Meconium aspiration syndrome

Meconium aspiration syndrome (MAS) also known as neonatal aspiration of meconium is a medical condition affecting newborn infants. It describes the spectrum of disorders and pathophysiology of newborns born in meconium-stained amniotic fluid (MSAF) and have meconium within their lungs. Therefore, MAS has a wide range of severity depending on what conditions and complications develop after parturition. Furthermore, the pathophysiology of MAS is multifactorial and extremely complex which is why it is the leading cause of morbidity and mortality in term infants. Meconium aspiration syndrome (MAS) also known as neonatal aspiration of meconium is a medical condition affecting newborn infants. It describes the spectrum of disorders and pathophysiology of newborns born in meconium-stained amniotic fluid (MSAF) and have meconium within their lungs. Therefore, MAS has a wide range of severity depending on what conditions and complications develop after parturition. Furthermore, the pathophysiology of MAS is multifactorial and extremely complex which is why it is the leading cause of morbidity and mortality in term infants. The word meconium is derived from the Greek word mēkōnion meaning juice from the opium poppy as the sedative effects it had on the foetus were observed by Aristotle. Meconium is a sticky dark-green substance which contains gastrointestinal secretions, amniotic fluid, bile acids, bile, blood, mucus, cholesterol, pancreatic secretions, lanugo, vernix caseosa and cellular debris. Meconium accumulates in the foetal gastrointestinal tract throughout the third trimester of pregnancy and it is the first intestinal discharge released within the first 48 hours after birth. Notably, since meconium and the whole content of the gastrointestinal tract is located ‘extracorporeally,’ its constituents are hidden and normally not recognised by the foetal immune system. For the meconium within the amniotic fluid to successfully cause MAS, it has to enter the respiratory system during the period when the fluid-filled lungs transition into an air-filled organ capable of gas exchange. The main theories of meconium passage into amniotic fluid are caused by foetal maturity or from foetal stress as a result of hypoxia or infection. Other factors that promote the passage of meconium in utero include placental insufficiency, maternal hypertension, pre-eclampsia and maternal drug use of tobacco and cocaine. However, the exact mechanism for meconium passage into the amniotic fluid is not completely understood and it may be a combination of several factors. There may be an important association between foetal distress and hypoxia with MSAF. It is believed that foetal distress develops into foetal hypoxia causing the foetus to defecate meconium resulting in MSAF and then perhaps MAS. Other stressors which causes foetal distress, and therefore meconium passage, includes when umbilical vein oxygen saturation is below 30%. Foetal hypoxic stress during parturition can stimulate colonic activity, by enhancing intestinal peristalsis and relaxing the anal sphincter, which results in the passage of meconium. Then, because of intrauterine gasping or from the first few breaths after delivery, MAS may develop. Furthermore, aspiration of thick meconium leads to obstruction of airways resulting in a more severe hypoxia. It is important to note that the association between foetal distress and meconium passage is not a definite cause-effect relationship as over ¾ of infants with MSAF are vigorous at birth and do not have any distress or hypoxia. Additionally, foetal distress occurs frequently without the passage of meconium as well. Although meconium is present in the gastrointestinal tract early in development, MSAF rarely occurs before 34 weeks gestation.