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COVID-19 infection control measures, lifestyle changes and the resulting stress did not affect the HZ incidence in 2020.

Universal varicella vaccination eliminated varicella epidemics, and HZ was reduced in vaccine recipients. The HZ incidence for those aged 10-59 years increased from 2014 to 2020, in contrast to those aged ≥60 years, which is attributable to booster immunity expiration due to varicella contact in this age group.

Universal varicella vaccination eliminated varicella epidemics, and HZ was reduced in vaccine recipients. The HZ incidence for those aged 10-59 years increased from 2014 to 2020, in contrast to those aged ≥ 60 years, which is attributable to booster immunity expiration due to varicella contact in this age group.

Substantial scientific evidence supports the effectiveness of a Mediterranean diet (MedDiet) in managing type 2 diabetes mellitus (T2DM). Potential benefits of time restricted feeding (TRF) in T2DM are unknown. The MedDietFast trial aims to investigate the efficacy of a MedDiet with or without TRF compared to standard care diet in managing T2DM.

120 adults aged 20-75 with a body mass index (BMI) of 20-35kg/m

and T2DM will be randomised in a 3-arm parallel design to follow an ad libitum MedDiet with or without 12-h TRF or the standard Australian Dietary Guidelines (ADG) for 24 weeks. All groups will receive dietary counselling fortnightly for 12 weeks and monthly thereafter. The primary outcome is changes in HbA1c from baseline to 12 and 24 weeks. Secondary outcomes include fasting blood glucose, insulin, blood lipids, weight loss, insulin resistance index (HOMA), Glucagon-like peptide 1 (GLP-1) and high-sensitivity C- reactive protein (hs-CRP). Data on medical history, anthropometry, wellbeing, MedDiet adherence and satiety will be measured at a private clinic via self-report questionnaires at baseline, 6, 12 and 24 weeks. Additionally, specimens (blood, urine and stool) will be collected at all time points for future omics analysis.

The MedDietFast trial will examine the feasibility and effectiveness of a MedDiet with/without TRF in T2DM patients. Potential synergistic effects of a MedDiet with TRF will be evaluated. Future studies will generate microbiomic and metabolomic data for translation of findings into simple and effective management plans for T2DM patients.

Australia and New Zealand Clinical Trials Register, ACTRN12619000246189.

Australia and New Zealand Clinical Trials Register, ACTRN12619000246189.Almost 60% of Afghans forced to flee their homes in 2021 because of the Taliban advance are children. They are starving. It is estimated that approximately one million will suffer from severe, life-threatening malnutrition by the end of 2021. Many have been separated from their families by the chaos that has ensued in Afghanistan after Taliban took power, and hundreds of them were driven out of the country unaccompanied. How must these children have been when they suddenly found themselves without their relatives during the chaotic crisis, or when they boarded an evacuation flight? It is vital to identify them quickly. Too many children witnessed scenes that no child should see. Children and teenagers are dealing with anxiety and fear and desperately need help and mental health care. This is the sad reality facing Afghan children, regardless of ongoing political developments and changes in government.

The purpose of this study was to investigate associations between parent vaccine confidence and intention to have their child with autism vaccinated against COVID-19.

A cross-sectional, web-based survey was conducted from May to July 2021 with parents of children with autism spectrum disorder (N=322) who were members of an integrated healthcare system in Southern California.

Approximately 35% of parents intended to vaccinate their child against COVID-19. In adjusted models, positive vaccine beliefs-but not belief in vaccine harm, healthcare provider trust, or parent vaccination status-were associated with intention to vaccinate.

Though parents usually trust recommendations from pediatric healthcare providers to make decisions about their child's health, these findings suggest that relying on trusted relationships alone may not be sufficient when discussing COVID-19 vaccines and that additional education to bolster vaccine confidence may be needed.

Pediatric healthcare providers should reinforce the benefits of vaccines for parents who are undecided about COVID-19 vaccines for their children and provide education and evidence-based recommendations to parents who hold erroneous vaccine beliefs about risks, benefits, and current evidence, especially those related to autism.

Pediatric healthcare providers should reinforce the benefits of vaccines for parents who are undecided about COVID-19 vaccines for their children and provide education and evidence-based recommendations to parents who hold erroneous vaccine beliefs about risks, benefits, and current evidence, especially those related to autism.The combination of chemometrics and electrochemical sensors modified with molecularly imprinted polymers (MIPs) towards the development of MIP-based electronic tongues (ETs) was explored herein. To demonstrate the potential of such an approach, the simultaneous determination of paracetamol, ascorbic acid and uric acid mixtures in pharmaceutical samples was evaluated. To this aim, MIP-based sensors for the different compounds were prepared by in situ electropolymerization of pyrrole in the presence of p-toluenesulfonate anion (pTS-), which acted as functional doping ion of the polypyrrole (PPy) MIP backbone. Morphological characterization of the MIPs was done by scanning electron microscopy (SEM), while functionalization of the electrodes was monitored electrochemically. Under the optimized measuring conditions, the developed sensors showed a good performance, with good linearity at the μM level (R2 > 0.992, limits of detection between 1 and 24 μM) as well as good repeatability (intra- and inter-day RSD values between 3 and 6% over 30 consecutive measurements). Finally, the quantification of the individual substances in different pharmaceutical samples was achieved by an artificial neural networks (ANNs) model, showing satisfactory agreement between expected and obtained values (R2 > 0.987).Personal glucose meter (PGM) is one of the most commercially available POC (point-of-care) devices for monitoring the level of glucose reliably, yet its non-glucose quantification ability is limited since such strategy needs ingenious interface design and tedious enzyme conjugation. Herein, we constructed a portable and sensitive platform that can detect non-glucose target by combining enzyme-encapsulated zeolitic imidazole framework-90 (ZIF-90) with personal glucose meter. ZIF-90 is an ideal carrier and susceptor due to the extraordinary capability of packaging enzyme and stimuli-responsiveness. We selected adenosine-5'-triphosphate (ATP) as the target model of non-glucose analytes. Upon ATP-induced decomposition of MOF, the released enzyme (glucose oxidase or invertase) catalyzed substrate and gave rise to the change of the glucose concentration for PGM assay. This method determined ATP with a remarkably sensitivity of 233 nM and effective recovery in real serum samples. Our strategy provides a facile and practical approach for measuring the non-glucose target using PGM, and could potentially be applied in bimolecular detection in point-of-care diagnosis.Raman spectroscopy can realize qualitative and quantitative characterization, and surface-enhanced Raman spectroscopy (SERS) can further enhance its detection sensitivity. In combination with droplet microfluidics, some significant but insurmountable limitations of SERS and Raman spectroscopy can be overcome to some extent, thus improving their detection capability and extending their application. During the past decade, these systems have constantly developed and demonstrated a great potential in more applications, but there is no new review systematically summarizing the droplet microfluidics-based Raman and SERS analysis system since the first related review was published in 2011. Thus, there is a great need for a new review to summarize the advances. In this review, we focus on droplet microfluidics-based Raman and SERS analysis, and summarize two mainstream research directions on this topic up to now. The one is SERS or Raman detection in the moving droplet microreactors, including analysis of molecules, single cells and chemical reaction processes. The other one is SERS active microparticle fabrication via microfluidic droplet templates covering polymer matrix and photonic crystal microparticles. We also comment on the advantages, disadvantage and correlation resolution of droplet microfluidics for SERS or Raman. Finally, we summarize these systems and illustrate our perspectives for future research directions in this field.In China, Wang Bi Granule (WBG)2, composed of 16 herbal and 1 animal-based compounds, is used for clinical treatment of the "Wang Bi" syndrome, commonly referred to as later rheumatoid arthritis (RA) in modern medicine. It is also used in the treatment of ankylosing spondylitis, tuberculous arthritis, and Kashin-Beck disease, which are characterized by joint pain and swelling deformation. However, its pharmacological mechanisms remain unknown. We aimed to characterize the chemical components in WBG and examine the underlying mechanism for RA treatment using integrative pharmacological strategy, including chemical composition detection, efficacy evaluation, and mechanism exploration. We employed UPLC-QTOF-MS/MS to describe the chemical profile of WBG. TNF-α-stimulated RAW264.7 cells were used to simulate the inflammatory processes in RA and evaluate the anti-inflammatory effects of WBG. Network pharmacology was used to determine the mechanism underlying WBG action in RA. A total of 278 chemical components were identified or tentatively characterized. The water extract of WBG improved the imbalance in inflammation in TNF-α-stimulated RAW264.7 cells by regulating 179 differential genes. 55 key active constituents were obtained based on the interactions among "components" targets, RA-related genes, and differential genes (WBG vs TNF-α group) which may ameliorate RA by regulating 161 hub genes primarily involved in inflammation-related pathways. The present study, for the first time, employed integrative pharmacology to characterize the chemical profile of WBG and elucidate its mechanism of action against RA through an inflammation-immune regulatory system.Pulmonary fungal infections lead to damage of the endogenous lung surfactant system. However, the molecular mechanism underlying surfactant inhibition is unknown. β-D-glucan is the major component of pathogenic fungal cell walls and is also present in organic dust, which increases the risk of respiratory diseases. CDK inhibitor review The objective of this study was to characterize the interaction of this D-glucopyranose polymer with pulmonary surfactant. Our results show that β-D-glucan induced a concentration-dependent inhibition of the surface adsorption, respreading, and surface tension-lowering activity of surfactant preparations containing surfactant proteins SP-B and SP-C. Our data support a new mechanism of surfactant inhibition that consists in the extraction of phospholipid molecules from surfactant membranes by β-D-glucan. As a result, surfactant membranes became more fluid, as demonstrated by fluorescence anisotropy, and showed decreased Tm and transition enthalpy. Surfactant preparations containing surfactant protein A (SP-A) were more resistant to β-D-glucan inhibition.