Maternal and Pregnancy Outcomes Following Heart Transplantation in the United States.

BACKGROUND: Improved survival following heart transplantation (HT) has led to more recipients contemplating pregnancy, but data on outcomes are limited. OBJECTIVES: The authors used a national data set to investigate and describe outcomes of pregnancies and deliveries in the United States in HT recipients. METHODS: Diagnosis and procedure codes from the 2010-2020 Nationwide Readmissions Database identified delivery hospitalizations, history of HT, comorbid conditions, and outcomes. The authors compared rates of severe maternal morbidity (SMM), nontransfusion SMM, cardiovascular SMM (cSMM), and preterm birth from delivery hospitalization between HT recipients and no-HT recipients. The authors evaluated readmission to 330 days postpartum. Logistic and proportional hazard regressions were performed, adjusting for age, socioeconomic and facility characteristics, and clinical comorbidities. RESULTS: Among 19,399,521 deliveries, 105 were HT recipients. Compared with no-HT, HT recipients were at higher risk for all SMM (24.8% vs 1.7%), nontransfusion SMM (20.8% vs 0.7%), cSMM (7.3% vs 0.12%), and preterm birth (43.3% vs 8.2%), all P < 0.001. In adjusted analyses, HT recipients had 16-fold greater odds of SMM, 28-fold greater odds of nontransfusion SMM, 38-fold greater odds of cSMM, and 7-fold greater odds of preterm birth. HT recipients had higher morbidity rates during delivery hospitalization and higher readmission rates within 1 year following delivery (26.9% vs 3.8%; adjusted HR: 6.03 [95% CI: 3.73-9.75]). CONCLUSIONS: Delivery with history of HT is associated with significantly increased rates of SMM, preterm birth, and hospital readmission. These results provide data regarding pregnancy outcomes for use when counseling patients with HT history who are considering pregnancy or who are pregnant.

The impact of erythropoietin and iron status on brain myelination in the newborn rat.

Erythropoietin (Epo) drives iron (Fe) utilization for erythropoiesis, but the potentially resultant tissue iron deficiency (ID) can also impede brain development. Conversely, Epo binds to Epo receptors (EpoR) on immature brain oligodendrocytes and neurons, promoting growth and differentiation. The objective of the study was to examine the interaction between Epo and Fe on myelination in brain development during daily Epo treatment. Male and female Sprague-Dawley rats from postnatal day (P) P4-P12 modeled premature newborns. Dam-fed Fe-sufficient (IS) or postnatal ID groups were given daily subcutaneous sham or erythropoietic Epo injections (425 U. kg-1. d-1 ), ± oral Fe (6 mg. kg-1. d-1 ). Tissues and blood were collected and studied at P12. Epo in the ID groups, in the absence of oral Fe, stimulated microcytic ID anemia along with raising inflammatory markers. Both the microcytic anemia and inflammation improved in the ID + Epo + Fe group. Fe treatment positively impacted erythropoiesis and body Fe (µg/g) in all groups. Relative brain Fe (µg/g rat) was improved in the IS + Epo + Fe group. Brain Fe was not worsened in +Epo groups. Brain weight and brain Fe were related to plasma Epo levels. Amount of myelination was impacted by feeding type, but was not inhibited by Epo. Expression of a protein in myelin, mylein basic protein, was greater in all +Fe groups than -Fe groups. With therapeutic Epo, available body Fe was prioritized for erythropoiesis instead of brain, but Epo did not worsen brain Fe and potentially Epo improved myelination and maturation in the brain.