Gimi Barjor
Russell H Morgan Department of Radiology and Radiological Sciences, Johns Hopkins University School of Medicine, Baltimore, MD, USA.
Methods Mol Med. 2006;124:59-84.
Recent strides in targeted therapy and regenerative medicine have created a need to identify molecules and metabolic pathways implicated in a disease and its treatment. These molecules and pathways must be discerned at the cellular level to meaningfully reveal the biochemical underpinnings of the disease and to identify key molecular targets for therapy. Magnetic resonance (MR) techniques are well suited for molecular and functional imaging because of their noninvasive nature and their versatility in extracting physiological, biochemical, and functional information over time. However, MR is an insensitive technique; MR microscopy seeks to increase detection sensitivity, thereby localizing biochemical and functional information at the level of single cells or small cellular clusters. Here, we discuss some of the challenges facing MR microscopy and the technical and phenomenological strategies used to overcome these challenges. Some of the applications of MR microscopy are highlighted in this chapter.
靶向治疗和再生医学的最新进展使得识别与疾病及其治疗相关的分子和代谢途径成为必要。必须在细胞水平上识别这些分子和途径,才能有意义地揭示疾病的生化基础,并确定治疗的关键分子靶点。磁共振(MR)技术由于其非侵入性以及能够随时间提取生理、生化和功能信息的多功能性,非常适合用于分子和功能成像。然而,MR是一种不敏感的技术;MR显微镜旨在提高检测灵敏度,从而在单细胞或小细胞簇水平上定位生化和功能信息。在此,我们讨论MR显微镜面临的一些挑战以及用于克服这些挑战的技术和现象学策略。本章重点介绍了MR显微镜的一些应用。