Microplastic Exposure in Neonates Receiving Parenteral Nutrition: A Prospective Cohort Study in the NICU

Overview

The purpose of this study is to explore a potential exposure risk in the neonatal intensive care unit, namely, the iatrogenic microplastic exposure that critically ill newborns may face when receiving life-saving parenteral nutrition (intravenous nutrition delivered through a plastic infusion system). Therefore, the investigators designed a prospective study. By comparing three groups of newborns-those requiring long-term intravenous nutrition, short-term intravenous nutrition, and no intravenous nutrition-and collecting blood samples with strictly contamination-proof non-plastic instruments, the investigators used high-precision Raman spectroscopy for detection. For the first time, they attempted to systematically and quantitatively analyze the microplastic load in neonatal blood and its relationship with the duration of intravenous nutrition. The aim of this study is to provide novel scientific evidence for evaluating microplastic exposure in the neonatal medical environment, with the ultimate goal of establishing a basis for developing safer clinical practices and medical material standards in the future, thereby better protecting the long-term health of vulnerable newborns.

BACKGROUND: As a new environmental pollutant, microplastics has been found in many tissues of human body. Newborns, especially those who need intensive care and parenteral nutrition, may face a unique and persistent risk of microplastics exposure through plastic medical equipment, but their internal load is not clear. Objective: The purpose of this study is to systematically evaluate the microplastics exposure of newborns in neonatal intensive care unit (NICU) during hospitalization through a prospective observation cohort, focusing on the potential relationship between the duration of parenteral nutrition and microplastics load. Methods: Twelve newborns were recruited in 2025, and were divided into long-term exposure group, short-term exposure group and unexposed control group according to the support time of parenteral nutrition. In this study, blood samples of newborns were collected under strict pollution control, and microplastics in the samples was qualitatively and quantitatively analyzed by confocal micro-Raman spectroscopy.