Conectar
Delirium is one of the most common forms of acute cerebral dysfunction in critically ill children, leading to increased morbidity and mortality. The aim was to identify studies describing or evaluating non-pharmacological interventions to prevent or treat paediatric delirium.
Scoping review.
Searches were performed in Medline, CINAHL, Cochrane Library, Ovid (Journals), EMBASE and Web of Science from January 2000 to April 2023. A hand search and update were conducted on 01 June 2024.
We included studies involving critically ill children (0–18 years) in intensive care settings that examined non-pharmacological interventions for the prevention or treatment of paediatric delirium. Only empirical studies and reviews with transparent methodology were considered.
Title and abstract screening and full-text review of articles were conducted by two reviewers based on prespecified inclusion criteria. Two reviewers extracted relevant information from the included studies in tabular form. Extracted variables included publication year, title, author(s), country, setting, population and age, design, sample size, intervention components, outcome(s) and findings.
Nine studies were included. In total, 16 different intervention components were identified. The most frequently reported components for preventing and treating paediatric delirium were promoting mobilisation, encouraging family presence and involvement, improving sleep, and standardised instruments or checklists for underlying aetiology. Most intervention studies were before-and-after studies; overall, seven different outcomes were used. Study results regarding the effects of delirium were inconsistent.
Various non-pharmacological interventions are currently described to mitigate paediatric delirium, but the underlying evidence is limited. High-quality intervention research using relevant and comparable outcomes is needed to evaluate the effect of non-pharmacological interventions. Despite employing a comprehensive search strategy, we must consider the possibility that relevant articles were overlooked.
The prevalence of food allergies, particularly IgE-mediated allergies, is rising in developed countries, with cashew nut allergy emerging as a significant public health concern due to its potential for severe anaphylaxis and frequent association with atopic disorders. Cashew nuts are among the most common allergens in Europe and Australia, often involving cosensitisation with pistachios, hazelnuts and other allergens. Diagnosis relies on clinical history, measurement of specific IgE (sIgE) levels, skin prick tests (SPT) and oral food challenges (OFCs). Current management strategies focus on allergen avoidance and emergency interventions, whereas oral immunotherapy (OIT) represents a promising approach to desensitisation. Recent studies, including the NUT CRACKER trial, have reported high desensitisation rates with cashew OIT, although these are associated with a risk of adverse events. This study introduces a novel randomised controlled trial aimed at evaluating the efficacy and safety of cashew immunotherapy in children.
This randomised, open-label, parallel-group trial, with a 2:1 allocation ratio, will be conducted at the Department of Paediatric Pneumology and Allergology, Medical University of Warsaw, Poland. Thirty-nine children, aged 4–17 years, with confirmed IgE-mediated cashew allergy via open OFC will be enrolled. Participants in the experimental group will undergo OIT, which involves gradually increasing doses of cashew protein up to a maintenance dose of 1200 mg. The duration of OIT will range from 12 to 60 weeks, depending on individual baseline tolerance. The control group will receive standard management, including strict cashew avoidance and emergency response strategies to accidental exposure, for 1 year.
The primary endpoint is to determine the proportion of participants tolerating a 4043 mg dose of cashew protein at the study’s end in the OIT group compared with the control group. Secondary outcomes include evaluating the safety profile of OIT, assessing changes in laboratory markers such as sIgE and IgG4 levels for cashew and the major cashew allergen Ana o 3, analysing basophil activation test responses and measuring changes in SPT wheal diameter at baseline and study completion.
The study has been approved by the Ethics Committee of the Medical University of Warsaw (approval number: KB/267/2023). Study findings will be published in peer-reviewed journals and presented at international conferences.
Uncertainty exists as to what extent common risk factors are involved in the associations of unemployment with major health outcomes and mortality.
A retrospective and prospective observational study.
A large population-based French cohort (CONSTANCES).
99 430 adults at baseline who have been exposed to unemployment during their lifetime and 54 679 of them who were followed for 7 years after baseline.
Testing the mediating roles of several risk factors at baseline in the associations of lifetime unemployment exposure with cardiovascular disease, cancer and mortality rates during a 7-year follow-up. Direct and indirect effects were calculated for each risk factor and all together using logistic regression models adjusted for major confounders including sex, age, parental histories of cardiovascular disease and cancer, social position and working conditions.
Estimates (95% CIs) of the direct and indirect effects for smoking are 0.0083 (0.0044 to 0.0122), p
These analyses show that common risk factors such as smoking, alcohol consumption, depressive symptoms, leisure-time physical inactivity and blood triglycerides mediate up to 10% of the associations of lifetime unemployment exposure with cardiovascular disease, cancer and mortality rates when tested separately and approximately 20% when tested all together. This highlights the existence of other major mediating pathways that have yet to be identified.
Aging populations require adapting healthcare systems for older adult's specific needs. Numerous initiatives to improve older-patient care have emerged, but the field lacks a unified framework. The current study aims to provide a systematic concept analysis of ‘age-friendly healthcare’, examining its characteristics, components and structure.
Rodger's evolutionary concept analysis.
Searches were conducted in ProQuest, CINAHL, PubMed and Scopus databases between November 2022 and October 2023, utilising the PRISMA 2020 reporting checklist.
A literature search using specific terms relevant to age-friendly healthcare retrieved 1407 articles. After screening for duplicates and relevance, 140 articles were examined for eligibility based on inclusion criteria for age-friendly care, language and full-text availability. Following full-text screening, 65 articles were included for data extraction by multiple researchers to synthesise theoretical, methodological and design elements.
Our findings highlight key attributes of age-friendly healthcare: Respect for older adults' autonomy and needs; leadership and organisational knowledge and support; Proactive policies and processes of care; holistic care environments; and communication and follow-up with awareness of challenges and barriers as well as prioritisation of continuity-of-care.
The concept of age-friendly healthcare is still developing, with much research focused on development and implementation rather than evaluation of real-world patient and health-system outcomes. Our analysis of the concept may help unify the field and clarify future research directions through identification of areas requiring further study and enable development of improved practices and policies for implementing age-friendly healthcare in a variety of settings.
This concept analysis did not include any patient or public involvement.
This study utilised the PRISMA reporting checklist.
by Krzysztof Kusy, Jan Matysiak, Zenon J. Kokot, Monika Ciekot-Sołtysiak, Agnieszka Klupczyńska-Gabryszak, Ewa Anna Zarębska, Szymon Plewa, Paweł Dereziński, Jacek Zieliński
Circulating blood is an important plasma free amino acids (PFAAs) reservoir and a pivotal link between metabolic pathways. No comparisons are available between athletes with opposite training adaptations that include a broader spectrum of both proteinogenic and non-proteinogenic amino acids, and that take into account skeletal muscle mass. We hypothesized that the levels of the exercise-induced PFAAs concentration are related to the type of training-related metabolic adaptation. We compared highly trained endurance athletes (n = 11) and sprinters (n = 10) aged 20‒35 years who performed incremental exercise until exhaustion. Venous blood was collected before and during the test and 30-min recovery (12 samples). Forty-two PFAAs were assayed using LC-ESI-MS/MS technique. Skeletal muscle mass was estimated using dual X-ray absorptiometry method. Glutamine and alanine were dominant PFAAs throughout the whole exercise and recovery period (~350‒650 μmol∙L-1). Total, combined proteinogenic, non-essential, and non-proteinogenic PFAAs levels were significantly higher in endurance athletes than sprinters (ANOVA group effects: p = 0.007, η2 = 0.321; p = 0.011, η2 = 0.294; p = 0.003, η2 = 0.376; p = 0.001, η2 = 0.471, respectively). The exercise response was more pronounced in endurance athletes, especially for non-proteinogenic PFAAs (ANOVA interaction effect: p = 0.038, η2 = 0.123). Significant between-group differences were observed for 19 of 33 PFAAs detected, including 4 essential, 7 non-essential, and 8 non-proteinogenic ones. We demonstrated that the PFAAs response to incremental aerobic exercise is associated with the type of training-related metabolic adaptation. A greater turnover and availability of circulating PFAAs for skeletal muscles and other body tissues is observed in endurance- than in sprint-trained individuals. Non-proteinogenic PFAAs, despite low concentrations, also respond to exercise loads, indicating their important, though less understood role in exercise metabolism. Our study provides additional insight into the exercise-induced physiological response of PFAAs, and may also provide a rationale in discussions regarding dietary amino acid requirements in high-performance athletes with respect to sports specialization.by Kamila Roszczyc-Owsiejczuk, Monika Imierska, Emilia Sokołowska, Mariusz Kuźmicki, Karolina Pogodzińska, Agnieszka Błachnio-Zabielska, Piotr Zabielski
Prolonged consumption of diet rich in fats is regarded as the major factor leading to the insulin resistance (IR) and type 2 diabetes (T2D). Emerging evidence link excessive accumulation of bioactive lipids such as diacylglycerol (DAG) and ceramide (Cer), with impairment of insulin signaling in skeletal muscle. Until recently, little has been known about the involvement of long-chain acyl-CoAs synthetases in the above mechanism. To examine possible role of long-chain acyl-coenzyme A synthetase 1 (Acsl1) (a major muscular ACSL isoform) in mediating HFD-induced IR we locally silenced Acsl1 in gastrocnemius of high-fat diet (HFD)-fed C57BL/6J mice through electroporation-delivered shRNA and compared it to non-silenced tissue within the same animal. Acsl1 down-regulation decreased the content of muscular long-chain acyl-CoA (LCACoA) and both the Cer (C18:1-Cer and C24:1-Cer) and DAG (C16:0/18:0-DAG, C16:0/18:2-DAG, C18:0/18:0-DAG) and simultaneously improved insulin sensitivity and glucose uptake as compared with non-silenced tissue. Acsl1 down-regulation decreased expression of mitochondrial β-oxidation enzymes, and the content of both the short-chain acylcarnitine (SCA-Car) and short-chain acyl-CoA (SCACoA) in muscle, pointing towards reduction of mitochondrial FA oxidation. The results indicate, that beneficial effects of Acsl1 partial ablation on muscular insulin sensitivity are connected with inhibition of Cer and DAG accumulation, and outweigh detrimental impact of decreased mitochondrial fatty acids metabolism in skeletal muscle of obese HFD-fed mice.
FreshRSS 