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Kyle Belanger
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2 changed files with 15 additions and 7 deletions
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@ -211,14 +211,14 @@ tree-based learning algorithms and neural networks often performed best.
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@tbl-lab_ml displays the overview of their research.
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| **Author and Year** | **Objective and Machine Learning Task** | **Best Model** | **Major Themes** |
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|:-----------------|:-----------------|:-----------------|:-----------------|
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|:--------------------|:-----------------------------------------------------------------------------------------------------------------------|:----------------------|:---------------------------------------|
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| Azarkhish (2012) | Predict iron deficiency anemia and serum iron levels from CBC indices | Neural Network | Prediction |
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| Cao (2012) | Triage manual review for urinalysis samples | Tree-based | Automation |
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| Yang (2013) | Predict normal reference ranges of ESR for various laboratories based on geographic and other clinical features | Neural Network | Interpretation |
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| Lidbury (2015) | Predict liver function test results from other tests in the panel, highlighting redundancy in the liver function panel | Tree-based | Prediction, Utilization |
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| Demirci (2016) | Classify whether critical lab result is valid or invalid using other lab values and clinical information | Neural Network | Automation, Interpretation, Validation |
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| Luo (2016) | Predict ferritin from other tests in iron panel | Tree-based | Prediction, Utilization |
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| Poole (2016) | Create personalized reference ranges that take into account patients\' diagnoses | Unsupervised learning | Interpretation |
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| Poole (2016) | Create personalized reference ranges that take into account patients' diagnoses | Unsupervised learning | Interpretation |
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| Parr (2018) | Automate mapping of Veterans Affair laboratory data to LOINC codes | Tree-based | Information systems, Automation |
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| Wilkes (2018) | Classify urine steroid profiles as normal or abnormal, and further interpret into specific disease processes | Tree-based | Interpretation, Automation |
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| Fillmore (2019) | Automate mapping of Veterans Affair laboratory data to LOINC codes | Tree-based | Information systems, Automation |
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18
chapter5.qmd
18
chapter5.qmd
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@ -15,11 +15,12 @@ the algorithm had a false positive rate of 8% and a false negative rate
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of 20%. In the original data, 67% of the time, the result was
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non-diagnostic for Hyper-Thryodism.
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1846 - Hypo
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423 - Hyper
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9170 - High TSH (hypo)
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While TSH was expected to be the most important variable in building
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random forest models, it was quite unexpected that the next three values
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would be Hematology results. In the clinical laboratory, TSH and CBCs
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are often run on different analyzers and often in completely different
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departments. Finding this slight correlation could be valuable to
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building further algorithms.
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## Real World Applications
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@ -49,6 +50,13 @@ informationally redundant testing [@luo2016]. However, since Free T4 and
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all other tests used in this study are performed on automated
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instruments, the cost savings to the lab and patient may be minimal.
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As Rabbani et al. study showed, Machine Learning in the Clinical
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Laboratory is an emerging field. However, few existing studies relate to
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predicting laboratory values based on other results [-@rabbani2022]. The
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few studies that do exist follow a similar premise. All are trying to
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reduce redundant laboratory testing and thus lower the cost burden on
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the patient.
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## Study Limitations
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Section overview - In progress
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