Your search keyword '"Curtiaud A"' showing total 5 results

1. Fibrinolysis as a Causative Mechanism for Bleeding Complications on Extracorporeal Membrane Oxygenation: A Pilot Observational Prospective Study

Author

Helms, Julie, Curtiaud, Anaïs, Severac, François, Tschirhart, Marine, Merdji, Hamid, Bourdin, Matthieu, Contant, Geneviève, Depasse, François, Abou Rjeily, Ramy, Sattler, Laurent, Meziani, Ferhat, and Angles-Cano, Eduardo

Published

2024

2. Fibrinolysis as a causative mechanism for bleeding complications on ECMO: a pilot observational prospective study

Author

Helms, Julie, Curtiaud, Anaïs, Severac, François, Tschirhart, Marine, Merdji, Hamid, Bourdin, Matthieu, Contant, Geneviève, Depasse, François, Abou Rjeily, Ramy, Sattler, Laurent, Meziani, Ferhat, and Angles-Cano, Eduardo

Published

2024

3. Impact of non-invasive oxygen reserve index versus standard SpO2 monitoring on peripheral oxygen saturation during endotracheal intubation in the intensive care unit: Protocol for the randomized controlled trial NESOI2.

Author

Hille, Hugo, Le Thuaut, Aurélie, Asfar, Pierre, Quelven, Quentin, Mercier, Emmanuelle, Le Meur, Anthony, Quenot, Jean-Pierre, Lemiale, Virginie, Muller, Grégoire, Cour, Martin, Ferré, Alexis, Berge, Asael, Curtiaud, Anaïs, Touron, Maxime, Plantefeve, Gaetan, Chakarian, Jean-Charles, Ricard, Jean-Damien, Colin, Gwenhael, Orieux, Arthur, and Girardie, Patrick

Subjects

OXYGEN saturation, INTENSIVE care units, TRACHEA intubation, RANDOMIZED controlled trials, CRITICALLY ill

Abstract

In critically ill patients, endotracheal intubation (ETI) is lifesaving but carries a high risk of adverse events, notably hypoxemia. Preoxygenation is performed before introducing the tube to increase the safe apnea time. Oxygenation is monitored by pulse oximeter measurement of peripheral oxygen saturation (SpO2). However, SpO2 is unreliable at the high oxygenation levels produced by preoxygenation and, in the event of desaturation, may not decrease sufficiently early to allow preventive measures. The oxygen reserve index (ORI) is a dimensionless parameter that can also be measured continuously by a fingertip monitor and reflects oxygenation in the moderate hyperoxia range. The ORI ranges from 0 to 1 when arterial oxygen saturation (PaO2) varies between 100 to 200 mmHg, as occurs during preoxygenation. No trial has assessed the potential effects of ORI monitoring to guide preoxygenation for ETI in unstable patients. We designed a multicenter, two-arm, parallel-group, randomized, superiority, open trial in 950 critically ill adults requiring ETI. The intervention consists in monitoring ORI values and using an ORI target for preoxygenation of at least 0.6 for at least 1 minute. In the control group, preoxygenation is guided by SpO2 values recorded by a standard pulse oximeter, according to the standard of care, the goal being to obtain 100% SpO2 during preoxygenation, which lasts at least 3 minutes. The standard-of-care ETI technique is used in both arms. Baseline parameters, rapid-sequence induction medications, ETI devices, and physiological data are recorded. The primary outcome is the lowest SpO2 value from laryngoscopy to 2 minutes after successful ETI. Secondary outcomes include cognitive function on day 28. Assuming a 10% standard deviation for the lowest SpO2 value in the control group, no missing data, and crossover of 5% of patients, with the bilateral alpha risk set at 0.05, including 950 patients will provide 85% power for detecting a 2% between-group absolute difference in the lowest SpO2 value. Should ORI monitoring with a target of ≥0.6 be found to increase the lowest SpO2 value during ETI, then this trial may change current practice regarding preoxygenation for ETI. Trial registration: Registered on ClinicalTrials.gov (NCT05867875) on April 27, 2023. [ABSTRACT FROM AUTHOR]

Published

2024

4. Ceftazidime/avibactam serum concentration in patients on ECMO

Author

Curtiaud, Anaïs, primary, Petit, Matthieu, additional, Chommeloux, Juliette, additional, Pineton de Chambrun, Marc, additional, Hekimian, Guillaume, additional, Schmidt, Matthieu, additional, Combes, Alain, additional, and Luyt, Charles-Edouard, additional

Published

2024

5. Impact of non-invasive oxygen reserve index versus standard SpO2 monitoring on peripheral oxygen saturation during endotracheal intubation in the intensive care unit: Protocol for the randomized controlled trial NESOI2.

Author

Hille H, Le Thuaut A, Asfar P, Quelven Q, Mercier E, Le Meur A, Quenot JP, Lemiale V, Muller G, Cour M, Ferré A, Berge A, Curtiaud A, Touron M, Plantefeve G, Chakarian JC, Ricard JD, Colin G, Orieux A, Girardie P, Jozwiak M, Rouaud M, Juhel C, Reignier J, and Lascarrou JB

Subjects

Humans, Monitoring, Physiologic methods, Critical Illness, Male, Adult, Female, Middle Aged, Oxygen Saturation, Intubation, Intratracheal methods, Intensive Care Units, Oximetry methods, Oxygen metabolism

Abstract

In critically ill patients, endotracheal intubation (ETI) is lifesaving but carries a high risk of adverse events, notably hypoxemia. Preoxygenation is performed before introducing the tube to increase the safe apnea time. Oxygenation is monitored by pulse oximeter measurement of peripheral oxygen saturation (SpO2). However, SpO2 is unreliable at the high oxygenation levels produced by preoxygenation and, in the event of desaturation, may not decrease sufficiently early to allow preventive measures. The oxygen reserve index (ORI) is a dimensionless parameter that can also be measured continuously by a fingertip monitor and reflects oxygenation in the moderate hyperoxia range. The ORI ranges from 0 to 1 when arterial oxygen saturation (PaO2) varies between 100 to 200 mmHg, as occurs during preoxygenation. No trial has assessed the potential effects of ORI monitoring to guide preoxygenation for ETI in unstable patients. We designed a multicenter, two-arm, parallel-group, randomized, superiority, open trial in 950 critically ill adults requiring ETI. The intervention consists in monitoring ORI values and using an ORI target for preoxygenation of at least 0.6 for at least 1 minute. In the control group, preoxygenation is guided by SpO2 values recorded by a standard pulse oximeter, according to the standard of care, the goal being to obtain 100% SpO2 during preoxygenation, which lasts at least 3 minutes. The standard-of-care ETI technique is used in both arms. Baseline parameters, rapid-sequence induction medications, ETI devices, and physiological data are recorded. The primary outcome is the lowest SpO2 value from laryngoscopy to 2 minutes after successful ETI. Secondary outcomes include cognitive function on day 28. Assuming a 10% standard deviation for the lowest SpO2 value in the control group, no missing data, and crossover of 5% of patients, with the bilateral alpha risk set at 0.05, including 950 patients will provide 85% power for detecting a 2% between-group absolute difference in the lowest SpO2 value. Should ORI monitoring with a target of ≥0.6 be found to increase the lowest SpO2 value during ETI, then this trial may change current practice regarding preoxygenation for ETI. Trial registration: Registered on ClinicalTrials.gov (NCT05867875) on April 27, 2023., Competing Interests: JBL has received lecturing fees from BD and Masimo. Alexis Ferré reports honoraria by Fisher & Paykel for a lecture during the 2022 SFMU Congress, which bears no relation to the submitted work. None of the other authors has any competing interests to disclose. This does not alter our adherence to PLOS ONE policies on sharing data and materials., (Copyright: © 2024 Hille et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024