Your search keyword '"Nabavi, Shahabedin"' showing total 18 results

1. Statistical Distance-Guided Unsupervised Domain Adaptation for Automated Multi-Class Cardiovascular Magnetic Resonance Image Quality Assessment

Author

Nabavi, Shahabedin, Hamedani, Kian Anvari, Moghaddam, Mohsen Ebrahimi, Abin, Ahmad Ali, and Frangi, Alejandro F.

Subjects

Electrical Engineering and Systems Science - Image and Video Processing

Abstract

This study proposes an attention-based statistical distance-guided unsupervised domain adaptation model for multi-class cardiovascular magnetic resonance (CMR) image quality assessment. The proposed model consists of a feature extractor, a label predictor and a statistical distance estimator. An annotated dataset as the source set and an unlabeled dataset as the target set with different statistical distributions are considered inputs. The statistical distance estimator approximates the Wasserstein distance between the extracted feature vectors from the source and target data in a mini-batch. The label predictor predicts data labels of source data and uses a combinational loss function for training, which includes cross entropy and centre loss functions plus the estimated value of the distance estimator. Four datasets, including imaging and k-space data, were used to evaluate the proposed model in identifying four common CMR imaging artefacts: respiratory and cardiac motions, Gibbs ringing and Aliasing. The results of the extensive experiments showed that the proposed model, both in image and k-space analysis, has an acceptable performance in covering the domain shift between the source and target sets. The model explainability evaluations and the ablation studies confirmed the proper functioning and effectiveness of all the model's modules. The proposed model outperformed the previous studies regarding performance and the number of examined artefacts. The proposed model can be used for CMR post-imaging quality control or in large-scale cohort studies for image and k-space quality assessment due to the appropriate performance in domain shift coverage without a tedious data-labelling process.

Published

2024

2. Multiple Teachers-Meticulous Student: A Domain Adaptive Meta-Knowledge Distillation Model for Medical Image Classification

Author

Nabavi, Shahabedin, Hamedani, Kian Anvari, Moghaddam, Mohsen Ebrahimi, Abin, Ahmad Ali, and Frangi, Alejandro F.

Subjects

Electrical Engineering and Systems Science - Image and Video Processing

Abstract

Background: Image classification can be considered one of the key pillars of medical image analysis. Deep learning (DL) faces challenges that prevent its practical applications despite the remarkable improvement in medical image classification. The data distribution differences can lead to a drop in the efficiency of DL, known as the domain shift problem. Besides, requiring bulk annotated data for model training, the large size of models, and the privacy-preserving of patients are other challenges of using DL in medical image classification. This study presents a strategy that can address the mentioned issues simultaneously. Method: The proposed domain adaptive model based on knowledge distillation can classify images by receiving limited annotated data of different distributions. The designed multiple teachers-meticulous student model trains a student network that tries to solve the challenges by receiving the parameters of several teacher networks. The proposed model was evaluated using six available datasets of different distributions by defining the respiratory motion artefact detection task. Results: The results of extensive experiments using several datasets show the superiority of the proposed model in addressing the domain shift problem and lack of access to bulk annotated data. Besides, the privacy preservation of patients by receiving only the teacher network parameters instead of the original data and consolidating the knowledge of several DL models into a model with almost similar performance are other advantages of the proposed model. Conclusions: The proposed model can pave the way for practical clinical applications of deep classification methods by achieving the mentioned objectives simultaneously.

Published

2024

3. A Cascade Transformer-based Model for 3D Dose Distribution Prediction in Head and Neck Cancer Radiotherapy

Author

Gheshlaghi, Tara, Nabavi, Shahabedin, Shirzadikia, Samire, Moghaddam, Mohsen Ebrahimi, and Rostampour, Nima

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Physics - Medical Physics

Abstract

Radiation therapy is the primary method used to treat cancer in the clinic. Its goal is to deliver a precise dose to the planning target volume (PTV) while protecting the surrounding organs at risk (OARs). However, the traditional workflow used by dosimetrists to plan the treatment is time-consuming and subjective, requiring iterative adjustments based on their experience. Deep learning methods can be used to predict dose distribution maps to address these limitations. The study proposes a cascade model for organs at risk segmentation and dose distribution prediction. An encoder-decoder network has been developed for the segmentation task, in which the encoder consists of transformer blocks, and the decoder uses multi-scale convolutional blocks. Another cascade encoder-decoder network has been proposed for dose distribution prediction using a pyramid architecture. The proposed model has been evaluated using an in-house head and neck cancer dataset of 96 patients and OpenKBP, a public head and neck cancer dataset of 340 patients. The segmentation subnet achieved 0.79 and 2.71 for Dice and HD95 scores, respectively. This subnet outperformed the existing baselines. The dose distribution prediction subnet outperformed the winner of the OpenKBP2020 competition with 2.77 and 1.79 for dose and DVH scores, respectively. The predicted dose maps showed good coincidence with ground truth, with a superiority after linking with the auxiliary segmentation task. The proposed model outperformed state-of-the-art methods, especially in regions with low prescribed doses.

Published

2023

4. A Generalised Deep Meta-Learning Model for Automated Quality Control of Cardiovascular Magnetic Resonance Images

Author

Nabavi, Shahabedin, Simchi, Hossein, Moghaddam, Mohsen Ebrahimi, Abin, Ahmad Ali, and Frangi, Alejandro F.

Subjects

Electrical Engineering and Systems Science - Image and Video Processing

Abstract

Background and Objectives: Cardiovascular magnetic resonance (CMR) imaging is a powerful modality in functional and anatomical assessment for various cardiovascular diseases. Sufficient image quality is essential to achieve proper diagnosis and treatment. A large number of medical images, the variety of imaging artefacts, and the workload of imaging centres are among the things that reveal the necessity of automatic image quality assessment (IQA). However, automated IQA requires access to bulk annotated datasets for training deep learning (DL) models. Labelling medical images is a tedious, costly and time-consuming process, which creates a fundamental challenge in proposing DL-based methods for medical applications. This study aims to present a new method for CMR IQA when there is limited access to annotated datasets. Methods: The proposed generalised deep meta-learning model can evaluate the quality by learning tasks in the prior stage and then fine-tuning the resulting model on a small labelled dataset of the desired tasks. This model was evaluated on the data of over 6,000 subjects from the UK Biobank for five defined tasks, including detecting respiratory motion, cardiac motion, Aliasing and Gibbs ringing artefacts and images without artefacts. Results: The results of extensive experiments show the superiority of the proposed model. Besides, comparing the model's accuracy with the domain adaptation model indicates a significant difference by using only 64 annotated images related to the desired tasks. Conclusion: The proposed model can identify unknown artefacts in images with acceptable accuracy, which makes it suitable for medical applications and quality assessment of large cohorts., Comment: 16 pages, 1 figure, 2 tables

Published

2023

5. Stacked Cross-modal Feature Consolidation Attention Networks for Image Captioning

Author

Pourkeshavarz, Mozhgan, Nabavi, Shahabedin, Moghaddam, Mohsen Ebrahimi, and Shamsfard, Mehrnoush

Subjects

Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing

Abstract

Recently, the attention-enriched encoder-decoder framework has aroused great interest in image captioning due to its overwhelming progress. Many visual attention models directly leverage meaningful regions to generate image descriptions. However, seeking a direct transition from visual space to text is not enough to generate fine-grained captions. This paper exploits a feature-compounding approach to bring together high-level semantic concepts and visual information regarding the contextual environment fully end-to-end. Thus, we propose a stacked cross-modal feature consolidation (SCFC) attention network for image captioning in which we simultaneously consolidate cross-modal features through a novel compounding function in a multi-step reasoning fashion. Besides, we jointly employ spatial information and context-aware attributes (CAA) as the principal components in our proposed compounding function, where our CAA provides a concise context-sensitive semantic representation. To make better use of consolidated features potential, we further propose an SCFC-LSTM as the caption generator, which can leverage discriminative semantic information through the caption generation process. The experimental results indicate that our proposed SCFC can outperform various state-of-the-art image captioning benchmarks in terms of popular metrics on the MSCOCO and Flickr30K datasets.

Published

2023

6. Stacked cross-modal feature consolidation attention networks for image captioning

Author

Pourkeshavarz, Mozhgan, Nabavi, Shahabedin, Moghaddam, Mohsen Ebrahimi, and Shamsfard, Mehrnoush

Published

2024

7. Fully Automated Assessment of Cardiac Coverage in Cine Cardiovascular Magnetic Resonance Images using an Explainable Deep Visual Salient Region Detection Model

Author

Nabavi, Shahabedin, Hashemi, Mohammad, Moghaddam, Mohsen Ebrahimi, Abin, Ahmad Ali, and Frangi, Alejandro F.

Subjects

Electrical Engineering and Systems Science - Image and Video Processing

Abstract

Cardiovascular magnetic resonance (CMR) imaging has become a modality with superior power for the diagnosis and prognosis of cardiovascular diseases. One of the essential basic quality controls of CMR images is to investigate the complete cardiac coverage, which is necessary for the volumetric and functional assessment. This study examines the full cardiac coverage using a 3D convolutional model and then reduces the number of false predictions using an innovative salient region detection model. Salient regions are extracted from the short-axis cine CMR stacks using a three-step proposed algorithm. Combining the 3D CNN baseline model with the proposed salient region detection model provides a cascade detector that can reduce the number of false negatives of the baseline model. The results obtained on the images of over 6,200 participants of the UK Biobank population cohort study show the superiority of the proposed model over the previous state-of-the-art studies. The dataset is the largest regarding the number of participants to control the cardiac coverage. The accuracy of the baseline model in identifying the presence/absence of basal/apical slices is 96.25\% and 94.51\%, respectively, which increases to 96.88\% and 95.72\% after improving using the proposed salient region detection model. Using the salient region detection model by forcing the baseline model to focus on the most informative areas of the images can help the model correct misclassified samples' predictions. The proposed fully automated model's performance indicates that this model can be used in image quality control in population cohort datasets and also real-time post-imaging quality assessments.

Published

2022

8. Automatic Multi-Class Cardiovascular Magnetic Resonance Image Quality Assessment using Unsupervised Domain Adaptation in Spatial and Frequency Domains

Author

Nabavi, Shahabedin, Simchi, Hossein, Moghaddam, Mohsen Ebrahimi, Frangi, Alejandro F., and Abin, Ahmad Ali

Subjects

Electrical Engineering and Systems Science - Image and Video Processing

Abstract

Population imaging studies rely upon good quality medical imagery before downstream image quantification. This study provides an automated approach to assess image quality from cardiovascular magnetic resonance (CMR) imaging at scale. We identify four common CMR imaging artefacts, including respiratory motion, cardiac motion, Gibbs ringing, and aliasing. The model can deal with images acquired in different views, including two, three, and four-chamber long-axis and short-axis cine CMR images. Two deep learning-based models in spatial and frequency domains are proposed. Besides recognising these artefacts, the proposed models are suitable to the common challenges of not having access to data labels. An unsupervised domain adaptation method and a Fourier-based convolutional neural network are proposed to overcome these challenges. We show that the proposed models reliably allow for CMR image quality assessment. The accuracies obtained for the spatial model in supervised and weakly supervised learning are 99.41+0.24 and 96.37+0.66 for the UK Biobank dataset, respectively. Using unsupervised domain adaptation can somewhat overcome the challenge of not having access to the data labels. The maximum achieved domain gap coverage in unsupervised domain adaptation is 16.86%. Domain adaptation can significantly improve a 5-class classification task and deal with considerable domain shift without data labels. Increasing the speed of training and testing can be achieved with the proposed model in the frequency domain. The frequency-domain model can achieve the same accuracy yet 1.548 times faster than the spatial model. This model can also be used directly on k-space data, and there is no need for image reconstruction., Comment: 21 pages, 9 figures, 7 tables

Published

2021

9. Anesthetic Management Recommendations Using a Machine Learning Algorithm to Reduce the Risk of Acute Kidney Injury After Cardiac Surgeries

Author

Abin, Ahmad Ali, primary, Molla, Ahmad, additional, Ejmalian, Azar, additional, Nabavi, Shahabedin, additional, Memari, Behnaz, additional, Fani, Kamal, additional, and Dabbagh, Ali, additional

Published

2024

10. Automated cardiac coverage assessment in cardiovascular magnetic resonance imaging using an explainable recurrent 3D dual‐domain convolutional network.

Author

Nabavi, Shahabedin, Hashemi, Mohammad, Ebrahimi Moghaddam, Mohsen, Abin, Ahmad Ali, and Frangi, Alejandro F.

Subjects

*CARDIAC magnetic resonance imaging, *CARDIOVASCULAR disease diagnosis, *IMAGE analysis, *MAGNETIC resonance, *COHORT analysis

Abstract

Background Purpose Methods Results Conclusion Cardiovascular magnetic resonance (CMR) imaging has become a modality with superior power for the diagnosis and prognosis of cardiovascular diseases. One of the essential quality controls of CMR images is to investigate the complete cardiac coverage, which is necessary for the volumetric and functional assessment.This study examines the full cardiac coverage using a 3D dual‐domain convolutional model and then improves this model using an innovative explainable salient region detection model and a recurrent architecture.Salient regions are extracted from the short‐axis cine CMR stacks using a three‐step proposed algorithm. Changing the architecture of the 3D dual‐domain convolutional model to a recurrent one and taking advantage of the salient region detection model creates a kind of attention mechanism that leads to improved results.The results obtained from the images of over 6200 participants of the UK Biobank population cohort study show the superiority of the proposed model over the previous studies. The dataset is the largest regarding the number of participants to control the cardiac coverage. The accuracies of the proposed model in identifying the presence/absence of basal/apical slices are 96.22% and 95.42%, respectively.The proposed recurrent architecture of the 3D dual‐domain convolutional model can force the model to focus on the most informative areas of the images using the extracted salient regions, which can help the model improve accuracy. The performance of the proposed fully automated model indicates that it can be used for image quality control in population cohort datasets and real‐time post‐imaging quality assessments. Codes are available at https://github.com/mohammadhashemii/CMR_Cardiac_Coverage_Control [ABSTRACT FROM AUTHOR]

Published

2024

11. Using social media for flight path safety assessment

Author

Abin, Ahmad Ali, Nabavi, Shahabedin, and Ebrahimi Moghaddam, Mohsen

Published

2021

12. Anesthetic Management Recommendations Using a Machine Learning Algorithm to Reduce the Risk of Acute Kidney Injury After Cardiac Surgeries.

Author

AliAbin, Ahmad, Molla, Ahmad, Ejmalian, Azar, Nabavi, Shahabedin, Memari, Behnaz, Fani, Kamal, and Dabbagh, Ali

Subjects

MACHINE learning, ANESTHETICS, CARDIAC surgery, ACUTE kidney failure, ALGORITHMS

Abstract

The article focuses on the application of machine learning algorithms to enhance anesthetic management during cardiac surgeries, aiming to reduce the risk of acute kidney injury (AKI). It states that by analyzing preoperative and intraoperative data, the study introduces a machine learning model designed to optimize anesthesia parameters and minimize the likelihood of postoperative kidney damage.

Published

2024

13. Machine Learning-Guided Anesthesiology: A Review of Recent Advances and Clinical Applications

Author

Hashemi, Sana, primary, Yousefzadeh, Zohreh, additional, Abin, Ahmad Ali, additional, Ejmalian, Azar, additional, Nabavi, Shahabedin, additional, and Dabbagh, Ali, additional

Published

2024

14. A cascade transformer-based model for 3D dose distribution prediction in head and neck cancer radiotherapy

Author

Gheshlaghi, Tara, primary, Nabavi, Shahabedin, additional, Shirzadikia, Samire, additional, Ebrahimi Moghaddam, mohsen, additional, and Rostampour, Nima, additional

Published

2024

15. A generalised deep meta-learning model for automated quality control of cardiovascular magnetic resonance images

Author

Nabavi, Shahabedin, primary, Simchi, Hossein, additional, Moghaddam, Mohsen Ebrahimi, additional, Abin, Ahmad Ali, additional, and Frangi, Alejandro F., additional

Published

2023

16. A Framework for Automated Cardiovascular Magnetic Resonance Image Quality Scoring based on EuroCMR Registry Criteria

Author

Nabavi, Shahabedin, primary, Moghaddam, Mohsen Ebrahimi, additional, Abin, Ahmad Ali, additional, and Frangi, Alejandro F., additional

Published

2023

17. Stacked cross-modal feature consolidation attention networks for image captioning

Author

Pourkeshavarz, Mozhgan, primary, Nabavi, Shahabedin, additional, Moghaddam, Mohsen Ebrahimi, additional, and Shamsfard, Mehrnoush, additional

Published

2023

18. Prediction of Acute Kidney Injury After Cardiac Surgery Using Interpretable Machine Learning

Author

Ejmalian, Azar, primary, Aghaei, Atefe, additional, Nabavi, Shahabedin, additional, Abedzadeh Darabad, Maryam, additional, Tajbakhsh, Ardeshir, additional, Abin, Ahmad Ali, additional, Ebrahimi Moghaddam, Mohsen, additional, Dabbagh, Ali, additional, Jahangirifard, Alireza, additional, Memary, Elham, additional, and Sayyadi, Shahram, additional

Published

2022