Machine learning of dissection photographs and surface scanning for quantitative 3D neuropathology.
Harshvardhan GazulaHenry F J TregidgoBenjamin BillotYael BalbastreJonathan Williams-RamirezRogeny HerisseLucas J Deden-BinderAdria CasamitjanaErica J MeliefCaitlin S LatimerMitchell D KilgoreMark MontineEleanor RobinsonEmily BlackburnMichael S MarshallTheresa R ConnorsDerek H OakleyMatthew P FroschSean I YoungKoen Van LeemputAdrian V DalcaBruce FischlChristine L MacDonaldC Dirk KeeneBradley T HymanJuan Eugenio IglesiasPublished in: eLife (2024)
We present open-source tools for three-dimensional (3D) analysis of photographs of dissected slices of human brains, which are routinely acquired in brain banks but seldom used for quantitative analysis. Our tools can: (1) 3D reconstruct a volume from the photographs and, optionally, a surface scan; and (2) produce a high-resolution 3D segmentation into 11 brain regions per hemisphere (22 in total), independently of the slice thickness. Our tools can be used as a substitute for ex vivo magnetic resonance imaging (MRI), which requires access to an MRI scanner, ex vivo scanning expertise, and considerable financial resources. We tested our tools on synthetic and real data from two NIH Alzheimer's Disease Research Centers. The results show that our methodology yields accurate 3D reconstructions, segmentations, and volumetric measurements that are highly correlated to those from MRI. Our method also detects expected differences between post mortem confirmed Alzheimer's disease cases and controls. The tools are available in our widespread neuroimaging suite 'FreeSurfer' (https://surfer.nmr.mgh.harvard.edu/fswiki/PhotoTools).
Keyphrases
- high resolution
- magnetic resonance imaging
- contrast enhanced
- machine learning
- computed tomography
- diffusion weighted imaging
- endothelial cells
- mass spectrometry
- white matter
- resting state
- magnetic resonance
- deep learning
- electronic health record
- brain injury
- artificial intelligence
- multiple sclerosis
- high speed
- convolutional neural network
- cerebral ischemia
- blood brain barrier
- liquid chromatography