Objectives: To develop a neonatal MR-compatible incubator for transporting babies between a neonatal intensive care unit and an MRI unit that is within the same hospital but geographically separate. Methods: The system was strapped to a standard MR-compatible patient trolley, which provides space for resuscitation outside the incubator. A constant-temperature exothermic heat pad was used to maintain temperature together with a logging fluoro-optic temperature monitor and alarm system. The system has been designed to accommodate standard knee-sized coils from the major MR manufacturers. The original incubator was constructed from carbon fibre, but this required modification to prevent radiofrequency shading artefacts due to the conducting properties of the carbon fibre. A high-tensile polyester material was used, which combined light weight with high impact strength. The system could be moved onto the patient bed with the coils and infant in place by one technologist. Results: Studies in eight neonatal patients produced high quality 1.5 T MR images with low motion artefacts. The incubator should also be compatible with imaging in 3 T MR systems, although further work is required to establish this. Images were acquired using both rapid and high-resolution sequences, including three-dimensional volumes, proton spectra and diffusion weighting. Conclusion: The incubator provides a safe, quiet environment for neonates during transport and imaging, at low cost.
展开▼
机译:目的:开发一种新生儿MR兼容型培养箱,用于在同一医院内但地理位置分开的新生儿重症监护室和MRI室之间运送婴儿。方法:该系统绑在标准的MR兼容患者推车上,该推车为培养箱外部的复苏提供了空间。恒温放热加热垫与测温氟光学温度监测和报警系统一起用于保持温度。该系统的设计可容纳主要MR制造商的标准膝盖尺寸的线圈。最初的培养箱是由碳纤维制成的,但是由于碳纤维的导电特性,因此需要进行修改以防止射频阴影伪影。使用了高强度聚酯材料,该材料兼具轻质和高冲击强度。该系统可以由一名技术人员在线圈和婴儿就位的情况下移动到患者床上。结果:对八名新生儿患者的研究产生了具有低运动伪影的高质量1.5 T MR图像。孵化器还应该与3 T MR系统中的成像兼容,尽管需要进一步的工作来建立它。使用快速和高分辨率序列(包括三维体积,质子谱和扩散权重)获取图像。结论:该培养箱为新生儿提供了安全,安静的环境,运输和成像过程费用低廉。
展开▼
