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Continuous infusion of ketamine in mechanically ventilated children with refractory bronchospasm (1996)

Youssef-Ahmed, M. Z. ; Silver, P. ; Nimkoff, L. ; [et al.]

Springer

Intensive care medicine 22 (1996), S. 972-976

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ISSN: 1432-1238

Keywords: Key words Ketamine infusion ; Asthma ; Bronchiolitis ; Bronchospasm ; Dynamic compliance ; Oxygenation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Objective: To determine whether ketamine infusion to mechanically ventilated children with refractory bronchospasm is beneficial. Design: Retrospective chart review. Setting: Pediatric intensive care unit (PICU) of a children‘s hospital. Patients: Seventeen patients, ages ranging from 5 months to 17 years (mean 6±5.7 years), were admitted to our PICU over a 3-year period and received ketamine infusion during a course of mechanical ventilation. The patients had acute respiratory failure associated with severe bronchospasm due to status asthmaticus (n=11), bronchiolitis caused by respiratory syncytial virus (n=4), and bacterial pneumonia (n=2). Interventions: All patients had been mechanically ventilated for 1–5 days (2.2±1.5 days) and received conventional treatment to relieve bronchospasm for more than 24 h prior to the initiation of ketamine treatment. An intravenous bolus of ketamine of 2 mg/kg, followed by continuous infusions of 20–60 μg/kg per minute (32±10 μg/kg per minute) was administered to all patients without changing their preexisting bronchodilatory regimen. Benzodiazepines were also given intravenously to all patients during the ketamine treatment. Measurements and main results: The PaO2/FIO2 ratio in all patients (n=17) and the dynamic compliance in the volume-preset mechanically ventilated patients (n=12) were calculated. The PaO2/FIO2 ratio increased significantly from 116±55 before ketamine, to 174±82, 269±151, and 248±124 at 1, 8, and 24 h respectively, after the initiation of the ketamine infusion (p〈0.0001). Dynamic compliance increased from 5.78±2.8 cm3/cmH2O to 7.05±3.39, 7.29±3.37, and 8.58±3.69, respectively (p〈0.0001). PaCO2 and peak inspiratory pressure followed a similar trend of improvement with ketamine administration. The mean duration of the ketamine infusion was 40±31 h. One patient required glycopyrrolate 0.4 mg/day to control excessive airway secretions and one patient required an additional dose of diazepam to control hallucinations while emerging from ketamine. All patients were successfully weaned from mechanical ventilation and discharged from the PICU. Conclusion: Continuous infusion of ketamine to mechanically ventilated patients with refractory bronchospasm significantly improves gas exchange and dynamic compliance of the chest.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001340050197

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Electronic Resource

Continuous infusion of ketamine in mechanically ventilated children with refractory bronchospasm (1996)

Youssef-Ahmed, M. Z. ; Silver, P. ; Nimkoff, L. ; [et al.]

Springer

Intensive care medicine 22 (1996), S. 972-976

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Details

ISSN: 1432-1238

Keywords: Ketamine infusion ; Asthma ; Bronchiolitis ; Bronchospasm ; Dynamic compliance ; Oxygenation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Objective To determine whether ketamine infusion to mechanically ventilated children with refractory bronchospasm is beneficial. Design Retrospective chart review. Setting Pediatric intensive care unit (PICU) of a children's hospital. Patients Seventeen patients, ages ranging from 5 months to 17 years (mean 6±5.7 years), were admitted to our PICU over a 3-year period and received ketamine infusion during a course of mechanical ventilation. The patients had acute respiratory failure associated with severe bronchospasm due to status asthmaticus (n=11), bronchiolitis caused by respiratory syncytial virus (n=4), and bacterial pneumonia (n=2). Interventions All patients had been mechanically ventilated for 1–5 days (2.2±1.5 days) and received conventional treatment to relieve bronchospasm for more than 24 h prior to the initiation of ketamine treatment. An intravenous bolus of ketamine of 2 mg/kg, followed by continuous infusions of 20–60 μg/kg per minute (32±10 μg/kg per minute) was administered to all patients without changing their preexisting bronchodilatory regimen. Benzodiazepines were also given intravenously to all patients during the ketamine treatment. Measurements and main results The PaO2/FIO2 ratio in all patients (n=17) and the dynamic compliance in the volume-preset mechanically ventilated patients (n=12) were calculated. The PaO2/FIO2 ratio increased significantly from 116±55 before ketamine, to 174±82, 269±151, and 248±124 at 1, 8, and 24 h respectively, after the initiation of the ketamine infusion (p〈0.0001). Dynamic compliance increased from 5.78±2.8 cm3/cmH2O to 7.05±3.39, 7.29±3.37, and 8.58±3.69, respectively (p〈0.0001). PaCO2 and peak inspiratory pressure followed a similar trend of improvement with ketamine administration. The mean duration of the ketamine infusion was 40±31 h. One patient required glycopyrrolate 0.4 mg/day to control excessive airway secretions and one patient required an additional dose of diazepam to control hallucinations while emerging from ketamine. All patients were successfully weaned from mechanical ventilation and discharged from the PICU. Conclusion Continuous infusion of ketamine to mechanically ventilated patients with refractory bronchospasm significantly improves gas exchange and dynamic compliance of the chest.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02044126

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Energies, Vol. 9, Pages 150: Data Distribution Service-Based Interoperability Framework for Smart Grid Testbed Infrastructure (2016)

Tarek Youssef; Ahmed Elsayed; Osama Mohammed

MDPI Publishing

In: Energies

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Publication Date: 2016-03-03

Description: This paper presents the design and implementation of a communication and control infrastructure for smart grid operation. The proposed infrastructure enhances the reliability of the measurements and control network. The advantages of utilizing the data-centric over message-centric communication approach are discussed in the context of smart grid applications. The data distribution service (DDS) is used to implement a data-centric common data bus for the smart grid. This common data bus improves the communication reliability, enabling distributed control and smart load management. These enhancements are achieved by avoiding a single point of failure while enabling peer-to-peer communication and an automatic discovery feature for dynamic participating nodes. The infrastructure and ideas presented in this paper were implemented and tested on the smart grid testbed. A toolbox and application programing interface for the testbed infrastructure are developed in order to facilitate interoperability and remote access to the testbed. This interface allows control, monitoring, and performing of experiments remotely. Furthermore, it could be used to integrate multidisciplinary testbeds to study complex cyber-physical systems (CPS).

Electronic ISSN: 1996-1073

Topics: Energy, Environment Protection, Nuclear Power Engineering

Published by MDPI Publishing

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