AI Article Synopsis
- The Papanicolaou smear has proven effective in reducing cervical cancer rates in developed countries, but implementing it in developing countries presents various challenges.
- Quantitative cytology has emerged as a promising semi-automated screening test, but its data structure, which involves multiple cell measurements per patient, complicates traditional classification methods.
- A study evaluating three approaches found that classifying at the cellular level and counting the number of high-probability cells yielded the best results, achieving 61% sensitivity and 89% specificity in predicting biopsy outcomes.
Article Abstract
Although the Papanicolaou smear has been successful in decreasing cervical cancer incidence in the developed world, there exist many challenges for implementation in the developing world. Quantitative cytology, a semi-automated method that quantifies cellular image features, is a promising screening test candidate. The nested structure of its data (measurements of multiple cells within a patient) provides challenges to the usual classification problem. Here we perform a comparative study of three main approaches for problems with this general data structure: a) extract patient-level features from the cell-level data; b) use a statistical model that accounts for the hierarchical data structure; and c) classify at the cellular level and use an ad hoc approach to classify at the patient level. We apply these methods to a dataset of 1,728 patients, with an average of 2,600 cells collected per patient and 133 features measured per cell, predicting whether a patient had a positive biopsy result. The best approach we found was to classify at the cellular level and count the number of cells that had a posterior probability greater than a threshold value, with estimated 61% sensitivity and 89% specificity on independent data. Recent statistical learning developments allowed us to achieve high accuracy.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4659436 | PMC |
| http://dx.doi.org/10.1002/sam.11261 | DOI Listing |
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