The aim of this study is to determine whether restricted fluid intake (135 ±5 mL/kg/day) compared to liberal fluid intake (165 ±5 mL/kg/day) from day 8 of life reduces the incidence of bronchopulmonary dysplasia (BPD) at 36 weeks postmenstrual age or prior death in preterm infants born \<30 weeks gestational age.
Complications of preterm birth remain the leading cause of death in children under five years of age worldwide, accounting for approximately one million deaths annually. Among the survivors, bronchopulmonary dysplasia (BPD) is the most common severe complication. BPD is a chronic lung disease characterized by prolonged need for respiratory support and oxygen therapy, poor postnatal growth, and long-term impairments in lung function and neurodevelopment. Despite advancements in neonatal care, BPD is the most common chronic lung disease in infancy and associated with increased mortality, repeated hospitalisation throughout childhood, impaired lung function up into adulthood, and long-term neurodevelopmental impairment. The incidence of BPD has remained stable over the past 15 years. This is likely due to the improved survival of extremely preterm infants, who are at the highest risk for BPD. A key feature of evolving BPD is the accumulation of interstitial pulmonary edema, which reduces lung compliance and increases the need for respiratory support, thereby perpetuating a cycle of lung damage. Currently, diuretics are sometimes used to manage pulmonary edema in preterm infants. While they can improve lung function in the short term, they come with potential risks including bone demineralization, nephrotoxicity, electrolyte imbalances, and impaired growth. As a potentially safer alternative, fluid restriction is sometimes used to prevent or manage pulmonary edema. It is hypothesized to improve lung mechanics and reduce the need for respiratory support, without the adverse effects associated with medications. However, there is no robust evidence on optimal fluid targets in these patients. SwissNeoNet, consisting of all nine Swiss NICUs, is a mandatory national registry, where data on all infants born before 32 weeks of gestation and/or with a birth weight \< 1501 g are collected. Fluid management practices vary among Swiss neonatal intensive care units (NICUs) following international guidelines recommending 135 to 180 mL/kg/day of fluids. This variation may contribute to the differing rates of BPD and mortality observed across centers, but fluid intake is not routinely captured in SwissNeoNet data, making it difficult to assess its impact. In summary, although fluid restriction shows potential as a simple and low-risk intervention to reduce the incidence of BPD, current evidence is insufficient to support its routine use. There is a clear need for a robust, contemporary, and pragmatic trial to evaluate whether fluid restriction, started after the first week of life, can safely and effectively reduce the incidence of BPD or death in very preterm infants.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
SUPPORTIVE_CARE
Masking
NONE
Enrollment
750
Fluid restriction strategy (fluid target 135 ±5 mL/kg/d)
Liberal fluid intake strategy (fluid target 165 ± 5 mL/kg/d)
Kantonsspital Aarau AG, Klinik für Kinder u. Jugendliche
Aarau, Switzerland
RECRUITINGUniversity Children's Hospital Basel (UKBB)
Basel, Switzerland
RECRUITINGBronchopulmonary dysplasia (BPD)
Proportion of infants with BPD measured at 36 weeks postmenstrual age or prior death.
Time frame: From enrolment to 36 weeks postmenstrual age
Complications of prematurity
Major complications of prematurity including necrotising enterocolitis ≥ Bell's stage 2, retinopathy of prematurity requiring treatment, patent ductus arteriosus requiring treatment, abnormal brain ultrasound, late onset sepsis
Time frame: From enrolment to 36 weeks postmenstrual age
Days to reach full feeds
Days to reach full feeds defined as 150 ml/kg/d or being off parenteral nutrition
Time frame: From enrolment to 36 weeks postmenstrual age
Need of diuretics
Treatment with diuretics (days on diuretics)
Time frame: From enrolment to 36 weeks postmenstrual age
Need of corticosteroids
Systemic postnatal corticosteroids for prevention or treatment of bronchopulmonary dysplasia
Time frame: From enrolment to 36 weeks postmenstrual age
Need of respiratory support
Duration of mechanical ventilation, non-invasive respiratory support, total positive pressure support, supplemental oxygen support, supplemental home oxygen, home ventilation
Time frame: At first discharge home, on average 37 weeks postmenstrual age
Growth
difference in weight, length, and head circumference z-score at 36 weeks postmenstrual age and at birth, respectively
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Inselspital Bern, Kinderklinik
Bern, Switzerland
RECRUITINGKantonsspital Graubünden, Departement Kinder- und Jugendmedizin
Chur, Switzerland
RECRUITINGHôpitaux universitaires de Genève (HUG), Unité de Néonatologie
Geneva, Switzerland
RECRUITINGCentre hospitalier universitaire vaudois (CHUV) - Service de néonatologie
Lausanne, Switzerland
RECRUITINGLuzerner Kantonsspital, Kinderspital
Lucerne, Switzerland
RECRUITINGOstschweizer Kinderspital & Neonatologie und Frauenklinik KSSG, Perinatalzentrum St. Gallen
Sankt Gallen, Switzerland
RECRUITINGUniversitätsSpital Zürich, Klinik für Neonatologie
Zurich, Switzerland
RECRUITINGTime frame: at birth and 36 weeks postmenstrual age
Daily caloric intake
Daily caloric intake from day 8 of life to 36 weeks postmenstrual age
Time frame: From enrolment to 36 weeks postmenstrual age
Dehydration
Dehydration (sodium level ≥ 150 mmol/L plus clinical signs of dehydration)
Time frame: From enrolment to 36 weeks postmenstrual age
Fluid overload
Fluid overload (sodium level ≤ 130 mmol/L plus clinical signs of fluid overload)
Time frame: From enrolment to 36 weeks postmenstrual age
Age at discharge
Postmenstrual age at discharge home
Time frame: At first discharge home, on average 37 weeks postmenstrual age
Tube feeding
Tube feeding at discharge home
Time frame: At first discharge home, on average 37 weeks postmenstrual age