Related papers: Efficient Brain Extraction of MRI Scans with Mild to Moderate Neuropathology

Efficient Brain Extraction of MRI Scans with Mild to Moderate Neuropathology

URL: http://arxiv.org/abs/2602.08764v1
Date: Mon, 09 Feb 2026 15:03:30 GMT
Title: Efficient Brain Extraction of MRI Scans with Mild to Moderate Neuropathology
Authors: Hjalti Thrastarson, Lotta M. Ellingsen,
Abstract summary: We propose a novel approach to strip T1-weighted images in a robust and efficient manner.<n>We train a modified version of the U-net on silver-standard ground truth data using a novel loss function based on the signed-distance transform (SDT)<n>Our method achieves performance comparable to or better than existing state-of-the-art methods for brain extraction.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Skull stripping magnetic resonance images (MRI) of the human brain is an important process in many image processing techniques, such as automatic segmentation of brain structures. Numerous methods have been developed to perform this task, however, they often fail in the presence of neuropathology and can be inconsistent in defining the boundary of the brain mask. Here, we propose a novel approach to skull strip T1-weighted images in a robust and efficient manner, aiming to consistently segment the outer surface of the brain, including the sulcal cerebrospinal fluid (CSF), while excluding the full extent of the subarachnoid space and meninges. We train a modified version of the U-net on silver-standard ground truth data using a novel loss function based on the signed-distance transform (SDT). We validate our model both qualitatively and quantitatively using held-out data from the training dataset, as well as an independent external dataset. The brain masks used for evaluation partially or fully include the subarachnoid space, which may introduce bias into the comparison; nonetheless, our model demonstrates strong performance on the held-out test data, achieving a consistent mean Dice similarity coefficient (DSC) of 0.964$\pm$0.006 and an average symmetric surface distance (ASSD) of 1.4mm$\pm$0.2mm. Performance on the external dataset is comparable, with a DSC of 0.958$\pm$0.006 and an ASSD of 1.7$\pm$0.2mm. Our method achieves performance comparable to or better than existing state-of-the-art methods for brain extraction, particularly in its highly consistent preservation of the brain's outer surface. The method is publicly available on GitHub.

Related papers

DRBD-Mamba for Robust and Efficient Brain Tumor Segmentation with Analytical Insights [54.87947751720332]
Accurate brain tumor segmentation is significant for clinical diagnosis and treatment.<n>Mamba-based State Space Models have demonstrated promising performance.<n>We propose a dual-resolution bi-directional Mamba that captures multi-scale long-range dependencies with minimal computational overhead.
arXiv Detail & Related papers (2025-10-16T07:31:21Z)
A generalisable head MRI defacing pipeline: Evaluation on 2,566 meningioma scans [2.7219200491616378]
We present a robust, generalisable defacing pipeline for high-resolution MRI that integrates atlas-based registration with brain masking.<n>Our method was evaluated on 2,566 heterogeneous clinical scans for meningioma and achieved a 99.92 per cent success rate.
arXiv Detail & Related papers (2025-05-19T11:39:18Z)
Diffusion Models for Counterfactual Generation and Anomaly Detection in Brain Images [39.94162291765236]
We present a weakly supervised method to generate a healthy version of a diseased image and then use it to obtain a pixel-wise anomaly map. We employ a diffusion model trained on healthy samples and combine Denoising Diffusion Probabilistic Model (DDPM) and Denoising Implicit Model (DDIM) at each step of the sampling process.
arXiv Detail & Related papers (2023-08-03T21:56:50Z)
SAM vs BET: A Comparative Study for Brain Extraction and Segmentation of Magnetic Resonance Images using Deep Learning [0.0]
Segment Anything Model (SAM) has the potential to emerge as a more accurate, robust and versatile tool for a broad range of brain extraction and segmentation applications. We compare SAM with a widely used and current gold standard technique called BET on a variety of brain scans with varying image qualities, MR sequences, and brain lesions affecting different brain regions.
arXiv Detail & Related papers (2023-04-10T17:50:52Z)
Generative AI for Rapid Diffusion MRI with Improved Image Quality, Reliability and Generalizability [3.6119644566822484]
We employ a Swin UNEt Transformers model, trained on augmented Human Connectome Project data, to perform generalized denoising of dMRI. We demonstrate super-resolution with artificially downsampled HCP data in normal adult volunteers. We exceed current state-of-the-art denoising methods in accuracy and test-retest reliability of rapid diffusion tensor imaging requiring only 90 seconds of scan time.
arXiv Detail & Related papers (2023-03-10T03:39:23Z)
Patched Diffusion Models for Unsupervised Anomaly Detection in Brain MRI [55.78588835407174]
We propose a method that reformulates the generation task of diffusion models as a patch-based estimation of healthy brain anatomy. We evaluate our approach on data of tumors and multiple sclerosis lesions and demonstrate a relative improvement of 25.1% compared to existing baselines.
arXiv Detail & Related papers (2023-03-07T09:40:22Z)
FAST-AID Brain: Fast and Accurate Segmentation Tool using Artificial Intelligence Developed for Brain [0.8376091455761259]
A novel deep learning method is proposed for fast and accurate segmentation of the human brain into 132 regions. The proposed model uses an efficient U-Net-like network and benefits from the intersection points of different views and hierarchical relations. The proposed method can be applied to brain MRI data including skull or any other artifacts without preprocessing the images or a drop in performance.
arXiv Detail & Related papers (2022-08-30T16:06:07Z)
StRegA: Unsupervised Anomaly Detection in Brain MRIs using a Compact Context-encoding Variational Autoencoder [48.2010192865749]
Unsupervised anomaly detection (UAD) can learn a data distribution from an unlabelled dataset of healthy subjects and then be applied to detect out of distribution samples. This research proposes a compact version of the "context-encoding" VAE (ceVAE) model, combined with pre and post-processing steps, creating a UAD pipeline (StRegA) The proposed pipeline achieved a Dice score of 0.642$pm$0.101 while detecting tumours in T2w images of the BraTS dataset and 0.859$pm$0.112 while detecting artificially induced anomalies.
arXiv Detail & Related papers (2022-01-31T14:27:35Z)
FedMed-ATL: Misaligned Unpaired Brain Image Synthesis via Affine Transform Loss [58.58979566599889]
We propose a novel self-supervised learning (FedMed) for brain image synthesis. An affine transform loss (ATL) was formulated to make use of severely distorted images without violating privacy legislation. The proposed method demonstrates advanced performance in both the quality of synthesized results under a severely misaligned and unpaired data setting.
arXiv Detail & Related papers (2022-01-29T13:45:39Z)
FedMed-GAN: Federated Domain Translation on Unsupervised Cross-Modality Brain Image Synthesis [55.939957482776194]
We propose a new benchmark for federated domain translation on unsupervised brain image synthesis (termed as FedMed-GAN) FedMed-GAN mitigates the mode collapse without sacrificing the performance of generators. A comprehensive evaluation is provided for comparing FedMed-GAN and other centralized methods.
arXiv Detail & Related papers (2022-01-22T02:50:29Z)
3-Dimensional Deep Learning with Spatial Erasing for Unsupervised Anomaly Segmentation in Brain MRI [55.97060983868787]
We investigate whether using increased spatial context by using MRI volumes combined with spatial erasing leads to improved unsupervised anomaly segmentation performance. We compare 2D variational autoencoder (VAE) to their 3D counterpart, propose 3D input erasing, and systemically study the impact of the data set size on the performance. Our best performing 3D VAE with input erasing leads to an average DICE score of 31.40% compared to 25.76% for the 2D VAE.
arXiv Detail & Related papers (2021-09-14T09:17:27Z)
Improved Slice-wise Tumour Detection in Brain MRIs by Computing Dissimilarities between Latent Representations [68.8204255655161]
Anomaly detection for Magnetic Resonance Images (MRIs) can be solved with unsupervised methods. We have proposed a slice-wise semi-supervised method for tumour detection based on the computation of a dissimilarity function in the latent space of a Variational AutoEncoder. We show that by training the models on higher resolution images and by improving the quality of the reconstructions, we obtain results which are comparable with different baselines.
arXiv Detail & Related papers (2020-07-24T14:02:09Z)
Robust Automatic Whole Brain Extraction on Magnetic Resonance Imaging of Brain Tumor Patients using Dense-Vnet [5.684776869811468]
Whole brain extraction, also known as skull stripping, is a process in neuroimaging in which non-brain tissue such as skull, eyeballs, skin, etc. are removed from neuroimages. Despite a plethora of skull stripping approaches in the literature, few are sufficiently accurate for processing pathology-presenting MRIs, especially MRIs with brain tumors. We propose a deep learning approach for skull striping common MRI sequences in oncology such as T1-weighted with gadolinium contrast (T1Gd) and T2-weighted fluid attenuated inversion recovery (FLAIR) in patients with brain tumors.
arXiv Detail & Related papers (2020-06-04T03:18:43Z)
Bayesian convolutional neural network based MRI brain extraction on nonhuman primates [2.2182171526013774]
Current automatic brain extraction methods demonstrate good results on human brains, but are far from satisfactory on nonhuman primates. We propose a fully-automated brain extraction pipeline combining deep Bayesian convolutional neural network (CNN) and fully connected 3D conditional random field (CRF) The proposed method was evaluated with a manually brain-extracted dataset comprising T1w images of 100 nonhuman primates.
arXiv Detail & Related papers (2020-05-18T05:08:30Z)

This list is automatically generated from the titles and abstracts of the papers in this site.