AI Article Synopsis
- Lung cancer is a prevalent type of cancer, and despite existing diagnostic methods like X-rays and CT scans, there is a pressing need for faster and non-invasive early detection techniques.
- A novel saliva "dip" test analyzed through advanced spectroscopy and statistical models was developed, utilizing 1944 samples, including both lung-cancer positive and control groups.
- The results showed high sensitivity (100%) and specificity (99.1%), identifying key wavenumbers associated with lung cancer, which indicates a promising approach for differentiating between healthy and cancerous samples using biospectroscopy.
Article Abstract
Lung cancer is one of the most commonly occurring malignant tumours worldwide. Although some reference methods such as X-ray, computed tomography or bronchoscope are widely used for clinical diagnosis of lung cancer, there is still a need to develop new methods for early detection of lung cancer. Especially needed are approaches that might be non-invasive and fast with high analytical precision and statistically reliable. Herein, we developed a swab "dip" test in saliva whereby swabs were analysed using attenuated total reflection Fourier-transform infrared (ATR-FTIR) spectroscopy harnessed to principal component analysis-quadratic discriminant analysis (QDA) and variable selection techniques employing successive projections algorithm (SPA) and genetic algorithm (GA) for feature selection/extraction combined with QDA. A total of 1944 saliva samples (56 designated as lung-cancer positive and 1888 designed as controls) were obtained in a lung cancer-screening programme being undertaken in North-West England. GA-QDA models achieved, for the test set, sensitivity and specificity values of 100.0% and 99.1%, respectively. Three wavenumbers (1422 cm, 1546 cm and 1578 cm) were identified using the GA-QDA model to distinguish between lung cancer and controls, including ring C-C stretching, CN adenine, Amide II [(NH), (CN)] and (COO) (polysaccharides, pectin). These findings highlight the potential of using biospectroscopy associated with multivariate classification algorithms to discriminate between benign saliva samples and those with underlying lung cancer.
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| http://dx.doi.org/10.1039/d4an00726c | DOI Listing |
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