The development of a novel natural language processing tool to identify pediatric chest radiograph reports with pneumonia

Rixe, Nancy S.; Frisch, Adam; Wang, Zhendong; Martin, Judith M.; Suresh, Srinivasan; Florin, Todd A.; Ramgopal, Sriram

doi:10.3389/fdgth.2023.1104604

Cited by 2 publications

(1 citation statement)

References 45 publications

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“…The improvement or the deterioration of the patient's condition can be made achievable with the help of the presented data where the disease prediction and the stage can be easily identified. This is enabled due to the prevalence of data analytics within the sensor system and helps in obtaining a highly accurate prediction of the outcome of the patient [25].…”

Section: Predicting Pathogenic Pneumoniae Infection In Newborns With ...mentioning

confidence: 99%

Clinical Indicator Analysis for Predicting Pathogenic Pneumonia Infection in Newborns with Distributed Sensor Networks Data Analytics

Zhang,

Dong

2023

SCPE

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Neonatal infections are prevalent as newborn children are prone to a range of infections because of their absence of immunity. Being susceptible to various diseases, the immune system of infants is not adequately developed to fight against protozoa bacteria, viruses and parasites. Pathogenic pneumonia is one of the most common infections identified within the neonatal group. It is a lung infection occurring in the neonates, which can start after a few hours of delivery or even after a week. The infection can even occur due to the normal flora found in the genital tract of the mother, and the respiratory distress caused by pathogenic pneumonia can even lead to the infant's death. The study examined the clinical indicator for assessing the occurrence of pathogenic pneumonia in infants. With the help of sensor networking in data analytics, the prediction of such a disorder has been assessed in-depth in the article.

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Section: Predicting Pathogenic Pneumoniae Infection In Newborns With ...mentioning

confidence: 99%

Clinical Indicator Analysis for Predicting Pathogenic Pneumonia Infection in Newborns with Distributed Sensor Networks Data Analytics

Zhang,

Dong

2023

SCPE

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Preferences for Management of Pediatric Pneumonia

Ramgopal,

Belanger,

Lorenz

et al. 2024

Pediatr Emer Care

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Background It is unknown which factors are associated with chest radiograph (CXR) and antibiotic use for suspected community-acquired pneumonia (CAP) in children. We evaluated factors associated with CXR and antibiotic preferences among clinicians for children with suspected CAP using case scenarios generated through artificial intelligence (AI). Methods We performed a survey of general pediatric, pediatric emergency medicine, and emergency medicine attending physicians employed by a private physician contractor. Respondents were given 5 unique, AI-generated case scenarios. We used generalized estimating equations to identify factors associated with CXR and antibiotic use. We evaluated the cluster-weighted correlation between clinician suspicion and clinical prediction model risk estimates for CAP using 2 predictive models. Results A total of 172 respondents provided responses to 839 scenarios. Factors associated with CXR acquisition (OR, [95% CI]) included presence of crackles (4.17 [2.19, 7.95]), prior pneumonia (2.38 [1.32, 4.20]), chest pain (1.90 [1.18, 3.05]) and fever (1.82 [1.32, 2.52]). The decision to use antibiotics before knowledge of CXR results included past hospitalization for pneumonia (4.24 [1.88, 9.57]), focal decreased breath sounds (3.86 [1.98, 7.52]), and crackles (3.45 [2.15, 5.53]). After revealing CXR results to clinicians, these results were the sole predictor associated with antibiotic decision-making. Suspicion for CAP correlated with one of 2 prediction models for CAP (Spearman's rho = 0.25). Factors associated with a greater suspicion of pneumonia included prior pneumonia, duration of illness, worsening course of illness, shortness of breath, vomiting, decreased oral intake or urinary output, respiratory distress, head nodding, focal decreased breath sounds, focal rhonchi, fever, and crackles, and lower pulse oximetry. Conclusions Ordering preferences for CXRs demonstrated similarities and differences with evidence-based risk models for CAP. Clinicians relied heavily on CXR findings to guide antibiotic ordering. These findings can be used within decision support systems to promote evidence-based management practices for pediatric CAP.

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The development of a novel natural language processing tool to identify pediatric chest radiograph reports with pneumonia

Cited by 2 publications

References 45 publications

Clinical Indicator Analysis for Predicting Pathogenic Pneumonia Infection in Newborns with Distributed Sensor Networks Data Analytics

Clinical Indicator Analysis for Predicting Pathogenic Pneumonia Infection in Newborns with Distributed Sensor Networks Data Analytics

Preferences for Management of Pediatric Pneumonia

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