Machine for Anesthesia

1. INTRODUCTION

In practice, a simulation was designed to control the supply of anesthesia to patients under normal conditions, with an error of less than 10%. For the design of the equipment with an MPX 5700 dp pressure sensor, it was previously observed to know the values.
The reading obtained from the system, the test for the Arduino board and using a programming code, the conversion required to perform the corresponding calculations was performed. An amplification of Volume and Pressure values was taken into account to ensure the appropriate mixing

2. CONTEXT 

The anesthesia machines designed with circular circuit are completely different from the respirators used for ventilation in critical care areas, which are always open circuit fans. The open circuit in each breath always takes new fresh gases to ventilate the patient, and in the expiratory phase of the patient throws all the gases used outdoors. On the contrary, the circular circuit allows the anesthesiologist to take advantage of the expired gases of the patient, once the CO2 is eliminated, and to use them again to ventilate the patient again and again. This fact determines a saving of economic and environmental costs by reducing the consumption and release of anaesthetic gases. But it creates a series of potentially very dangerous complications

3. DEVELOPMENT, RESULTS AND ANALYSIS OF RESULTS

5. GLOSARY

medicinal gases
states of consent
analgesics
oxygen

6. BIBLIOGRAPHY

• Beaulieu, P., Nathan-Denizot, N., & Feiss, P. (2013). Aparatos de anestesia. EMC-Anestesia-Reanimación, 39(4), 1-27.
• Enciso Nano, J. (2013, January). Anestesia en la cirugía laparoscópica abdominal. In Anales de la Facultad de Medicina(Vol. 74, No. 1, pp. 63-70). UNMSM. Facultad de Medicina.
• McKelvey, D., & Hollingshead, K. W. (2003). Manual de anestesia y analgesia veterinaria. Multimedica Ed. Vet.
• Gómez, J. O. (2008). Anestesia en la hipertermia maligna. Revista Española de Anestesiología y Reanimación, 55(3), 165-174.
• Méndez-Beltrán, M. (2012). Ventilación mecánica en anestesia. Revista Mexicana de Anestesiología, 35(S1), 202-203.