Spectroscopic magnetic resonance imaging of the brain: voxel localisation and tissue segmentation in the follow up of brain tumour

Poloni, Guy and Bastianello, Stefano and Vultaggio, Angela and Pozzi, Sara and Maccabelli, Gloria and Germani, Giancarlo and Chiarati, Patrizia and Pichiecchio, Anna (2008) Spectroscopic magnetic resonance imaging of the brain: voxel localisation and tissue segmentation in the follow up of brain tumour. Functional Neurology; New Trends in Interventional Neurosciences, 23 (4). pp. 207-213. ISSN 1971-3274

[img] PDF
portiere.pdf - Published Version
Restricted to Repository staff only

Download (603kB)
Official URL: http://www.functionalneurology.it

Abstract

The field of application of magnetic resonance spectroscopy (MRS) in biomedical research is expanding all the time and providing opportunities to investigate tissue metabolism and function. The data derived can be integrated with the information on tissue structure gained from conventional and non-conventional magnetic resonance imaging (MRI) techniques. Clinical MRS is also strongly expected to play an important role as a diagnostic tool. Essential for the future success of MRS as a clinical and research tool in biomedical sciences, both in vivo and in vitro, is the development of an accurate, biochemically relevant and physically consistent and reliable data analysis standard. Stable and well established analysis algorithms, in both the time and the frequency domain, are already available, as is free commercial software for implementing them. In this study, we propose an automatic algorithm that takes into account anatomical localisation, relative concentrations of white matter, grey matter, cerebrospinal fluid and signal abnormalities and inter-scan patient movement. The endpoint is the collection of a series of covariates that could be implemented in a multivariate analysis of covariance (MANCOVA) of the MRS data, as a tool for dealing with differences that may be ascribed to the anatomical variability of the subjects, to inaccuracies in the localisation of the voxel or slab, or to movement, rather than to the pathology under investigation. The aim was to develop an analysis procedure that can be consistently and reliably applied in the follow up of brain tumour. In this study, we demonstrate that the inclusion of such variables in the data analysis of quantitative MRS is fundamentally important (especially in view of the reduced accuracy typical of MRS measures compared to other MRI techniques), reducing the occurrence of false positives

Item Type: Article
Uncontrolled Keywords: Brain tumor, magnetic resonance spectroscopy, methodology, post-processing
Subjects: 600 Tecnologia - Scienze applicate > 610 Medicina e salute (Classificare qui la tecnologia dei servizi medici) > 616 Malattie (classificare qui la Clinica medica, la medicina basata sull'evidenza, la Medicina interna, la Medicina sperimentale) > 616.8 Malattie del sistema nervoso e disturbi mentali (Classificare qui la Neuropsichiatria, la Neurologia) > 616.8047548 Sistema Nervoso – Risonanza magnetica nucleare (Classificare qui: Neuroimaging, Neuroimaging funzionale, Cervello - Risonanza magnetica funzionale, Cervello - Risonanza magnetica per immagini)
600 Tecnologia - Scienze applicate > 610 Medicina e salute (Classificare qui la tecnologia dei servizi medici) > 616 Malattie (classificare qui la Clinica medica, la medicina basata sull'evidenza, la Medicina interna, la Medicina sperimentale) > 616.9 Altre malattie (altri rami della Medicina) > 616.99 Tumori, malattie contagiose > 616.99281 Cervello - Neoplasmi e malattie neoplastiche (tumori)
Depositing User: Danilo Dezzi
Date Deposited: 09 Jul 2012 13:08
Last Modified: 09 Jul 2012 13:08
URI: http://eprints.bice.rm.cnr.it/id/eprint/3704

Actions (login required)

View Item View Item