Description

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Background and Rationale

Preeclampsia affects 3-5% of pregnancies globally and represents a severe pregnancy-specific syndrome characterized by widespread maternal endothelial dysfunction. The pathophysiology involves abnormal trophoblast invasion leading to placental ischemia. Beyond immediate perinatal risks, preeclampsia carries devastating long-term cardiovascular consequences, with women experiencing a four-fold increased risk of heart failure, a 2.5-fold increased risk of coronary heart disease, and a two-fold increased risk of stroke and cardiovascular death. Moreover, post-cesarean postpartum mothers with a history of preeclampsia face particularly elevated risks, with cesarean delivery increasing postpartum preeclampsia risk by two- to seven-fold compared to vaginal delivery. This increased risk stems from altered hemodynamics, surgical stress responses, and compromised vascular integrity following cesarean procedures.

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Scientific Innovation

This study represents a paradigm shift from symptomatic management to active regenerative therapy using mesenchymal stem cell-derived exosomes (MSC-Exos). MSC-Exos offer several advantages over traditional approaches: natural tropism for vascular tissues, multi-pathway targeting capabilities, reduced immunogenicity compared to cell-based therapies, and superior circulation stability. Recent systematic reviews demonstrate favorable safety profiles with a low incidence of serious adverse events (0.7%).

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Intervention Details

Participants will receive a single intravenous or intramuscular dose of MSC-derived exosomes obtained from fetal adipose stem cells (ASC), produced under Good Manufacturing Practice (GMP) conditions. The exosomes contain bioactive cargo including growth factors, cytokines, proteins, and therapeutic microRNAs (particularly miR-126-3p) that mediate intercellular communication and tissue repair. Control participants will receive sterile saline solution of identical volume via the same route.

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Biomarker Strategy

The study employs miR-126-3p as the primary biomarker based on its exceptional diagnostic performance for endothelial dysfunction. miR-126-3p demonstrates high sensitivity (85.71%) and specificity (81.82%) with an area under the curve (AUC) of 0.792 for detecting endothelial dysfunction. This microRNA serves dual roles as both a pathological mediator and therapeutic target, making it ideal for monitoring treatment response. miR-126-3p is significantly downregulated in preeclampsia and directly regulates key angiogenic pathways including PI3K/AKT and MAPK/ERK signaling.

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Mechanistic Rationale

MSC-derived exosomes promote endothelial repair through multiple complementary mechanisms:

• Anti-inflammatory effects by promoting M2 macrophage polarization and reducing pro-inflammatory cytokines (IL-1β, IL-6, TNF-α).
• Angiogenic promotion through delivery of pro-angiogenic factors including VEGF, VEGFR-2, and specific microRNAs.
• Anti-apoptotic activity protecting endothelial cells via regulation of Bcl-2/Bax/Caspase-3 pathways.
• Vascular barrier protection by maintaining intercellular junctions and preventing vascular permeability.

Clinical Assessment Protocol

The study incorporates comprehensive clinical monitoring including Hematology examination (Hemoglobin, MCV & MCHC, Hematocrit, Leukocyte, Platelets), Vital Signs Assessment (Blood Pressure, Respiratory Rate, Heart Rate), Edema assessment (Upper Extremity Edema, Lower Extremity Edema, Facial Edema), proteinuria evaluation, and Imaging Outcome (Pulsatility Index (PI), and Resistance Index (RI) Uterine Artery, Uterine Involusion)

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Therapeutic Window and Follow-Up

The intervention targets the critical postpartum period (first-second week) when endothelial regeneration naturally occurs but may be compromised in preeclampsia patients. The 24-month follow-up period aligns with evidence suggesting therapeutic interventions during early postpartum may help reset long-term cardiovascular risk trajectories. This extended monitoring allows assessment of sustained therapeutic effects and long-term cardiovascular protection.

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Statistical Considerations

Sample size calculation (n=40 per group) is based on power analysis with α=0.05 and 80% power, accounting for a 10% dropout rate. The study design incorporates interim analysis at 50% recruitment with predetermined safety stopping rules monitored by an independent Data Safety Monitoring Board.

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Expected Clinical Impact

This study could establish a new therapeutic paradigm for postpartum care, shifting from reactive symptomatic management to proactive regenerative intervention. Success would provide the foundation for developing standardized exosome therapy protocols, potentially reducing long-term cardiovascular disease burden in high-risk postpartum populations, and contributing to improved maternal health outcomes with significant economic implications for healthcare systems.

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Regulatory and Safety Framework

The study operates under comprehensive ethical oversight with approval from the institutional Health Research Ethics Committee. Safety monitoring includes comprehensive adverse event reporting protocols and predefined safety stopping criteria to ensure participant protection throughout the study duration.