摘要
Objective This research study aims to analyze existing principles regarding the processing and analysis of imaging data and apply these concepts to the setting of the magnetic resonance imaging arena with a main focus on its use in cervical tumours. Any possible models will then be formulated,with the possibility of testing these theories in an experimental study that would involve actual patient data collected from a collaborating healthcare institution. The applicability of quantification of spatial expansion will also be applied to specific cancers and medical conditions that commonly make use of the noninvasive feature of magnetic resonance imaging. Conclusion Diffusionweighted magnetic resonance imaging can be employed in examining the cellular dynamics of tumours as it assists in the localization,as well as displacement of particular cellular structures within a particular volume.
Objective This research study aims to analyze existing principles regarding the processing and analysis of imaging data and apply these concepts to the setting of the magnetic resonance imaging arena with a main focus on its use in cervical tumours.Any possible models will then be formulated,with the possibility of testing these theories in an experimental study that would involve actual patient data collected from a collaborating healthcare institution.The applicability of quantification of spatial expansion will also be applied to specific cancers and medical conditions that commonly make use of the non-invasive feature of magnetic resonance imaging.Conclusion Diffusion-weighted magnetic resonance imaging can be employed in examining the cellular dynamics of tumours as it assists in the localization,as well as displacement of particular cellular structures within a particular volume.
出处
《外科研究与新技术》
2011年第2期134-139,共6页
Surgical Research and New Technique
