Benhalima Katrien, Polsky Sarit
Endocrinology, University Hospital Gasthuisberg, KU Leuven, Leuven, Belgium.
Medicine and Pediatrics, Barbara Davis Center for Diabetes, Adult Clinic, School of Medicine, University of Colorado Anschutz Medical Campus, Aurora, CO, USA.
J Diabetes Sci Technol. 2025 Mar 12:19322968251323614. doi: 10.1177/19322968251323614.
Automated insulin delivery (AID) systems adapt insulin delivery via a predictive algorithm integrated with continuous glucose monitoring and an insulin pump. Automated insulin delivery has become standard of care for glycemic management of people with type 1 diabetes (T1D) outside pregnancy, leading to improvements in time in range, with lower risk for hypoglycemia and improved treatment satisfaction. The use of AID facilitates optimal preconception care, thus more women of reproductive age are becoming pregnant while using AID. The effectiveness and safety in pregnant populations of using AID systems with algorithms for non-pregnant populations may be impacted by requirements for lower glucose targets and existence of increased insulin resistance during gestation. The CamAPS FX is the only AID system approved for use in pregnancy. A large randomized controlled trial (RCT) with this AID system demonstrated a 10.5% increase in time in pregnancy range (an additional 2.5 hours/day) compared with standard insulin therapy in pregnant women with T1D with a baseline glycated hemoglobin A1c (HbA) ≥48 mmol/mol (6.5%). A RCT of AID not approved for use in pregnancy (MiniMed 780G) has also demonstrated some benefits of AID compared with standard insulin therapy with improved time in pregnancy range overnight (24 minutes), less hypoglycemia, and improved treatment satisfaction. There is also increasing evidence that AID can be safely continued during delivery and postpartum, while maintaining glycemic goals with lower risk for hypoglycemia. More AID systems are needed with flexible glucose targets in the pregnancy range and possibly with algorithms that better adapt to changing insulin requirements. More evidence is needed on the impact of AID on maternal and neonatal outcomes. We review the current evidence on the use of AID in pregnancy and postpartum.
自动胰岛素输送(AID)系统通过与连续血糖监测和胰岛素泵集成的预测算法来调整胰岛素输送。自动胰岛素输送已成为妊娠外1型糖尿病(T1D)患者血糖管理的标准治疗方法,可改善血糖达标时间,降低低血糖风险,并提高治疗满意度。AID的使用有助于提供最佳的孕前护理,因此越来越多的育龄妇女在使用AID期间怀孕。使用针对非妊娠人群算法的AID系统在妊娠人群中的有效性和安全性可能会受到较低血糖目标要求以及孕期胰岛素抵抗增加的影响。CamAPS FX是唯一被批准用于妊娠的AID系统。一项使用该AID系统的大型随机对照试验(RCT)表明,与基线糖化血红蛋白A1c(HbA)≥48 mmol/mol(6.5%)的T1D孕妇采用标准胰岛素治疗相比,妊娠期间血糖达标时间增加了10.5%(每天额外增加2.5小时)。一项未被批准用于妊娠的AID(MiniMed 780G)的RCT也表明,与标准胰岛素治疗相比,AID有一些益处,包括夜间妊娠期间血糖达标时间改善(24分钟)、低血糖减少以及治疗满意度提高。越来越多的证据表明,AID在分娩和产后可以安全地继续使用,同时维持血糖目标,降低低血糖风险。需要更多具有妊娠范围内灵活血糖目标且可能具有更好适应胰岛素需求变化算法的AID系统。关于AID对母婴结局影响的更多证据仍有待获取。我们综述了目前关于AID在妊娠和产后使用的证据。