Environmental factors of food insecurity in adolescents: A scoping review protocol.

Food insecurity in recent years has increased worldwide due to many planetary events such as the COVID-19 pandemic, geopolitical conflicts, the climate crisis, and globalization of markets. Adolescents are a particularly vulnerable group to food insecurity, as they enter adulthood with less parental supervision and greater personal autonomy, but less legislative or institutional protection. The experience of food insecurity in adolescents is influenced by several environmental factors at different levels (interpersonal, organizational, community, and societal), although they are not usually addressed in the design of interventions, prioritizing the individual behavioural factors. We present a scoping review protocol for assessing and identifying the environmental factors that could influence adolescents' food insecurity. We used the Preferred Reporting Items for Systematic Reviews and Meta-Analysis Protocols (PRISMA-P) and the PRISMA guidelines for Scoping Reviews (PRISMA-ScR) to prepare the protocol. The search strategy will be performed in the following databases: Pubmed/Medline, EMBASE, Biblioteca Virtual de Salud, EBSCOHost, Scopus, Web of Science, and Cochrane Library Plus. The reference list of the included studies will also be hand-searched. Grey literature will be search through the electronic database Grey Literature Report, and local, provincial, national, and international organisations' websites. Assessment of eligibility after screening of titles, abstract and full text, and the resolution of discrepancies will be performed by three independent reviewers. This scoping review will contribute to refine the "logic model of the problem" which constitutes the first step in the intervention mapping protocol. The "logic model of the problem" from the intervention mapping protocol will serve to classify and analyse the environmental factors. The findings from this review will be presented to relevant stakeholders that have a role in shaping the environmental factors.

MAFLD and glomerular hyperfiltration in subjects with prediabetes, visceral obesity and "preserved" kidney function: A cross-sectional study.

AIMS: To investigate the prevalence of metabolic dysfunction-associated fatty liver disease (MAFLD) in prediabetes, visceral obesity, and preserved kidney function, and explore whether MAFLD is associated with hyperfiltration. METHODS: We analyzed data from 6697 Spanish civil servants, aged 18-65 years, with fasting plasma glucose ≥ 100 and ≤ 125 mg/dL (prediabetes, ADA), waist circumference ≥ 94 cm in men and ≥ 80 cm in women (visceral obesity, IDF) and de-indexed estimated glomerular filtration rate (eGFR) ≥ 60 ml/min, collected during occupational health visits. The association between MAFLD and hyperfiltration (eGFR > age- and sex-specific 95th percentile) was tested by multivariable logistic regression analyses. RESULTS: Overall, 4213 patients (62.9%) had MAFLD, and 330 (4.9%) were hyperfiltering. MAFLD was more frequent in hyperfiltering than in non-hyperfiltering subjects (86.4% vs 61.7%, P < 0.001). BMI, waist circumference, systolic, diastolic, mean arterial pressure, and prevalence of hypertension were higher in hyperfiltering than in non-hyperfiltering subjects (P < 0.05). MAFLD was independently associated with hyperfiltration, even after adjusting for common confounders [OR (95% CI): 3.36 (2.33-4.84), P < 0.001]. In stratified analyses MAFLD potentiated age-related eGFR decline vs. non-MAFLD (P < 0.001). CONCLUSIONS: More than half of subjects with prediabetes, visceral obesity and eGFR ≥ 60 ml/min presented MAFLD that was associated with hyperfiltration and potentiated the age-related eGFR decline.

Fatty Liver Disease in Patients with Prediabetes and Overweight or Obesity.

Non-alcoholic fatty liver disease (NAFLD) is a global health problem associated with liver morbimortality, obesity, and type 2 diabetes mellitus. This study aimed to analyze the prevalence of NAFLD (defined as a fatty liver index [FLI] ≥ 60) and its association with other cardiovascular risk (CVR) factors in patients with prediabetes and overweight/obesity. The present cross-sectional analysis uses baseline data from an ongoing randomized clinical trial. Sociodemographic and anthropometric characteristics, CVR (assessed by the REGICOR-Framingham risk equation), metabolic syndrome (MetS), and FLI-defined NAFLD (cut-off value of ≥60) were assessed. The prevalence of FLI-defined NAFLD was 78% overall. Men exhibited a worse cardiometabolic profile as compared to women, specifically, with higher values of systolic blood pressure (137.02 ± 13.48 vs. 131.22 ± 14.77 mmHg), diastolic blood pressure (85.33 ± 9.27 vs. 82.3 ± 9.12 mmHg), aspartate aminotransferase (AST) (27.23 ± 12.15 vs. 21.23 ± 10.05 IU/L), alanine aminotransferase (ALT) (34.03 ± 23.31 vs. 21.73 ± 10.80 IU/L), and higher CVR (5.58 ± 3.16 vs. 3.60 ± 1.68). FLI-defined NAFLD was associated with elevated AST, ALT, and the presence of MetS (73.7%) and CVR for the whole sample. People with prediabetes present a high burden of comorbidities related to CVR, despite clinical follow-up, and it is recommended to actively begin working with them to reduce their risks.

Implantación de un robot para la elaboración de antineoplásicos / Implementation of a robot for the preparation of antineoplastic drugs in the Pharmacy Service

Objetivo: Describir la implantación de un robot para la elaboración de antineoplásicos en el Servicio de Farmacia y evaluar el valor añadido al proceso farmacoterapéutico. Método: La implantación se llevó a cabo en Junio 2012 en un hospital de tercer nivel, realizándose en dos períodos: 1-Período de pruebas con la instalación del robot, configuración técnica del equipo, validación de 29 principios activos e integración con el software de prescripción electrónica (9 meses); 2-Período de utilización (22 meses). Se impartieron cursos de formación a farmacéuticos y personal de enfermería. Para su funcionamiento el robot emplea reconocimiento fotográfico, identificación por código de barras y controles gravimétricos, que proporcionaron datos de error cometido por preparación, tolerando ±10% y restringiéndolo, tras un estudio piloto, a un intervalo de tolerancia de ±4%. El robot fue programado para reconocer bolsas, infusores, jeringas y viales. El valor añadido se evaluó durante 31 meses con la identificación de los errores de preparación. Resultados: Se realizaron 11.865 preparaciones en el robot, que correspondieron al 40% del global de antineoplásicos elaborados, de 29 principios activos diferentes. Se identificaron y evitaron errores de dosificación en el 1,12% (n=133) de las preparaciones, que no alcanzaron al paciente al ser identificadas por el robot como preparaciones con desviación negativa (-4%) y ser corregidas manualmente. Conclusiones: La implantación de un robot en la elaboración de antineoplásicos permite identificar los errores de elaboración y evitar que lleguen al paciente, promoviendo la seguridad y calidad del proceso farmacoterapéutico de antineoplásicos y reduciendo la exposición del manipulador a los mismos (AU)

Objective: To describe the implementation of a robot for the preparation of antineoplastic drugs in the Pharmacy Service and to be able to analyze the added value to pharmacotherapy. Methods: The implementation was carried out in June 2012 at a tertiary level Hospital, taking place in two periods: 1- test period with the installation of the robot, with technical configuration of the equipment and validation of 29 active ingredients and the integration of electronic prescribing software with the robot application (9 months). 2- Usage period (22 months). On the other hand, training was given to pharmacists and nurses. The robot uses image recognition, barcode identification and gravimetric controls for proper operation. These checks provide information about the error ratio in the preparation, with a margin of ± 10%, which after a pilot study was restricted to a range of ±4%. The robot was programmed to recognize bags, infusion pumps, syringes and vials. The added value was assessed for 31 months by identifying preparation´s errors. Results: 11,865 preparations were made by the robot, which meant approximately 40% of all antineoplastic prepared from 29 different active ingredients. 1.12% (n=133) of the errors were identified by the robot and therefore didn´t reach the patient (negative desviation - 4%). These errors were corrected manually. Conclusion: The implementation of a robot in the preparation of antineoplastic drugs allows to identify errors therefore preventing them to arrive to the patient. This promotes safety and quality of the process, reducing the exposure to cytotoxic drugs from the manipulator (AU)

[Implementation of a robot for the preparation of antineoplastic drugs in the Pharmacy Service]. / Implantación de un robot para la elaboración de antineoplásicos.

OBJECTIVE: To describe the implementation of a robot for the preparation of antineoplastic drugs in the Pharmacy Service and to be able to analyze the added value to pharmacotherapy. METHODS: The implementation was carried out in June 2012 at a tertiary level Hospital, taking place in two periods: 1- test period with the installation of the robot, with technical configuration of the equipment and validation of 29 active ingredients and the integration of electronic prescribing software with the robot application (9 months). 2- Usage period (22 months). On the other hand, training was given to pharmacists and nurses. The robot uses image recognition, barcode identification and gravimetric controls for proper operation. These checks provide information about the error ratio in the preparation, with a margin of ± 10%, which after a pilot study was restricted to a range of ±4%. The robot was programmed to recognize bags, infusion pumps, syringes and vials. The added value was assessed for 31 months by identifying preparation's errors. RESULTS: 11,865 preparations were made by the robot, which meant approximately 40% of all antineoplastic prepared from 29 different active ingredients. 1.12% (n=133) of the errors were identified by the robot and therefore didn't reach the patient (negative desviation - 4%). These errors were corrected manually. CONCLUSION: The implementation of a robot in the preparation of antineoplastic drugs allows to identify errors therefore preventing them to arrive to the patient. This promotes safety and quality of the process, reducing the exposure to cytotoxic drugs from the manipulator.

Objetivo: Describir la implantación de un robot para la elaboración de antineoplásicos en el Servicio de Farmacia y evaluar el valor añadido al proceso farmacoterapéutico. Método: La implantación se llevó a cabo en Junio 2012 en un hospital de tercer nivel, realizándose en dos períodos: 1-Período de pruebas con la instalación del robot, configuración técnica del equipo, validación de 29 principios activos e integración con el software de prescripción electrónica (9 meses); 2-Período de utilización (22 meses). Se impartieron cursos de formación a farmacéuticos y personal de enfermería. Para su funcionamiento el robot emplea reconocimiento fotográfico, identificación por código de barras y controles gravimétricos, que proporcionaron datos de error cometido por preparación, tolerando ±10% y restringiéndolo, tras un estudio piloto, a un intervalo de tolerancia de ±4%. El robot fue programado para reconocer bolsas, infusores, jeringas y viales. El valor añadido se evaluó durante 31 meses con la identificación de los errores de preparación. Resultados: Se realizaron 11.865 preparaciones en el robot, que correspondieron al 40% del global de antineoplásicos elaborados, de 29 principios activos diferentes. Se identificaron y evitaron errores de dosificación en el 1,12% (n=133) de las preparaciones, que no alcanzaron al paciente al ser identificadas por el robot como preparaciones con desviación negativa (-4%) y ser corregidas manualmente. Conclusiones: La implantación de un robot en la elaboración de antineoplásicos permite identificar los errores de elaboración y evitar que lleguen al paciente, promoviendo la seguridad y calidad del proceso farmacoterapéutico de antineoplásicos y reduciendo la exposición del manipulador a los mismos.

Respuesta al caso clínico publicado: tratamiento con urea como alternativa al tolvaptán en el síndrome de secreción inadecuada de la hormona antidiurética / Response to clinical case report: treatment with urea as an alternative to tolvaptan for the syndrome of inappropriate secretion of antidiuretic hormone

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