1.Neural Network Based Response Prediction of rTMS in Major Depressive Disorder Using QEEG Cordance.
Turker Tekin ERGUZEL ; Serhat OZEKES ; Selahattin GULTEKIN ; Nevzat TARHAN ; Gokben HIZLI SAYAR ; Ali BAYRAM
Psychiatry Investigation 2015;12(1):61-65
OBJECTIVE: The combination of repetitive transcranial magnetic stimulation (rTMS), a non-pharmacological form of therapy for treating major depressive disorder (MDD), and electroencephalogram (EEG) is a valuable tool for investigating the functional connectivity in the brain. This study aims to explore whether pre-treating frontal quantitative EEG (QEEG) cordance is associated with response to rTMS treatment among MDD patients by using an artificial intelligence approach, artificial neural network (ANN). METHODS: The artificial neural network using pre-treatment cordance of frontal QEEG classification was carried out to identify responder or non-responder to rTMS treatment among 55 MDD subjects. The classification performance was evaluated using k-fold cross-validation. RESULTS: The ANN classification identified responders to rTMS treatment with a sensitivity of 93.33%, and its overall accuracy reached to 89.09%. Area under Receiver Operating Characteristic (ROC) curve (AUC) value for responder detection using 6, 8 and 10 fold cross validation were 0.917, 0.823 and 0.894 respectively. CONCLUSION: Potential utility of ANN approach method can be used as a clinical tool in administering rTMS therapy to a targeted group of subjects suffering from MDD. This methodology is more potentially useful to the clinician as prediction is possible using EEG data collected before this treatment process is initiated. It is worth using feature selection algorithms to raise the sensitivity and accuracy values.
Artificial Intelligence
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Brain
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Classification
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Depressive Disorder, Major*
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Electroencephalography
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Humans
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ROC Curve
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Transcranial Magnetic Stimulation
2.Ant Colony Optimization Based Feature Selection Method for QEEG Data Classification.
Turker Tekin ERGUZEL ; Serhat OZEKES ; Selahattin GULTEKIN ; Nevzat TARHAN
Psychiatry Investigation 2014;11(3):243-250
OBJECTIVE: Many applications such as biomedical signals require selecting a subset of the input features in order to represent the whole set of features. A feature selection algorithm has recently been proposed as a new approach for feature subset selection. METHODS: Feature selection process using ant colony optimization (ACO) for 6 channel pre-treatment electroencephalogram (EEG) data from theta and delta frequency bands is combined with back propagation neural network (BPNN) classification method for 147 major depressive disorder (MDD) subjects. RESULTS: BPNN classified R subjects with 91.83% overall accuracy and 95.55% subjects detection sensitivity. Area under ROC curve (AUC) value after feature selection increased from 0.8531 to 0.911. The features selected by the optimization algorithm were Fp1, Fp2, F7, F8, F3 for theta frequency band and eliminated 7 features from 12 to 5 feature subset. CONCLUSION: ACO feature selection algorithm improves the classification accuracy of BPNN. Using other feature selection algorithms or classifiers to compare the performance for each approach is important to underline the validity and versatility of the designed combination.
Ants*
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Classification*
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Depressive Disorder, Major
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Electroencephalography
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ROC Curve