Citas bibligráficas
Castillo, L., (2021). Implementación de un sistema de ergoespirometría para mejorar el diagnóstico de prueba de esfuerzo para pacientes de alto riesgo en centro de salud especializado cardiosalud [Universidad Tecnológica del Perú]. https://hdl.handle.net/20.500.12867/4376
Castillo, L., Implementación de un sistema de ergoespirometría para mejorar el diagnóstico de prueba de esfuerzo para pacientes de alto riesgo en centro de salud especializado cardiosalud []. PE: Universidad Tecnológica del Perú; 2021. https://hdl.handle.net/20.500.12867/4376
@misc{renati/803894,
title = "Implementación de un sistema de ergoespirometría para mejorar el diagnóstico de prueba de esfuerzo para pacientes de alto riesgo en centro de salud especializado cardiosalud",
author = "Castillo Maurtua, Luis Alberto",
publisher = "Universidad Tecnológica del Perú",
year = "2021"
}
The Cardiosalud health center implemented an ergospirometry system also known as a cardiopulmonary stress test, with the aim of improving the service it provides to its patients in the city of Arequipa. The main objective was the implementation of an effort system based on a treadmill, adding a respiratory gas exchange analysis system to improve the diagnosis in patients at risk had an increase in diagnosis of 11% in relation to the periods 2018 to 2019. Likewise, the secondary objectives were met by implementing the treadmill as a base ergometer, being the exercise that engages the greatest number of muscles in an exercise known to the patient; The wireless ECG Flexi electrocardiograph was also implemented as a cardiac measurement instrument, which solved ergonomic problems by reducing cumbersome connections and drastically reducing the appearance of thermal noise, movement artifacts and the disappearance of line noise due to not being connected to the line. alternating current. On the other hand, the implementation of the gas analyzer provided the center's experts with the measurement of ventilatory parameters and gas exchange in percentage of inspired and exhaled oxygen and carbon dioxide from the patients following the Wasserman criteria, as well as allowing spirometry tests to be carried out. at rest that were used to determine the respiratory capacity of the patient prior to submitting it to the physical stress test. The software implemented by the company BTL Industries Cardiopoint® in conjunction with BTL Piston XP provided a solution by implementing a database of patients to store the results in addition to having the sudden death module for the analysis of the electrocardiograms under the criteria be Seattle. That said, after a year with the good results obtained to date, with the approval of the experts from the Cardiosalud center, the expected objectives have been achieved with great expectation of improvement in the future.
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