纳米医学如何提高妊娠期MRI造影剂的安全性?

Decis. Sci. Pub Date : 2022-03-15 DOI:10.3390/sci4010011
Marinella Difonzo, Louise Fliedel, N. Mignet, K. Andrieux, Khair Alhareth
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引用次数: 1

摘要

妊娠是一个微妙的状态,在此期间,及时调查可能的生理异常对于降低母胎并发症的风险至关重要。医学成像包括不同的技术来成像人体的诊断,治疗过程管理和疾病的随访。超声(US)是目前孕妇首选的成像系统。然而,超声评估可能无效或给出模糊的结果。因此,磁共振成像(MRI)由于其出色的组织穿透性,获取三维解剖信息的可能性,以及其高空间分辨率,被认为是一种有效的诊断选择。然而,目前用于提高MRI图像质量的对比剂对胎儿是有害的。由于它们能够穿过胎盘,因此避免在孕妇身上使用。本综述将首先概述最常见的非产科,产科和胎儿的适应症,磁共振成像对孕妇。胎儿安全风险,由于使用强磁场和外源性造影剂,将提出。然后,探讨了纳米结构造影剂相对于现有分子造影剂可能具有的优势。本文讨论了纳米系统影响对比效率的特性,以及它们在提高孕妇对比增强MRI安全性方面的潜力。最后,讨论了纳米颗粒作为妊娠期MRI造影剂的更安全替代品的前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
How Could Nanomedicine Improve the Safety of Contrast Agents for MRI during Pregnancy?
Pregnancy is a delicate state, during which timely investigation of possible physiological anomalies is essential to reduce the risk of maternal and fetal complications. Medical imaging encompasses different technologies to image the human body for the diagnosis, course of treatment management, and follow-up of diseases. Ultrasound (US) is currently the imaging system of choice for pregnant patients. However, sonographic evaluations can be non-effective or give ambiguous results. Therefore, magnetic resonance imaging (MRI), due to its excellent tissue penetration, the possibility of acquisition of three-dimensional anatomical information, and its high spatial resolution, is considered a valid diagnostical alternative. Nevertheless, currently employed contrast agents to improve the MRI image quality are harmful to the fetus. Because of their ability to cross the placenta, their use on pregnant patients is avoided. This review will firstly recapitulate the most common non-obstetrical, obstetrical, and fetal indications for magnetic resonance imaging on pregnant women. Fetal safety risks, due to the use of strong magnetic fields and exogenous contrast agents, will be presented. Then, possible advantages of nanostructured contrast agents compared to current molecular ones are explored. Nanosystems’ characteristics affecting contrast efficiency, and their potential for improving contrast-enhanced MRI’s safety in pregnant women, are discussed. Lastly, promising examples of nanoparticles as safer alternatives to current MRI contrast agents in pregnancy are discussed.
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