Discrimination of malignant from benign thyroid lesions through neural networks using FTIR signals obtained from tissues

Creator

Abegail Santillan, University of Santo Tomas, Manila
Rock Christian V. Tomas, University of the Philippines Los Banos
Ruth Bangaoil, University of Santo Tomas, Manila
Rolando Lopez, University of Santo Tomas Hospital
Maria Honolina S. Gomez, University of Santo Tomas Hospital
Allan Fellizar, University of Santo Tomas, Manila
Antonio Lim, Divine Word Hospital
Lorenzo Abanilla, Divine Word Hospital
Maria Cristina R. Ramos, University of Santo Tomas, Manila
Leonardo Guevarra, Jr., University of Santo Tomas
Pia Marie Albano, University of Santo Tomas

Issue Date

2-2021

Abstract

The current gold standard in cancer diagnosis—the microscopic examination of hematoxylin and eosin (H&E)–stained biopsies—is prone to bias since it greatly relies on visual examination. Hence, there is a need to develop a more sensitive and specific method for diagnosing cancer. Here, Fourier transform infrared (FTIR) spectroscopy of thyroid tumors (n = 164; 76 malignant, 88 benign) was performed and five (5) neural network (NN) models were designed to discriminate the obtained spectral data. PCA-LDA was used as classical benchmark for comparison. Each NN model was evaluated using a stratified 10-fold cross-validation method to avoid overfitting, and the performance metrics—accuracy, area under the curve (AUC), positive predictive value (PPV), negative predictive value (NPV), specificity rate (SR), and recall rate (RR)—were averaged for comparison. All NN models were able to perform excellently as classifiers, and all were able to surpass the LDA model in terms of accuracy. Among the NN models, the RNN model performed best, having an AUC of 95.29% ± 6.08%, an accuracy of 98.06% ± 2.87%, a PPV of 98.57% ± 4.52%, a NPV of 93.18% ± 7.93%, a SR value of 98.89% ± 3.51%, and a RR value of 91.25% ± 10.29%. The RNN model outperformed the LDA model for all metrics except for the AUC, NPV, and RR. In conclusion, NN-based tools were able to predict thyroid cancer based on infrared spectroscopy of tissues with a high level of diagnostic performance in comparison to the gold standard.

Source or Periodical Title

Analytical and Bioanalytical Chemistry

ISSN

1618-2642

Volume

413

Issue

8

Page

2163-2180.

Document Type

Article

Physical Description

diagram, graphs, tables

Language

English

Subject

Diagnosis, Infrared spectroscopy, Neural networks, Pathologists, Scaled exponential linear units (SELU), Thyroid cancer

Recommended Citation

Santillan, A., Tomas, R.C., Bangaoil, R., Lopez, R., Gomez, M.H., Fellizar, A., Lim, A., Abanilla, L., Ramos, M.C., Guevarra Jr, L., Albano, P. (2021). Discrimination of malignant from benign thyroid lesions through neural networks using FTIR signals obtained from tissues. Analytical and Bioanalytical Chemistry, 413 (8), 2163-2180. 10.1007/s00216-021-03183-0.

Identifier

DOI:10.1007/s00216-021-03183-0

Digital Copy

yes

En – AGROVOC descriptors

DIAGNOSIS; INFRARED SPECTROSCOPY; NEURAL NETWORKS; PATHOLOGISTS; SCALED EXPONENTIAL LINEAR UNITS (SELU); THYROID CANCER