Collection of example code and files for analysing neuromelanin-sensitive images acquired using magnetic resonance imaging (MRI)
Biondetti, E., Gaurav, R., Yahia-Cherif, L., Mangone, G., Pyatigorskaya, N., Valabrègue, R., Ewenczyk, C., Hutchison, M., François, C., Arnulf, I., Corvol, J.C., Vidailhet, M., Lehéricy, S., 2020. Spatiotemporal changes in substantia nigra neuromelanin content in Parkinson’s disease. Brain 143, 2757–2770. https://doi.org/10.1093/brain/awaa216
Biondetti, E., Santin, M.D., Valabrègue, R., Mangone, G., Gaurav, R., Pyatigorskaya, N., Hutchison, M., Yahia-Cherif, L., Villain, N., Habert, M.-O., Arnulf, I., Leu-Semenescu, S., Dodet, P., Vila, M., Corvol, J.-C., Vidailhet, M., Lehéricy, S., 2021. The spatiotemporal changes in dopamine, neuromelanin and iron characterizing Parkinson’s disease. Brain 144, 3114–3125. https://doi.org/10.1093/brain/awab191
For each subject:
- a neuromelanin-sensitive image of the substantia nigra (here, this was acquired using a TSE (turbo spin echo) sequence)
- a structural T1-weighted image of the whole head (here, this was acquired using an MPRAGE (magnetisation prepared rapid gradient echo) sequence)
- (optional) if interested in probability map calculation, a manual segmentation of the substantia nigra drawn on image 1
average_nonlin_10.nii.gz: brain template
SN_ROI_symmetric_three_subdivisions.nii.gz: symmetric substantia nigra region of interest subdivided into three functional territories (associative=1, limbic=2, and sensorimotor=3)
BND_ROI.nii.gz: background region of interest (in template space)
coreg_NMw_to_template.sh: example code using NiftyReg software (https://github.com/KCL-BMEIS/niftyreg) for aligning the neuromelanin-sensitive image and (optional) manual segmentation of the substantia nigra with template space
SN_probability_map_calculation.m: example MATLAB code for calculating a parametric map with the probability of segmenting the substantia nigra in a group of subjects (in template space)
SNR_calculation_example.m: example MATLAB code for calculating neuromelanin signal-to-noise ratios (SNRs) in the three functional subregions of the substantia nigra (in template space)