Fetal therapies – (Stem cell transplantation; enzyme replacement therapy; in utero genetic therapies)

IF 4.3 3区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-09-11 DOI:10.1016/j.bpobgyn.2024.102542

Rachel Sagar , Anna L. David

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Abstract

Advances in ultrasound and prenatal diagnosis are leading an expansion in the options for parents whose fetus is identified with a congenital disease. Obstetric diseases such as pre-eclampsia and fetal growth restriction may also be amenable to intervention to improve maternal and neonatal outcomes. Advanced Medicinal Therapeutic Products such as stem cell, gene, enzyme and protein therapies are most commonly being investigated as the trajectory of treatment for severe genetic diseases moves toward earlier intervention. Theoretical benefits include prevention of in utero damage, smaller treatment doses compared to postnatal intervention, use of fetal circulatory shunts and induction of immune tolerance. New systematic terminology can capture adverse maternal and fetal adverse events to improve safe trial conduct. First-in-human clinical trials are now beginning to generate results with a focus on safety first and efficacy second. If successful, these trials will transform the care of fetuses with severe early-onset congenital disease.

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胎儿疗法--（干细胞移植；酶替代疗法；子宫内遗传疗法）

超声波和产前诊断技术的进步，为被发现患有先天性疾病的胎儿的父母提供了更多的选择。先兆子痫和胎儿生长受限等产科疾病也可以通过干预来改善孕产妇和新生儿的预后。随着严重遗传疾病的治疗朝着早期干预的方向发展，干细胞、基因、酶和蛋白质疗法等先进的药物治疗产品最常被研究。理论上的益处包括预防宫内损伤、治疗剂量小于产后干预、使用胎儿循环分流术和诱导免疫耐受。新的系统术语可以捕捉孕产妇和胎儿的不良事件，从而改善试验的安全进行。首例人体临床试验现已开始产生结果，其重点首先是安全性，其次才是有效性。如果这些试验取得成功，将改变对患有严重早发先天性疾病的胎儿的治疗。

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