality Index, Fatigue Severity Scale, Profile of the Mood States, 2nd edition, short version, Coping Inventory for Stressful Situations, Measurement of Ambiguity Tolerance, Motives for Physical Activities Measure-Revised, mental rotation capabilities and locomotor characteristics (physical activity level through embedded trackers and the International Physical Activity Questionnaire, and gait parameters). The most explanatory biopsychosocial determinants of VSM performance were i) mental rotation capabilities and fatigue indicator in reaching space, and ii) mental rotation capabilities and physical activity level (tracked active energy expenditure only) in walking space. These results suggest that specific parameters should be preferred for the evaluation and strengthening of VSM capabilities in both reaching or walking spaces.Maternal care and aggression are representative of maternal behavior among lactating female mice. Even neonates and juveniles, who are not biological offspring, can induce maternal care and aggression in dams. Here, we investigated the factors that induce maternal aggression through exposure to juvenile mice. We first addressed the role of intruder age on the induction of maternal aggression in dams. BALB/c dams displayed attacking behavior towards 14-day-old C57BL/6J male intruders. Consumption of food pellets during the weaning period was unlikely to affect the induction of attacking behavior, as the intruders reared by breastfeeding, without food pellets, induced intensive attacking behavior in dams. Next, we compared the intruder-mediated induction of attacking behavior through different mouse strains. Specifically, BALB/c intruders induced a lower level of attacking behavior in BALB/c or ICR dams, compared to the other strains tested. However, BALB/c intruders induced intense attacking behavior in C57BL/6N dams, indicating that the occurrence of attacking behavior is dependent on the strains of dams as well as intruders. A cross-fostering experiment highlighted that the rearing by an original mother was required for C57BL/6J juveniles to induce attacking behavior. In contrast, BALB/c intruders may emit an inhibitory factor that limits attacking behavior. We finally explored which parts of the body emit these aggression-inducible signals. Removal of body hair around the proximal tail of the intruders significantly decreased the attacking behavior of dams, demonstrating that chemical cues, namely pheromones, attached to the body hair around the proximal tail may be essential for inducing attacking behavior in dams.

High-protein diets are considered as useful diets for weight loss programs. We collected randomized controlled trials that evaluated the effect of protein on appetite and gastrointestinal hormones involved in appetite regulation.

Trials were included if participants were healthy adults and isocaloric treatments were used in control and treatment arms. Random-effects model was used to calculate mean difference and 95% confidence intervals.

In total, 49 publications for acute and 19 articles for long-term effect of protein were included. In acute interventions, protein decreased hunger (-7mm visual analogue scale (VAS), P<0.001), desire to eat (-5mm, P=0.045), and prospective food consumption (-5mm, P=0.001) and increased fullness (10mm, P<0.001) and satiety (4mm, P<0.001). There was also a decrease in ghrelin (-20 pg/ml, P<0.001) and increase in cholecystokinin (30 pg/ml, P<0.001) and glucagon-like peptide-1 (GLP-1) (21ng/ml, P<0.001), but no change in gastric inhibitory polypeptide and peptide YY was observed. Appetite markers were affected by protein doses < 35g but ghrelin, cholecystokinin, and GLP-1 changed significantly after doses ≥ 35g. Long-term ingestion of protein did not affect these outcomes, except for GLP-1 which showed a significant decrease.

Results of this meta-analysis showed that acute ingestion of protein suppresses appetite, decreases ghrelin, and augments cholecystokinin and GLP-1. Results of long-term trials are inconclusive and further trials are required before a clear and sound conclusion on these trials could be made.

Results of this meta-analysis showed that acute ingestion of protein suppresses appetite, decreases ghrelin, and augments cholecystokinin and GLP-1. Results of long-term trials are inconclusive and further trials are required before a clear and sound conclusion on these trials could be made.We isolated fifty-two strains from the marine aquaculture ponds in Malaysia that were evaluated for their lipid production and ammonium tolerance and four isolates were selected as new ammonium tolerant microalgae with high-lipid production TRG10-p102 Oocystis heteromucosa (Chlorophyceae); TRG10-p103 and TRG10-p105 Thalassiosira weissflogii (Bacillariophyceae); and TRG10-p201 Amphora coffeiformis (Bacillariophyceae). Eicosapentenoic acid (EPA) in three diatom strain was between 2.6 and 18.6 % of total fatty acids, which were higher than in O. heteromucosa. Only A. coffeiformi possessed arachidonic acid. Oocystis heteromucosa naturally grew at high ammonium concentrations (1.4-10 mM), whereas the growth of the other strains, T. weissflogii and A. coffeiformi, were visibly inhibited at high ammonium concentrations (>1.4 mM-NH4). However, two strains of T. weissflogii were able to grow at up to 10 mM-NH4 by gradually acclimating to higher ammonium concentrations. The ammonium tolerant strains, especially T. weissflogii which have high EPA contents, were identified as a valuable candidate for biomass production utilizing NH4-N media, such as ammonium-rich wastewater.

Nature and size of rodent cages vary from one laboratory or country to another. Little is however known about the physiological implications of exposure to diverse cage sizes in animal-based experiments.

Here, two groups of male Swiss mice (Control group – Cage stationed, and Test group – Cage migrated) were used for this study. The cage-migrated mice were exposed daily to various cage sizes used across laboratories in Nigeria while the cage-stationed mice exposed daily to different but the same cage size and shape. At the end of the 30 days exposure, top-rated paradigms were used to profile changes in physiological behaviours, and this was followed by evaluation of histological and biochemical metrics.

The study showed a significant (p < 0.05) decrease in blood glucose levels (at 60 and 120 min of oral glucose tolerance test) in the cage-migrated mice compared to cage-stationed mice. Strikingly, peripheral oxidative stress (plasma malondialdehyde) and pain sensitivity (formalin test, hot-and-cold plate test, and von Frey test) decreased significantly in cage-migrated mice compared to cage-stationed animals.