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Literature DB >> 16446164

Degree prediction of malignancy in brain glioma using support vector machines.

Guo-Zheng Li¹, Jie Yang, Chen-Zhou Ye, Dao-Ying Geng.

Abstract

The degree of malignancy in brain glioma needs to be assessed by MRI findings and clinical data before operations. There have been previous attempts to solve this problem with a fuzzy rule extraction algorithm based on fuzzy min-max neural networks. We utilize support vector machines with floating search method to select relevant features and to predict the degree of malignancy. Computation results show that the feature subset selected by our techniques can yield better classification performance. In contrast with the base line method, which generated two rules and obtained 83.21% accuracy on the whole data set, our method generates one rule to yield 88.21% accuracy.

Entities: Disease

Mesh：

Year: 2006 PMID： 16446164 DOI： 10.1016/j.compbiomed.2004.11.003

Source DB: PubMed Journal: Comput Biol Med ISSN： 0010-4825 Impact factor: 4.589

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Cited

16 in total

1. Investigating machine learning techniques for MRI-based classification of brain neoplasms.

Authors: Evangelia I Zacharaki; Vasileios G Kanas; Christos Davatzikos
Journal: Int J Comput Assist Radiol Surg Date: 2011-04-23 Impact factor: 2.924

2. Fast spectroscopic multiple analysis (FASMA) for brain tumor classification: a clinical decision support system utilizing multi-parametric 3T MR data.

Authors: Evangelia Tsolaki; Patricia Svolos; Evanthia Kousi; Eftychia Kapsalaki; Ioannis Fezoulidis; Konstantinos Fountas; Kyriaki Theodorou; Constantine Kappas; Ioannis Tsougos
Journal: Int J Comput Assist Radiol Surg Date: 2014-07-15 Impact factor: 2.924

10. A novel approach for prediction of tacrolimus blood concentration in liver transplantation patients in the intensive care unit through support vector regression.

Authors: Stijn Van Looy; Thierry Verplancke; Dominique Benoit; Eric Hoste; Georges Van Maele; Filip De Turck; Johan Decruyenaere
Journal: Crit Care Date: 2007 Impact factor: 9.097

Degree prediction of malignancy in brain glioma using support vector machines.

1. Investigating machine learning techniques for MRI-based classification of brain neoplasms.

2. Fast spectroscopic multiple analysis (FASMA) for brain tumor classification: a clinical decision support system utilizing multi-parametric 3T MR data.

3. Brain Tumor Detection by Using Stacked Autoencoders in Deep Learning.

4. A tool for improving the longitudinal imaging characterization for neuro-oncology cases.

5. Automated differentiation of glioblastomas from intracranial metastases using 3T MR spectroscopic and perfusion data.

6. Non-diffeomorphic registration of brain tumor images by simulating tissue loss and tumor growth.

7. Classification of brain tumor type and grade using MRI texture and shape in a machine learning scheme.

8. Computer-assisted lip diagnosis on Traditional Chinese Medicine using multi-class support vector machines.

9. Multispectral co-occurrence of wavelet coefficients for malignancy assessment of brain tumors.

10. A novel approach for prediction of tacrolimus blood concentration in liver transplantation patients in the intensive care unit through support vector regression.