Abstract
PurposeDevelopment of a freely available stroke population–specific anatomical CT/MRI atlas with a reliable normalisation pipeline for clinical CT.MethodsBy reviewing CT scans in suspected stroke patients and filtering the AIBL MRI database, respectively, we collected 50 normal-for-age CT and MRI scans to build a standard-resolution CT template and a high-resolution MRI template. The latter was manually segmented into anatomical brain regions. We then developed and validated a MRI to CT registration pipeline to align the MRI atlas onto the CT template. Finally, we developed a CT-to-CT-normalisation pipeline and tested its reliability by calculating Dice coefficient (Dice) and Average Hausdorff Distance (AHD) for predefined areas in 100 CT scans from ischaemic stroke patients.ResultsThe resulting CT/MRI templates were age and sex matched to a general stroke population (median age 71.9 years (62.1–80.2), 60% male). Specifically, this accounts for relevant structural changes related to aging, which may affect registration. Applying the validated MRI to CT alignment (Dice > 0.78, Average Hausdorff Distance < 0.59 mm) resulted in our final CT-MRI atlas. The atlas has 52 manually segmented regions and covers the whole brain. The alignment of four cortical and subcortical brain regions with our CT-normalisation pipeline was reliable for small/medium/large infarct lesions (Dice coefficient > 0.5).ConclusionThe newly created CT-MRI brain atlas has the potential to standardise stroke lesion segmentation. Together with the automated normalisation pipeline, it allows analysis of existing and new datasets to improve prediction tools for stroke patients (free download at https://forms.office.com/r/v4t3sWfbKs).
Highlights
In order to translate changes from neuroimaging studies to a general population, it is important to perform analysis on a group level, which requires spatial normalisation of individual data [1, 2]
The collected 50 standard-resolution (512 × 512 × 24–32) healthy Computed tomography (CT) brain scans were obtained from patients (median age 71.9 years (62.1–80.2), 60% male), who represent a general stroke population
The collected 50 high-resolution (160 × 240 × 256) healthy Magnetic resonance imaging (MRI) brain scans were obtained from participants (median age 71.9 years (62.1–80.2), 60% male), which are sex and age matched to the stroke population
Summary
In order to translate changes from neuroimaging studies to a general population, it is important to perform analysis on a group level, which requires spatial normalisation of individual data [1, 2]. Most contemporary spatial normalisation algorithms are guided by template images from a neurologically healthy and, notably, young population. Neuroradiology (2022) 64:1557–1567 radiation, has limited sensitivity in the ultra-acute stage of ischaemic stroke and is less sensitive in some specific stroke subtypes such as brainstem infarction, there are several key advantages of CT over MRI. These advantages include speed, cost, availability and safety, with no absolute contraindications to CT, which makes it the primary modality for treatment decisions and early prognostic assessments in acute stroke [6]
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