In the neonatal intensive care unit, lung ultrasound was first used for the diagnosis of
neonatal respiratory distress syndrome (RDS) by Avni et al. in 1990. Following this, lung
ultrasound rapidly became widespread in neonatal intensive care units and was seen as a
potential alternative to chest X-rays. It is now frequently used in cases of RDS,
transient tachypnea of the newborn, pneumonia, and pneumothorax. Lung ultrasound has high
specificity, sensitivity, positive predictive value, and negative predictive value. It is
performed quickly at the bedside, allowing for rapid diagnosis and timely intervention.
Respiratory distress syndrome is one of the most common causes of morbidity and mortality
in preterm infants. It results from a surfactant deficiency in the lungs secondary to
preterm birth. Early diagnosis and timely administration of intratracheal surfactant,
which is the only definitive treatment, are crucial. The diagnosis has traditionally
relied on chest X-rays, but with recent advancements, lung ultrasound has also become a
diagnostic tool. In addition to diagnosing RDS, lung ultrasound plays a critical role in
its differential diagnosis, severity classification, and management in neonates.
Different methods can be used for the intratracheal administration of surfactant in the
treatment of neonatal respiratory distress syndrome. Surfactant can be administered
through an endotracheal tube in intubated infants. In non-intubated infants, two commonly
accepted and frequently used methods are available. The first method involves intubating
the infant, administering intratracheal surfactant, and then extubating them back to
nasal respiratory support (ENSURE method). The second method involves delivering
surfactant via a thin catheter (5F) directly into the trachea while the infant remains on
existing nasal respiratory support, without disconnecting them from it (LISA method).
Both of these methods are frequently used in neonatal intensive care units, and multiple
studies comparing them indicate no clear superiority of one over the other.
Many studies utilizing lung ultrasound incorporate lung ultrasound scoring systems. The
first neonatal lung ultrasound score was defined by Brat et al. Each lung is divided into
three regions (upper anterior, lower anterior, and lateral), and each region is assigned
a score from 0 to 3:
0 points: Defined by the presence of only A-lines.
point: Defined by the presence of three or more well-spaced B-lines.
points: Defined by the presence of multiple coalescing B-lines, with or without
small subpleural consolidations.
points: Defined by the presence of large consolidation areas. The total score,
obtained by summing the scores from all lung regions, represents the infant's
overall lung ultrasound score. Scores range from 0 (completely normal) to 18.
Based on existing lung ultrasound studies, this study will evaluate preterm infants born
before 32 weeks gestation who are diagnosed with RDS. Serial lung ultrasounds will be
performed at different time points following surfactant administration (5 minutes, 10
minutes, 20 minutes, 30 minutes, 1 hour, 2 hours, and 6 hours after completion of
surfactant administration), and lung ultrasound scores will be calculated. The aim is to
determine whether different surfactant administration methods result in different lung
ultrasound scores over time.
This study aims to investigate the relationship between the method of surfactant
administration and improvements in serial lung ultrasound findings in preterm infants
requiring surfactant therapy.
The investigators plan to conduct their study at Konya City Hospital between July 2024
and July 2025. Preterm infants born at their hospital at or below 32 weeks of gestation,
diagnosed with RDS, and requiring surfactant therapy without intubation will be included
in the study. The families of the infants planned for inclusion will be informed about
the study, and written consent will be obtained if they agree to participate. Only
infants whose families provide consent will be included. The follow-up process and
treatments of the included infants will not be altered in any way. The method of
surfactant administration will be determined by the attending neonatologist. The
physician performing the ultrasound evaluations and the principal investigator will be
blinded to the method of surfactant administration. The choice of surfactant
administration method will be made solely by the responsible physician.
A total of seven serial lung ultrasound evaluations will be performed at 5 minutes, 10
minutes, 20 minutes, 30 minutes, 1 hour, 2 hours, and 6 hours after the completion of
surfactant administration. Lung ultrasound scoring will be applied (each lung is divided
into three regions: upper anterior, lower anterior, and lateral. Each region is assigned
a score from 0 to 3: 0 points indicate the presence of only A-lines; 1 point indicates
the presence of ≥3 well-spaced B-lines; 2 points indicate multiple coalescent B-lines,
with or without subpleural consolidations; and 3 points indicate large consolidation
areas). All ultrasound evaluations throughout the study will be performed by the same
physician.
The demographic and clinical characteristics of the patients, as well as
prenatal/postnatal risk factors, will be recorded in the patient data collection form.
Additionally, ultrasound scoring results, oxygen requirements, and saturation values will
be documented.
No invasive procedures will be performed on the patients, and no blood samples will be
collected for the study.