A Clinical Decision Support System (CDSS) for Unbiased Prediction of Caesarean Section Based on Features Extraction and Optimized Classification

Nowadays, caesarean section (CS) is given preference over vaginal birth and this trend is rapidly rising around the globe, although CS has serious complications such as pregnancy scar, scar dehiscence, and morbidly adherent placenta. Thus, CS should only be performed when it is absolutely necessary...

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Bibliographic Details
Published in:Computational intelligence and neuroscience 2022, Vol.2022, p.1901735-13
Main Authors: Javeed, Ashir, Ali, Liaqat, Mohammed Seid, Abegaz, Ali, Arif, Khan, Dilpazir, Imrana, Yakubu
Format: Article
Language:English
Subjects:
Accuracy
Algorithms
Cesarean Section
Childbirth & labor
Cicatrix
Classification
Conditioned stimulus
Datasets
Decision support systems
Decision Support Systems, Clinical
Decision trees
Dehiscence
Electronic health records
Electronic medical records
Feature extraction
Female
Fetuses
Humans
Machine Learning
Medical records
Medical research
Medicin och hälsovetenskap
Model testing
Oversampling
Parkinson's disease
Placenta
Pregnancy
Pregnancy complications
Pregnant women
Principal components analysis
Search algorithms
Support vector machines
Vagina
Womens health
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Summary:Nowadays, caesarean section (CS) is given preference over vaginal birth and this trend is rapidly rising around the globe, although CS has serious complications such as pregnancy scar, scar dehiscence, and morbidly adherent placenta. Thus, CS should only be performed when it is absolutely necessary for mother and fetus. To avoid unnecessary CS, researchers have developed different machine-learning- (ML-) based clinical decision support systems (CDSS) for CS prediction using electronic health record of the pregnant women. However, previously proposed methods suffer from the problems of poor accuracy and biasedness in ML. To overcome these problems, we have designed a novel CDSS where random oversampling example (ROSE) technique has been used to eliminate the problem of minority classes in the dataset. Furthermore, principal component analysis has been employed for feature extraction from the dataset while, for classification purpose, random forest (RF) model is deployed. We have fine-tuned the hyperparameter of RF using a grid search algorithm for optimal classification performance. Thus, the newly proposed system is named ROSE-PCA-RF and it is trained and tested using an online CS dataset available on the UCI repository. In the first experiment, conventional RF model is trained and tested on the dataset while in the second experiment, the proposed model is tested. The proposed ROSE-PCA-RF model improved the performance of traditional RF by 4.5% with reduced time complexity, while only using two extracted features through the PCA. Moreover, the proposed model has obtained 96.29% accuracy on training data while improving the accuracy of 97.12% on testing data.
ISSN:1687-5265
1687-5273
1687-5273
DOI:10.1155/2022/1901735