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16-03-2023

Early Diagnosis Model of Alzheimer’s Disease Based on Hybrid Meta-Heuristic with Regression Based Multi Feed Forward Neural Network

Author: B. Rajasekhar

Published in: Wireless Personal Communications | Issue 3/2023

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Abstract

Alzheimer Disease is a chronic neurological brain disease. Early diagnosis of Alzheimer illness may the prevent the occurrence of memory cellular injury. Neuropsychological tests are commonly used to diagnose Alzheimer's disease. The above technique, has a limited specificity and sensitivity. This article suggests solutions to this issue an early diagnosis model of Alzheimer’s disease based on a hybrid meta-heuristic with a multi-feed-forward neural network. The proposed Alzheimer’s disease detection model includes four major phases: pre-processing, feature extraction, feature selection and classification (disease detection). Initially, the collected raw data is pre-processed using the SPMN12 package of MATLAB. Then, from the pre-processed data, the statistical features (mean, median and standard deviation) and DWT are extracted. Then, from the extracted features, the optimal features are selected using the new Hybrid Sine cosine firefly (HSCAFA). This HSCAFA is a conceptual improvement of standard since cosine optimization and firefly optimization algorithm, respectively. Finally, the disease detection is accomplished via the new regression-based multi-faith neighbors’ network (MFNN). The final detected outcome is acquired from regression-based MFNN. The proposed methodology is performed on the PYTHON platform and the performances are evaluated by the matrices such as precision, recall, and accuracy.

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Chen, X., Li, L., Sharma, A., Dhiman, G., & Vimal, S. (2022). The application of convolutional neural network model in diagnosis and nursing of MR imaging in Alzheimer’s disease. Interdisciplinary Sciences: Computational Life Sciences, 14(1), 34–44.

AbdulAzeem, Y., Bahgat, W. M., & Badawy, M. (2021). A CNN based framework for classification of Alzheimer’s disease. Neural Computing and Applications, 33(16), 10415–10428.CrossRef

Anter, A. M., Wei, Y., Su, J., Yuan, Y., Lei, B., Duan, G., Mai, W., Nong, X., Yu, B., Li, C., & Fu, Z. (2019). A robust swarm intelligence-based feature selection model for neuro-fuzzy recognition of mild cognitive impairment from resting-state fMRI. Information Sciences, 503, 670–687.MathSciNetCrossRef

Babu, G. S., Rao, S. T., & Rao, R. R. (2022). Automated assessment for Alzheimer’s disease diagnosis from MRI images: Meta-heuristic assisted deep learning model. International Journal of Imaging Systems and Technology, 32(2), 544–563.CrossRef

Islam, J., & Zhang, Y. (2018). Brain MRI analysis for Alzheimer’s disease diagnosis using an ensemble system of deep convolutional neural networks. Brain Informatics, 5(2), 1–14.CrossRef

Mehmood, A., Maqsood, M., Bashir, M., & Shuyuan, Y. (2020). A deep Siamese convolution neural network for multi-class classification of Alzheimer disease. Brain Sciences, 10(2), 84.CrossRef

Spasov, S., Passamonti, L., Duggento, A., Lio, P., Toschi, N., & Initiative, A. D. N. (2019). A parameter-efficient deep learning approach to predict conversion from mild cognitive impairment to Alzheimer’s disease. NeuroImage, 189, 276–287.CrossRef

Wang, S. H., Phillips, P., Sui, Y., Liu, B., Yang, M., & Cheng, H. (2018). Classification of Alzheimer’s disease based on eight-layer convolutional neural network with leaky rectified linear unit and max pooling. Journal of Medical Systems, 42(5), 1–11.CrossRef

Berretta, R., Costa, W., & Moscato, P. (2008). Combinatorial optimization models for finding genetic signatures from gene expression datasets. In Bioinformatics (pp. 363–377). Humana Press.

10.

Basher, A., Kim, B. C., Lee, K. H., & Jung, H. Y. (2021). Volumetric feature-based Alzheimer’s disease diagnosis from sMRI data using a convolutional neural network and a deep neural network. IEEE Access, 9, 29870–29882.CrossRef

11.

Giovannetti, A., Susi, G., Casti, P., Mencattini, A., Pusil, S., Lopez, M. E., Di Natale, C., & Martinelli, E. (2021). Deep-MEG: Spatiotemporal CNN features and multiband ensemble classification for predicting the early signs of Alzheimer’s disease with magnetoencephalography. Neural Computing and Applications, 33(21), 14651–14667.CrossRef

12.

Helaly, H.A., Badawy, M., & Haikal, A.Y. (2021). deep learning approach for early detection of Alzheimer’s disease. In Cognitive Computation (pp.1–17).

13.

Khagi, B., & Kwon, G. R. (2020). 3D CNN design for the classification of Alzheimer’s disease using brain MRI and PET. IEEE Access, 8, 217830–217847.CrossRef

14.

Khagi, B., Kwon, G. R., & Lama, R. (2019). Comparative analysis of Alzheimer’s disease classification by CDR level using CNN, feature selection, and machine-learning techniques. International Journal of Imaging Systems and Technology, 29(3), 297–310.CrossRef

15.

Jha, D., Kim, J.I., & Kwon, G.R. (2017). Diagnosis of Alzheimer’s disease using dual-tree complex wavelet transform, PCA, and feed-forward neural network. Journal of Healthcare Engineering, 2017.

16.

Ghazi, M. M., Nielsen, M., Pai, A., Cardoso, M. J., Modat, M., Ourselin, S., Sørensen, L., Alzheimer’s Disease Neuroimaging Initiative. (2019). Training recurrent neural networks robust to incomplete data: application to Alzheimer’s disease progression modeling. Medical Image Analysis, 53, 39–46.CrossRef

17.

Raju, M., Gopi, V. P., Anitha, V. S., & Wahid, K. A. (2020). Multi-class diagnosis of Alzheimer’s disease using cascaded three dimensional-convolutional neural network. Physical and Engineering Sciences in Medicine, 43(4), 1219–1228.CrossRef

18.

Basaia, S., Agosta, F., Wagner, L., Canu, E., Magnani, G., Santangelo, R., Filippi, M., Alzheimer’s Disease Neuroimaging Initiative. (2019). Automated classification of Alzheimer’s disease and mild cognitive impairment using a single MRI and deep neural networks. NeuroImage: Clinical, 21, 101645.CrossRef

19.

Liu, J., Li, M., Luo, Y., Yang, S., Li, W., & Bi, Y. (2021). Alzheimer’s disease detection using depthwise separable convolutional neural networks. Computer Methods and Programs in Biomedicine, 203, 106032.CrossRef

20.

Ebrahimi, A., Luo, S., Chiong, R., & Initiative, A. D. N. (2021). Deep sequence modelling for Alzheimer’s disease detection using MRI. Computers in Biology and Medicine, 134, 104537.CrossRef

21.

Jain, N., Aggarwal, A., & Hemanth, D. J. (2019). Convolutional neural network based Alzheimer’s disease classification from magnetic resonance brain images. Cognitive Systems Research, 57, 147–159.CrossRef

22.

Francis, A., & Pandian, I. A. (2021). Early detection of Alzheimer’s disease using local binary pattern and convolutional neural network. Multimedia Tools and Applications, 80(19), 29585–29600.CrossRef

23.

Park, C., Ha, J., & Park, S. (2020). Prediction of Alzheimer’s disease based on deep neural network by integrating gene expression and DNA methylation dataset. Expert Systems with Applications, 140, 112873.CrossRef

24.

Ahmad, I., & Pothuganti, K. (2020). Analysis of different convolution neural network models to diagnose Alzheimer’s disease. In Materials Today: Proceedings.

25.

Liu, M., Li, F., Yan, H., Wang, K., Ma, Y., Shen, L., Xu, M., Alzheimer’s Disease Neuroimaging Initiative. (2020). A multi-model deep convolutional neural network for automatic hippocampus segmentation and classification in Alzheimer’s disease. NeuroImage, 208, 116459.CrossRef

Title: Early Diagnosis Model of Alzheimer’s Disease Based on Hybrid Meta-Heuristic with Regression Based Multi Feed Forward Neural Network
Author: B. Rajasekhar
Publication date: 16-03-2023
Publisher: Springer US
Published in: Wireless Personal Communications / Issue 3/2023
Print ISSN: 0929-6212
Electronic ISSN: 1572-834X
DOI: https://doi.org/10.1007/s11277-023-10346-y

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