ABSTRACT
This research aims to produce an authentic assessment for fundamental forehand and backhand groundstroke techniques, using the actions method of learning outcomes in tennis courses, for students at Yogyakarta State University's (FIK UNY) Faculty of Sports and Health Sciences. This study employed development research with a 4D model (Define, Design, Development, and Disseminate). This research was implemented through the preliminary research stage, designing assessment instruments, and validating the instrument model developed. In this study, 30 students were chosen to sample using a purposive sampling strategy, with 5 experts serving as validators. Data was collected through questionnaires and expert validation with the Delphi technique. The collected data is analyzed and concluded. Based on the analysis of the collected data, it can be concluded that authentic assessment instruments of fundamental forehand and backhand groundstrokes techniques using the Actions Method are needed to evaluate the learning objectives of tennis courses for students at FIK UNY. This assessment model can be used to evaluate the learning outcomes of tennis courses for FIK UNY students. It makes it easy for lecturers to evaluate students' learning outcomes authentically, has excellent validity, and has a high rater reliability coefficient.
ABSTRACT
ABSTRACT Introduction: Dexamethasone is a type of drug that is considered a steroid. It belongs to a class of drugs known as corticosteroids. Objective: Develop an electrochemical sensor of dexamethasone in a pharmaceutical sample using electrodes modified with nanostructures of MnO2 and reduced graphene oxide (MnO2/rGO). The glassy carbon electrodes (GCE) used to make the GO nanostructures were first modified using a modified Hummers technique before electrochemically reduced. Methods: MnO2 nanomaterials were electrochemically deposited on rGO/GCE. SEM structural investigation indicated vertical tetragonal crystal development of -MnO2 nanostructures in sprayed rGO nanostructures. Results: Because of the high composite surface area, multiple exposed active sites, and the synergistic effect of MnO2 and rGO, the electrocatalytic reaction to dexamethasone of MnO2/rGO/CPE was shown to be broad, selective, stable, and sensitive in electrochemical tests using amperometry. It was established that the linear range, sensitivities, and detection limit of the sensor are 0 to 260 µM, 4.6153µA/µM and 0.005 µM, respectively. The MnO2/rGO/CPE was tested for accuracy and applicability in determining dexamethasone in pharmacological and human urine samples. Conclusion: The results revealed that the sensor could prepare acceptable recovery (96.34%) and RSD (3.58%), suggesting that it could be used as a reliable dexamethasone sensor in clinical samples. Level of evidence II; Therapeutic studies - Investigation of treatment outcomes.
RESUMO Introdução: A dexametasona é um tipo de medicamento considerado um esteróide. Pertence a uma classe de medicamentos conhecida como corticosteróides. Objetivo: Este estudo teve como objetivo desenvolver um sensor eletroquímico de dexametasona em uma amostra farmacêutica utilizando eletrodos modificados com nanoestruturas de MnO2 e óxido grafeno reduzido (MnO2/rGO). Os eletrodos de carbono vítreo (GCE), que foram utilizados para fazer as nanoestruturas GO, foram primeiramente alterados através de uma técnica Hummers modificada antes de serem reduzidos eletroquimicamente. Métodos: Os nanomateriais de MnO2 foram depositados eletroquimicamente no rGO/GCE. A investigação estrutural do SEM indicou o desenvolvimento vertical do cristal tetragonal de -MnO2 nanoestruturas em nanoestruturas de rGO pulverizadas. Resultados: Em virtude da alta área de superfície composta, dos múltiplos locais ativos expostos e do efeito sinérgico de MnO2 e rGO, a reação eletrocatalítica à dexametasona de MnO2/rGO/CPE mostrou ser ampla, seletiva, estável e sensível nos testes eletroquímicos utilizando a amperometria. Foi estabelecido que o alcance linear, sensibilidades e limite de detecção do sensor são de 0 a 260 µM, 4,6153µA/µM e 0,005 µM, respectivamente. O MnO2/rGO/CPE foi testado para precisão e aplicabilidade na determinação de dexametasona em amostras farmacológicas e de urina humana. Conclusão: Os resultados revelaram que o sensor é capaz de preparar uma recuperação aceitável (96,34%) e RSD (3,58%), sugerindo que ele poderia ser usado como um sensor de dexametasona confiável em amostras clínicas. Nível de evidência II; Estudos terapêuticos - Investigação dos resultados do tratamento.
RESUMEN Introducción: La dexametasona es un tipo de fármaco considerado como un esteroide. Pertenece a una clase de medicamentos conocidos como corticosteroides. Objetivo: Este estudio tiene como objetivo desarrollar un sensor electroquímico de dexametasona en una muestra farmacéutica utilizando electrodos modificados con nanoestructuras de MnO2 y óxido de grafeno reducido (MnO2/rGO). Los electrodos de carbono vítreo (GCE), que se utilizaron para fabricar las nanoestructuras de GO, se modificaron primero mediante una técnica de Hummers modificada antes de ser reducidos electroquímicamente. Métodos: Los nanomateriales de MnO2 se depositaron electroquímicamente sobre rGO/GCE. La investigación estructural por SEM indicó el desarrollo vertical del cristal tetragonal de las nanoestructuras de -MnO2 en las nanoestructuras de rGO pulverizadas. Resultados: En virtud de la elevada área superficial del compuesto, los múltiples sitios activos expuestos y el efecto sinérgico del MnO2 y el rGO, la reacción electrocatalítica a la dexametasona del MnO2/rGO/CPE demostró ser amplia, selectiva, estable y sensible en pruebas electroquímicas mediante amperometría. Se estableció que el rango lineal, las sensibilidades y el límite de detección del sensor son de 0 a 260 µM, 4,6153µA/µM y 0,005 µM, respectivamente. Se probó la precisión y aplicabilidad del MnO2/rGO/CPE en la determinación de dexametasona en muestras farmacológicas y de orina humana. Conclusión: Los resultados revelaron que el sensor es capaz de preparar una recuperación aceptable (96,34%) y una RSD (3,58%), lo que sugiere que podría utilizarse como un sensor fiable de dexametasona en muestras clínicas. Nivel de evidencia II; Estudios terapéuticos - Investigación de los resultados del tratamiento.
ABSTRACT
The study purpose was investigated the effect of aerator masks on the oxygen saturation (SO2) of mentally retarded athletes compared to medical masks. The researcher used a comparative study. Parametric test was used to test the difference in SO2 percent and evaluate the questionnaire in the two groups. The results showed after undergoing exercise, SO2 percent in participants was 94.60±0.55 for aerator masks and 96.60±0.55 for medical masks. The study also showed that there was no significant difference in SO2 percent of participants wearing aerator masks and medical masks. However, the decrease in oxygen saturation percent of participants wearing aerator masks experienced a lower decrease, 1.60±0.55 compared to medical masks of 2.00±1.00. On the other hand, wearing an aerator mask is better because it does not prevent maximum performance, better comfort, the mask material feels better on the skin, does not experience difficulties breathable, and suitable for exercise. An aerator mask is a mask with an adequate supply of oxygen so that every breath is maintained even when used during sports activities.
