Ali Hatamizadeh scite author profile

Fully Convolutional Neural Networks (FCNNs) with contracting and expansive paths (e.g. encoder and decoder) have shown prominence in various medical image segmentation applications during the recent years. In these architectures, the encoder plays an integral role by learning global contextual representations which will be further utilized for semantic output prediction by the decoder. Despite their success, the locality of convolutional layers , as the main building block of FCNNs limits the capability of learning long-range spatial dependencies in such networks. Inspired by the recent success of transformers in Natural Language Processing (NLP) in long-range sequence learning, we reformulate the task of volumetric (3D) medical image segmentation as a sequence-to-sequence prediction problem. In particular, we introduce a novel architecture, dubbed as UNEt TRansformers (UNETR), that utilizes a pure transformer as the encoder to learn sequence representations of the input volume and effectively capture the global multi-scale information. The transformer encoder is directly connected to a decoder via skip connections at different resolutions to compute the final semantic segmentation output. We have extensively validated the performance of our proposed model across different imaging modalities(i.e. MR and CT) on volumetric brain tumour and spleen segmentation tasks using the Medical Segmentation Decathlon (MSD) dataset, and our results consistently demonstrate favorable benchmarks.

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MONAI: An open-source framework for deep learning in healthcare

Cardoso¹,

Li²,

Brown³

et al. 2022

Preprint

110

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Artificial Intelligence (AI) is having a tremendous impact across most areas of science. Applications of AI in healthcare have the potential to improve our ability to detect, diagnose, prognose, and intervene on human disease. For AI models to be used clinically, they need to be made safe, reproducible and robust, and the underlying software framework must be aware of the particularities (e.g. geometry, physiology, physics) of medical data being processed. This work introduces MONAI, a freely available, community-supported, and consortium-led PyTorch-based framework for deep learning in healthcare. MONAI extends PyTorch to support medical data, with a particular focus on imaging, and provide purpose-specific AI model architectures, transformations and utilities that streamline the development and deployment of medical AI models. MONAI follows best practices for software-development, providing an easy-to-use, robust, welldocumented, and well-tested software framework. MONAI preserves the simple, additive, and compositional approach of its underlying PyTorch libraries. MONAI is being used by and receiving contributions from research, clinical and industrial teams from around the world, who are pursuing applications spanning nearly every aspect of healthcare.

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Ali Hatamizadeh

UNETR: Transformers for 3D Medical Image Segmentation

Swin UNETR: Swin Transformers for Semantic Segmentation of Brain Tumors in MRI Images

Self-Supervised Pre-Training of Swin Transformers for 3D Medical Image Analysis

UNETR: Transformers for 3D Medical Image Segmentation

MONAI: An open-source framework for deep learning in healthcare

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