Maternal-fetal Immune Responses to Fetal Surgery

Study Description

Brief Summary

Performing surgery in utero on fetuses with certain birth defects has led to significant improvements in outcomes after birth; however, many of these infants are born preterm which can decrease the effectiveness of these procedures. The investigators aim to understand the effects of surgery on the maternal and fetal immune system and whether immune activation may be causing some of these infants to be born prematurely.

Detailed Description

Over 300,000 neonates worldwide die in their first month of life due to a congenital birth defect. Thanks to advancements in diagnostic technology and imaging, the field of fetal surgery was developed to treat some of these conditions in utero. Results have demonstrated improved short and long-term outcomes following surgery, especially for those fetuses diagnosed with congenital diaphragmatic hernia, lower urinary tract obstruction and spina bifida. However, over 30% of the surgical cases will have preterm labor, leading to complications related to neonatal prematurity. The cause of this surgery-induced preterm birth is unknown; however, disruption in fetal-maternal tolerance may lead to immune activation and inflammation of the maternal and fetal immune systems. Maintaining immunologic tolerance is essential during pregnancy, as a women shares only half of her genetic material with the fetus. Previous work has demonstrated that fetal surgery leads to an increase in maternal cells identified in cord blood. Animal studies have also shown that in utero intervention leads to the activation of maternal cells against fetal (paternal) antigen. Based on this previous data, it is hypothesized that surgical trauma following in utero intervention results in mixing of maternal and fetal cells leading to activation of systemic (adaptive maternal immunity) and regional (fetal placental macrophages) immune responses that disrupt fetal-maternal tolerance, which can result in preterm birth. Blood will be collected from pregnant women and their partners. Blood and placental tissue will be collected from infants that do and do not undergo in utero surgery to determine whether maternal T cells specific to fetal antigen are activated and expand after in utero intervention; and 2) to determine whether placental macrophages (Hofbauer Cells) and histology in the maternal-fetal interface exhibit increased activation and inflammation in surgical cases born preterm (<37 weeks) compared to term. Should this exploratory study reveal activation of maternal and/or fetal immune responses following in utero surgery, modalities aimed at therapeutically suppressing these acute responses may prolong gestation, significantly benefiting newborns diagnosed with a congenital anomaly.

Study Design

Outcome Measures

Primary Outcome Measures

1. Maternal T cell activation following in utero intervention. [Baseline, 1-2 days post intervention, 1 week post intervention, delivery]

   T cells from maternal blood will be isolated and CDR3 spectra typing will be completed. These samples will be compared to each other to identify high frequency T cell clones as well as longitudinal changes in the dynamics of clones. Blood collected at the four time points above will be profiled for changes in immune activation using mass cytometry (CyTOF) and plasma collected to measure changes in cytokine responses pre- and post-surgery by multiplex.

Secondary Outcome Measures

1. Placental histology in the maternal-fetal interface in term and preterm fetal intervention cases [Delivery]

   Placental macrophages will be phenotyped for subtypes (M1 classical versus M2 repair), activation (CD25 and CD40), and apoptosis status by CyTOF. Comparisons will be made between those born before 37 weeks and those born after 37 weeks in the surgical group, as well as to those who didn't undergo surgery. From each placenta, 5 sections will be dissected and submitted for histological evaluation of placental villitis. Toxoplasmosis, Other [syphilis, varicella-zoster, parvovirus B19], Rubella, Cytomegalovirus and Herpes (TORCH) infection panels will be completed to distinguish infectious villitis from immune-mediated villitis.

Eligibility Criteria

Criteria

Inclusion Criteria for study group:

• Maternal age ≥18 years

• Pregnant with a congenital anomaly diagnosis AND undergoing fetal intervention in utero

• Delivery planned at Mayo Clinic, Rochester MN

Inclusion Criteria for control group:

• Maternal age ≥18 years

• Pregnant with normal ultrasound findings

• Delivery planned at Mayo Clinic, Rochester MN

Exclusion Criteria:

• Delivery planned elsewhere

• Abnormal fetal karyotype

Contacts and Locations

Locations

Sponsors and Collaborators

• Mayo Clinic

Investigators

• Principal Investigator: Mauro Schenone, MD, Mayo Clinic

Study Documents (Full-Text)

More Information

Additional Information:

• Mayo Clinic Clinical Trials

Publications