Effect Partial Digested Triglycerides on Supply Long-chain Fatty Acids to Very Preterm Newborns

Summary

Main objective: To determine the bioavailability of long-chain fatty acids in very preterm newborns after administering a supplement from the first days of life until 36 weeks postmenstrual age compared to children who did not receive the supplement.

The primary variable will be assessed by measuring the increase in the proportion of docosahexaenoic acid and arachidonic acid in plasma phospholipids. 1 ml of the milk received by the child will be collected to evaluate fatty acid intake naturally at 10, 21 days, and 36 weeks postmenstrual age. Stool samples from the child will also be collected at all time points to evaluate the elimination of the supplement.

Secondary objectives: 1. Determine the influence of different polymorphisms (SNPs) on the proportion of fatty acids in plasma phospholipids at birth and after the intervention. This will be evaluated through the analysis of genes related to fatty acid metabolism in buccal mucosa cells. 2. Determine the effect of supplementation on: • Changes in the microbiota from birth to the end of the intervention. • Maturation of brain function. • Brain size. • Lung development. • Growth. Evaluated through: • Metataxonomics • Amplitude-integrated electroencephalography (aEEG) at 34 weeks postmenstrual age (PMA). One channel (P3-P4). aEEG traces were recorded for at least 4 hours using the NicoletOne® EEG system monitor (Natus Medical Inc., CA, United States). The tracings will be evaluated following the maturation scoring system developed by Burdjalov et al.

* Cranial ultrasounds (cUS) will be performed at 36 weeks PMA (Canon R, Aplio 500; transducer set at 8-10 MHz). All linear measurements on cUS will be blinded. cUS measurements will be obtained in the following planes:

* mid-coronal plane at the level of the foramina of Monro (anterior horn width, ventricular index, ventricle-to-brain ratio, frontal white matter height, interhemispheric fissure and subarachnoid space, coronal atrial plane \[ventricular width at midbody\]),
* mid-sagittal plane (corpus callosum width and length, corpus callosum-fastigium length, vermis height and A-P width),
* parasagittal plane through the lateral ventricles (thalamo-occipital distance of the lateral ventricles), and
* mastoid view (coronal transverse cerebellar diameter). The following cUS variables will be collected: intraventricular hemorrhage, post-hemorrhagic ventriculomegaly, cerebellar hemorrhage, and white matter injury.
* Respiratory severity was also assessed using the SatO2/FiO2 ratio, the non-invasive pulse oximetry ratio SatO2/FiO2 which estimates the PaO2/FiO2 ratio, or between peripheral oxygen saturation by pulse oximetry (Nellcor™ SpO₂ bedside monitoring system, PM100N, (Covidien, Boulder, Colorado, USA)) and the fraction of inspired oxygen (FiO2, via ventilator, CPAP devices, or oximeters).

* Birth weight (g), length (cm), and head circumference (HC, cm) will be recorded at birth, 21 days, and 36 PMA at discharge.
* Z-scores will be calculated using the revised Fenton growth charts.
* The Z-score difference between 36 weeks and birth will be calculated for weight, length, and HC.
* Additionally, growth velocity will be calculated using the following equation:

Weight velocity is reported as g/kg/day and length and HC as cm/day Weight velocity = (1000 \* Ln (Weight at 36 PMA / birth weight)) / Number of days Length and HC velocity = (Length or HC at 36 PMA / Length or HC at birth) / Number of days

Safety: To monitor patients' well-being in this study, the following will be performed:

* Risk of adverse events and serious adverse events.
* Medication use
* Complete blood count Design: One arm, comparison with controls recruited in the recently completed Mead Johnson study. Enrolled children will receive supplementation with fatty acids, ARA and DHA at 160 and 80 mg/kg/day, respectively. It will start once consent is obtained and continue until discharge or 36 weeks, whichever comes first.

Study product: Product of enzymatic glycerolysis of arachidonic acid oil and microalgae oil. Product fatty acid profile in %: Arachidonic 20:4 35.94; DHA C22:6 18.17.

Study population: Preterm newborns under 32 weeks of gestational age at birth. Inclusion criteria:- Informed consent, \< 32 weeks of gestational age Duration of intervention: Until discharge or 36 weeks, whichever occurs first. Sample size: n = 15 has been established according to previous results from a study with similar characteristics and with the studies conducted in the two projects funding this study.

Analysis: The increase in the percentage of polyunsaturated fatty acids in plasma phospholipids from birth to week 36 will be analyzed.

Conditions

• Plasma Concentration

Interventions

DIETARY_SUPPLEMENT

Measure long-chain fatty acids in plasma after administration of a supplement from the first days of life until 36 weeks postmenstrual age

Long-chain fatty acids in plasma after administration of a supplement from the first days of life until 36 weeks postmenstrual age

Sponsors & Collaborators

• Hospital Universitario La Paz

  lead OTHER

Study Design

Allocation

NON_RANDOMIZED

Purpose

BASIC_SCIENCE

Masking

NONE

Model

SEQUENTIAL

Eligibility

Min Age

0 Days

Max Age

1 Day

Sex

ALL

Healthy Volunteers

Yes

Timeline & Regulatory

Start

2024-04-11

Primary Completion

2026-03-31

Completion

2026-03-31

Countries

• Spain

Study Locations