Hypoxic ischemic encephalopathy (HIE) in neonates causes increased mortality and long-term morbidity in surviving babies. Hypothermia (HT) has improved outcomes, however, mortality remains high with ~half of surviving babies developing neurological impairment in their first years. We previously explored the use of autologous cord blood (CB) to determine if CB cells could lessen long-term damage to the brain. However, the feasibility of CB collection from sick neonates limited the utility of this approach. Allogeneic cord tissue mesenchymal stromal cells (hCT-MSC), cryopreserved and readily available, have been shown to ameliorate brain injury in animal models of HIE. We, therefore, conducted a pilot, phase I, clinical trial to test the safety and describe the preliminary efficacy of hCT-MSC in neonates with HIE. The study treated infants with moderate to severe HIE, treated with HT, with 1 or 2 doses of 2 million cells/kg/dose of hCT-MSC given intravenously. The babies were randomized to receive 1 or 2 doses with the first dose during HT and the second dose 2 months later. Babies were followed for survival and development with scoring of Bayley's at 12 postnatal months. Six neonates with moderate (4) or severe (2) HIE were enrolled. All received 1 dose of hCT-MSC during HT and 2 received a 2nd dose, 2 months later. hCT-MSC infusions were well tolerated although 5/6 babies developed low titer anti-HLA antibodies by 1 year of age. All babies survived, with average to low-average developmental assessment standard scores for ages between 12 and 17 postnatal months. Further study is warranted.
Keywords: HIE; cord tissue; hypothermia; mesenchymal stromal cells; neonates.
© The Author(s) 2023. Published by Oxford University Press.