Automated Closed Loop Control of Inspired Oxygen Concentration

Claure, Nelson; Bancalari, Eduardo

doi:10.4187/respcare.01955

Cited by 75 publications

(70 citation statements)

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“…Hypoventilation after episodes of active breathing during mechanical ventilation has been previously described as important contributor to desaturations Step size adjuster Safety check in ventilated preterm children (36). Automated FiO 2 control might be ineffective in prevention of hypoxic spells (27). However, our data suggest that automated control prevented episodes below target and might therefore have an effect on these episodes, as hypoxic spells have been associated with lower average SpO 2 levels (37).…”

Section: Discussioncontrasting

confidence: 53%

“…Several clinical trials with different devices have proven feasibility of automated closed loop FiO 2 control in the NICU for various modes of ventilation, mixed populations, and by using different algorithms (14,(21)(22)(23)(24)(25)(26). In addition, an overall reduction of manual interventions during automated control was found in these studies, indicating facilitation of caretakers and nursing staff in clinical routine (27,28). However, at least one study raised concerns about safety, as time within target range was accompanied by an increase in time spent below saturation target range (25).…”

mentioning

confidence: 74%

“…The average number of adjustments during resuscitation was similar in both groups (median 27, IQR (17)(18)(19)(20)(21)(22)(23)(24)(25)(26)(27)(28)(29)(30)(31)(32)(33)(34)(35) vs. 28 (20)(21)(22)(23)(24)(25)(26)(27)(28)(29)(30)(31)(32)(33)(34)(35)(36); P = 0.796). (Figure 1b), however the oxygen need was highly variable in both the automated (IQR (0.52-0.98)) and the manual group (IQR (0.37-0.72)).…”

Section: Resuscitationmentioning

confidence: 96%

“…In addition, an overall reduction of manual interventions during automated control was found in these studies, indicating facilitation of caretakers and nursing staff in clinical routine The first two authors contributed equally to this work. Articles Hütten et al (27,28). However, at least one study raised concerns about safety, as time within target range was accompanied by an increase in time spent below saturation target range (25).…”

mentioning

confidence: 99%

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Fully automated predictive intelligent control of oxygenation (PRICO) in resuscitation and ventilation of preterm lambs

et al. 2015

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Articles Translational Investigation nature publishing groupBackground: Hyperoxia and hypoxia influence morbidity and mortality of preterm infants. Automated closed-loop control of the fraction of inspired oxygen (FiO 2 ) has been shown to facilitate oxygen supplementation in the neonatal intensive care unit (NICU), but has not yet been tested during preterm resuscitation. We hypothesized that fully automated FiO 2 control based on predefined oxygen saturation (SpO 2 ) targets was applicable in both preterm resuscitation and ventilation. Methods: Twenty-two preterm lambs were operatively delivered and intubated in a modified EXIT procedure. They were randomized to receive standardized resuscitation with either automated or manual FiO 2 control, targeting SpO 2 according to the Dawson curve in the first 10 min and SpO 2 90-95% hereafter. Automated FiO 2 control also was applied during surfactant replacement therapy and subsequent ventilation. results: Time within target range did not differ significantly between manual and automated FiO 2 control during resuscitation, however automated FiO 2 control significantly avoided hyperoxia. Automated FiO 2 control was feasible during surfactant replacement and kept SpO 2 within target range significantly better than manual control during subsequent ventilation. conclusion: In our model, fully automated FiO 2 control was feasible in rapidly changing physiologic conditions during postnatal resuscitation and prevented hyperoxia. We conclude that closed loop FiO 2 control is a promising tool for the delivery room.o xygen supplementation is one of the most common therapeutic interventions in resuscitation and neonatal intensive care of term and preterm infants (1). However, both hypoxia and hyperoxia must be avoided because of their detrimental effects on morbidity and mortality in these children. While hypoxia may lead to direct and indirect cellular damage, hyperoxia has been associated with oxygen toxicity, oxidative stress (2), and chronic diseases of preterm infants such as bronchopulmonary dysplasia (3) and retinopathy of prematurity (4).Increase in oxygenation after birth is a gradual process (5). Measurement of oxygen saturation (SpO 2 ) by pulse oximetry in the delivery room is feasible in newborn resuscitation (6) and in preterm infants within the first minutes of life (7). SpO 2 reference values of preterm infants increase within the first 10 min of life (5). This has led to SpO 2 target values incorporated in the current European Resuscitation Council guidelines on resuscitation of newborns (8). In order to avoid hyperoxia, current recommendations advise resuscitation of preterm infants with a mixture of air and oxygen, and to use fraction of inspired oxygen (FiO 2 ) between 0.21 and 0.30 (9). FiO 2 should subsequently be titrated according to SpO 2 (10,11). General use of pulse oximetry has been shown to extensively reduce O 2 -derived toxicity in preterm infants (12). However, keeping SpO 2 manually within changing saturation limits during a hectic period of resu...

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Section: Discussioncontrasting

confidence: 53%

mentioning

confidence: 74%

Section: Resuscitationmentioning

confidence: 96%

mentioning

confidence: 99%

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Fully automated predictive intelligent control of oxygenation (PRICO) in resuscitation and ventilation of preterm lambs

et al. 2015

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“…Por otra parte, la oxigenación insuficiente también ha sido asociada con efectos perjudiciales en el cerebro, problemas pulmonares y permeabilidad del ducto arterioso [8,5].…”

Section: Introductionunclassified

Diseño de un sistema médico asistencial de autorregulación de oxígeno por monitoreo no invasivo, basado en lógica difusa

2014

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RESUMENEn este artículo de investigación científica y desarrollo tecnológico, se presenta el diseño de un sistema de control de autorregulación de oxígeno, mediante lógica difusa, que permite suministrar a un paciente una cantidad exacta de la fracción inspirada de oxígeno FIO 2 teniendo en cuenta los niveles de saturación de oxígeno. Para tal efecto, se realizó el modelado matemático de la curva de disociación de hemoglobina a partir de datos obtenidos por oximetría que relacionan la saturación de oxígeno O 2 y la presión de oxígeno PAO 2 . Posteriormente, se realizó el modelado de una válvula proporcional para aplicaciones médicas, la cual recibe una señal de corriente obtenida a partir de la mezcla de aire y oxígeno. Finalmente se diseñó el controlador difuso tipo Sugeno con una entrada, una salida para la apertura de la válvula y once reglas difusas definidas a partir de la entrevista con especialistas. De esta forma se realizó una investigación del tipo factible soportada en un diseño de campo y en uno documental. Los resultados obtenidos demostraron la efectividad del controlador difuso para mantener la válvula en un nivel exacto de FIO 2 compuesto por la mezcla de aire y oxígeno.Palabras clave: Lógica difusa; Autorregulación de oxígeno; Fracción inspirada de oxígeno; Saturación de oxígeno; Presión de oxígeno. ABSTRACTThis research presents the design of an oxygen auto-regulation control system based on fuzzy logic, which allows delivering an exact quantity of the fraction of inspired oxygen FIO 2 to the patient based on the oxygen saturation levels. For this, it was performed the math modeling of hemoglobin dissociation curve from data obtained by oximetry relating oxygen saturation O 2 and Oxygen pressure PAO 2 . Then, a proportional valve for medical applications was modeled; this receives a current signal obtained from the air-oxygen blend. Finally, it was designed a fuzzy controller from the Sugeno type with one input, one output for the valve and eleven fuzzy rules specified from the interview with medical specialists. A feasible type research was done, supported on a field design and a documentary one. Results shown the effectiveness of the fuzzy controller to keep the valve to an exact level of FIO 2 consisting of an air-oxygen blend.

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