Brain Neoplasms Clinical Trial
Official title:
Improving Surgical Outcomes in Patients With Low Grade Gliomas Using Advanced Pre- and Intra-operative MRI
This aim of this study is to improve the outcomes for patient with gliomas undergoing neurosurgery by maximising the extent of resection whilst minimising neurological morbidity. This will be achieved through the use of advanced MRI, fMRI and DTI, performed at two stages of the patients' clinical management.
Low grade gliomas are often located near to and infiltrate into important parts of brain
which are involved with language and motor function. During surgery to remove these tumours,
there is a fine balance between trying to remove as much of the tumour as possible and
limiting any damage to these functionally important parts of the brain which, particularly in
a young patient, may result in impairment for the rest of their life.
Functional MRI (fMRI) can be used to identify these functionally important cortical areas and
diffusion tensor imaging (DTI) can be used to identify the important subcortical and deep
white matter tracts connecting these regions. The use of these advanced imaging techniques
performed pre-operatively to plan surgery is now commonplace however their role in guiding
the actual operation itself is limited because of the occurrence of 'brain shift', this being
deformation in the contour of the brain parenchyma which occurs as the tumour is resected.
This can result in inaccuracies if the pre-operative advanced MRI data is being used in the
neuronavigational system to guide surgery.
The main aim of this study is to determine the optimal method of providing updated, spatially
accurate data on the location of these functionally important areas of the brain to the
neurosurgeon intra-operatively. In this study, two different techniques will be compared. The
first is the acquisition of real-time fMRI and DTI acquired intra-operatively during tumour
resection. The second is to use intra-operatively acquired structural and diffusion sequences
to perform non-rigid co-registration of fMRI and DTI data which has been acquired before
surgery. The feasibility and then the accuracy of these two techniques will be evaluated.
The second aim of this study is to better understand the effect that the tumour and surgery
have on language function as this will have important implications on the planning of the
surgical approach, the counselling of patients of the possible risks of surgery and in
helping to decide long term treatments. This will be achieved by performing advanced MRI
scans, in particular an extensive language fMRI paradigm pre-operatively and post-operatively
in patients with gliomas undergoing surgery. This will be combined with clinical testing of
language function. Greater understanding of the neural plasticity in this functionally
important system could allow for a greater, maximal resection.
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