Closing the Gap in Surveillance and Audit of Invasive Mold Diseases for Antifungal Stewardship Using Machine Learning.
Diva BaggioTrisha PeelAnton Y PelegSharon AveryMadhurima PrayagaMichelle FooGholamreza HaffariMing LiuChristoph BergmeirMichelle R Ananda-RajahPublished in: Journal of clinical medicine (2019)
Clinical audit of invasive mold disease (IMD) in hematology patients is inefficient due to the difficulties of case finding. This results in antifungal stewardship (AFS) programs preferentially reporting drug cost and consumption rather than measures that actually reflect quality of care. We used machine learning-based natural language processing (NLP) to non-selectively screen chest tomography (CT) reports for pulmonary IMD, verified by clinical review against international definitions and benchmarked against key AFS measures. NLP screened 3014 reports from 1 September 2008 to 31 December 2017, generating 784 positives that after review, identified 205 IMD episodes (44% probable-proven) in 185 patients from 50,303 admissions. Breakthrough-probable/proven-IMD on antifungal prophylaxis accounted for 60% of episodes with serum monitoring of voriconazole or posaconazole in the 2 weeks prior performed in only 53% and 69% of episodes, respectively. Fiberoptic bronchoscopy within 2 days of CT scan occurred in only 54% of episodes. The average turnaround of send-away bronchoalveolar galactomannan of 12 days (range 7-22) was associated with high empiric liposomal amphotericin consumption. A random audit of 10% negative reports revealed two clinically significant misses (0.9%, 2/223). This is the first successful use of applied machine learning for institutional IMD surveillance across an entire hematology population describing process and outcome measures relevant to AFS. Compared to current methods of clinical audit, semi-automated surveillance using NLP is more efficient and inclusive by avoiding restrictions based on any underlying hematologic condition, and has the added advantage of being potentially scalable.
Keyphrases
- machine learning
- end stage renal disease
- public health
- chronic kidney disease
- newly diagnosed
- ejection fraction
- computed tomography
- candida albicans
- adverse drug
- prognostic factors
- peritoneal dialysis
- autism spectrum disorder
- palliative care
- magnetic resonance imaging
- quality improvement
- high throughput
- magnetic resonance
- contrast enhanced
- big data
- dual energy
- positron emission tomography
- single cell
- chronic pain
- patient reported outcomes
- drug induced