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High-flow Oxygen for Vaso-occlusive Pain Crisis
Sponsor: Assistance Publique - Hôpitaux de Paris
Summary
Sickle cell disease (SCD) is characterized by recurrent vaso-occlusive pain crisis (VOC), which may evolve to acute chest syndrome (ACS), the most common cause of death among adult patients with SCD. Currently, there is no safe and effective treatment to abort VOC or prevent secondary ACS. Management of VOC mostly involve a symptomatic approach including hydration, analgesics, transfusion, and incentive spirometry, which was investigated in a very limited number of patients (\<30). The polymerisation of HbS is one major feature in the pathogenesis of vaso-occlusion. Among factors determining the rate and extent of HbS polymer formation, the hypoxic stimulus is one of the most potent and readily alterable. Current guidelines recommend oxygen therapy in patients with VOC in order to maintain a target oxygen saturation of 95%. Low-flow nasal oxygen (LFNO) is routinely used to achieve this normoxia approach, particularly in patients at risk of secondary ACS because they may experience acute desaturation. In contrast, various case series suggest a potential beneficial role of intensified oxygen therapy targeting hyperoxia for the management of VOC, particularly with the use of hyperbaric oxygen, but the latter is difficult to implement in routine clinical practice. A recent high-flow nasal oxygen (HFNO) technology allows the delivery of humidified gas at high fraction of inspired oxygen (FiO2) through nasal cannula. The FiO2 can be adjusted up to 100% (allowing hyperoxia that may reverse sickling) and the flow can be increased up to 60 L/min (which generates positive airway pressure and dead space flushing, that may prevent evolution of VOC towards ACS by alleviating atelectasis and opioid-induced hypercapnia). In patients with acute respiratory failure, HFNO has been shown to improve patient's comfort, oxygenation, and survival as compared to standard oxygen or non-invasive ventilation. The aim of the present study is to test the efficacy and safety of HFNO for the management of VOC and prevention of secondary ACS. The investigators will use a multi-arm multi-stage (MAMS) design to achieve these goals. HFNO will be delivered through AIRVO 2 (Fisher and Paykel Healthcare, New Zealand), a device that incorporates a turbine allowing its use in hospital wards.
Official title: A Multicentre, Prospective, Randomized, Multi-arm, Multi-stage Clinical Trial of High-flow Oxygen for Vaso-occlusive Pain Crisis in Adult Patients With Sickle Cell Disease;
Key Details
Gender
All
Age Range
18 Years - Any
Study Type
INTERVENTIONAL
Enrollment
350
Start Date
2020-04-27
Completion Date
2025-11-27
Last Updated
2025-07-28
Healthy Volunteers
No
Conditions
Interventions
Stadard low-flow oxygen
In the control group, standard low-flow oxygen will be delivered via nasal prongs (LFNO), up to hospital discharge or secondary ACS onset, in order to achieve normoxia (target pulse oxymetry saturation of 95%). This strategy is in accordance with current recommendations and usual care
HFNO with low FiO2 (21%-30%)
HFNO with low FiO2 (21%-30%) targeting normoxia: to test the effect of improved pulmonary function
HFNO with intermediate FiO2 (50%)
In this group, FiO2 will be set at 50% during the first 24 hours of intervention to target moderate hyperoxia, then reduced to 21-3025% during the following 48 hours to target normoxia
HFNO with high FiO2 (100%)
In this group, FiO2 will be set at 100% during the first 24 hours of intervention to target intense hyperoxia, then reduced to 21-3025% during the following 48 hours to target normoxia
Locations (1)
Henri Mondor
Créteil, France