Calidad de medición en investigación científica en contexto de gran altitud: a nivel atómico análisis estudio de interlaboratorios, oxido de deuterio por FTIR ­ 2021 / Quality of measurement in scientific research in a high-altitude context: at the atomic level interlaboratory study analysis, deuterium oxide by FTIR ­ 2021

Se presenta conceptos del saber hacer investigación científica asociada a la calidad de las mediciones, y dentro de ella sobre la calidad intrínseca de la medición de variables, dirigida a dos condiciones de la misma: la precisión y exactitud. Se describe formas de evaluación de la precisión como ser el coeficiente de variación y el error técnico de las mediciones. Por otro lado se describe formas de evaluación de la exactitud como son la regresión linear y el puntaje Z. También se sugieren y se describen las acciones y las herramientas para mejorar tanto la precisión como la exactitud. El análisis de agua enriquecida con oxido de deuterio, es una temática que fue tomada en cuenta por la Agencia Internacional de Energía Atómica (IAEA), Viena, Austria, en la gestión 2021, y se organizó una actividad mediante el "Estudio de Interlaboratorios, Oxido de Deuterio por FTIR ­ 2021". El propósito fue asegurar la calidad integral en la capacidad construida en el uso de técnicas de isotopos estables para la evaluación del estado de salud y nutricional. Así mismo, evaluar la calidad de medición de la exactitud relativa sobre el enriquecimiento del agua con óxido de deuterio en 43 laboratorios a nivel internacional, grupo en cual se incluyó al Laboratorio de Biología Atómica (LABA) de la Unidad de Crecimiento y Desarrollo (UCREDE). Se utilizó la regresión linear y el puntaje Z para evaluar la exactitud. Se concluye que los resultados demostraron un muy buen rendimiento en exactitud relativa con los equipos FTIR que midieron el enriquecimiento de deuterio en muestras de agua.

Concepts of knowing how to do scientific research associated with the quality of measurements are presented, and within it on the intrinsic quality of the measurement of variables, aimed at two conditions of the same: precision and accuracy. Forms of precision evaluation are described, such as the coefficient of variation and the technical error of the measurements. On the other hand, forms of accuracy evaluation are described, such as linear regression and Z-score. Actions and tools to improve both precision and accuracy are also suggested and described. The analysis of water enriched with deuterium oxide is a topic that was taken into account by the International Atomic Energy Agency (IAEA), Vienna, Austria, in the 2021 management, and an activity was organized through the Interlaboratory Study, Deuterium Oxide by FTIR ­ 2021. The purpose was to ensure comprehensive quality in the capacity built in the use of stable isotope techniques for the evaluation of health and nutritional status. Likewise, to evaluate the quality of measurement of the relative accuracy of the enrichment of water with deuterium oxide in 43 laboratories at the international level, a group that included the Atomic Biology Laboratory (LABA) of the Growth and Development Unit (UCREDE ). Linear regression and Z-score were used to assess accuracy. It is concluded that the results demonstrated a very good performance in relative accuracy with the FTIR equipment that measured deuterium enrichment in water samples.

Development And Validation Of Sensitive Lc-Esi-Ms/Ms Method For The Simultaneous Estimation Of Dapagliflozin And Saxagliptin In Human Plasma

Objective: To develop and validate a sensitive liquid chromatography-electrospray ionization-tandem mass spectrometric (LC-ESI-MS/MS) technique for the quantification of dapagliflozin and saxagliptin in plasma by linagliptin as internal standard. Methods: Chromatography was achieved on hypersil C18 (50 mmx4 mm) 5 µ analytical column with 0.1% formic acid and acetonitrile (25:75 V/V) as mobile phase at 0.7 ml/min flow rate. Dapagliflozin, saxagliptin, and linagliptin were detected at m/z 409.14/135.0, m/z 316.2/180.13 and m/z 472.54/456.21 respectively. Drugs and internal standard were extracted by LLE (liquid-liquid extraction). Results: Developed technique was validated over 0.5-1500.0 ng/ml linear concentration range for dapagliflozin and 2.00-2000.0 ng/ml for saxagliptin. This method established with intra-batch and inter-batch precision within 2.44-8.12% and 1.25-7.14 % for dapagliflozin and 1.84-7.5 % and 1.02–6.00 % for saxagliptin. This method established with intra-batch and inter-batch accuracy for dapagliflozin within 98.86-103% and 96.98-102 % respectively and for saxagliptin within 98.05-109.06 % and 97.00-104.00 % respectively. Conclusion: Both dapagliflozin and saxagliptin were stable during three freeze-thaw cycles, long term and bench-top stability studies. The developed method was useful for the routine analysis of dapagliflozin and saxagliptin simultaneously in plasma samples.

The Precision and Accuracy Analysis of Target Position in X Ray Stereotactic Radiotherapy / 中华放射肿瘤学杂志

Purpose: To analyze factors which influence the precision & accuracy of target positions in Alderson Head phantom and(or) patients.Materials and Methods: A target position simulator was used to determine the precision and accuracy of target localization while Alderson head phantom used to determine the overall precision and accuracy through the treatment procedure.Results: The overall precision and accuracy through the treatment procedure was found to be 1.72?0.60mm, and its contribution from CT localizing step, which was 1.4?0.3mm。Conclusion: Since there are more factors related to patients' treatment, the precision and accuracy of simulating in Alderson phantom is the best estimate for patient treatment.