儿童对流增强分娩:技术与应用。

K Aquilina, A Chakrapani, L Carr, M A Kurian, D Hargrave
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引用次数: 3

摘要

自1994年首次描述以来,对流增强给药(CED)已成为一种可靠的将药物直接注入脑实质的方法。CED比简单的扩散更具可预测性和有效性,它绕过了具有挑战性的血脑屏障边界,这使许多将大分子或聚合物输送到脑实质的尝试受挫。尽管大多数的临床工作都是针对患有无法治愈的肿瘤(主要是多形性胶质母细胞瘤)的成人进行的,但越来越多的研究已经认识到其在儿科应用的潜力,现在包括治疗目前无法治愈的脑肿瘤,如弥漫性脑桥胶质瘤(DIPG),以及代谢和神经递质疾病。在CED中硬件开发和药物使用的路线图已经建立,世界各地的一些神经外科中心已经成功地进行了临床试验,诚然,大多数是早期阶段,基于体外,小动物和大动物的临床前基础。然而,CED的临床疗效虽然在理论上合乎逻辑,但尚未在临床试验中得到明确的证明;这尤其适用于神经肿瘤学。这篇综述的目的是对目前应用于儿童的关于全面发展教育的知识提供一个广泛的描述。它回顾了在其更广泛的历史和发展背景下发表的儿科CED研究,并强调了与硬件发展、药理学制剂选择和基因治疗相关的挑战。它还回顾了与发展涉及CED的临床试验相关的困难,并展望了其未来潜在的疾病改善机会。
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Convection-Enhanced Delivery in Children: Techniques and Applications.

Since its first description in 1994, convection-enhanced delivery (CED) has become a reliable method of administering drugs directly into the brain parenchyma. More predictable and effective than simple diffusion, CED bypasses the challenging boundary of the blood brain barrier, which has frustrated many attempts at delivering large molecules or polymers into the brain parenchyma. Although most of the clinical work with CED has been carried out on adults with incurable neoplasms, principally glioblastoma multiforme, an increasing number of studies have recognized its potential for paediatric applications, which now include treatment of currently incurable brain tumours such as diffuse intrinsic pontine glioma (DIPG), as well as metabolic and neurotransmitter diseases. The roadmap for the development of hardware and use of pharmacological agents in CED has been well-established, and some neurosurgical centres throughout the world have successfully undertaken clinical trials, admittedly mostly early phase, on the basis of in vitro, small animal and large animal pre-clinical foundations. However, the clinical efficacy of CED, although theoretically logical, has yet to be unequivocally demonstrated in a clinical trial; this applies particularly to neuro-oncology.This review aims to provide a broad description of the current knowledge of CED as applied to children. It reviews published studies of paediatric CED in the context of its wider history and developments and underlines the challenges related to the development of hardware, the selection of pharmacological agents, and gene therapy. It also reviews the difficulties related to the development of clinical trials involving CED and looks towards its potential disease-modifying opportunities in the future.

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