Background <p>Peripherally inserted central catheter-related bloodstream infections (PICC-CRBSI) pose a serious threat to preterm infants. This study aimed to develop and validate an interpretable machine learning model for risk assessment of PICC-CRBSI at the time of clinical suspicion.</p> Methods <p>A total of 490 preterm infants who underwent PICC insertion in a tertiary hospital NICU in China were prospectively enrolled from January 2024 to October 2025. After feature selection, prediction models were constructed using four machine learning algorithms. Model performance was evaluated using area under the receiver operating characteristic curve (AUC), calibration, and decision curve analysis. The optimal model was interpreted using Shapley additive explanations (SHAP).</p> Results <p>CRBSI occurred in 68 patients (13.88%). The Random Forest model demonstrated the best performance, with AUC values of 0.973 and 0.934 in the training and validation sets, and overall accuracy of 0.945 and 0.905. SHAP analysis revealed that C-reactive protein(CRP), white blood cell count, and respiratory rate had the most significant influence on the model’s predictive performance.</p> Conclusion <p>The random forest model demonstrated robust performance for risk assessment of PICC-CRBSI in preterm infants at the time of clinical suspicion. These findings may support clinical risk stratification and provide hypothesis-generating insights into key factors associated with PICC-CRBSI.</p> Impact <p><UnorderedList Mark="Bullet"> <ItemContent> <p>Develops a high-performance, interpretable random forest model for risk assessment of peripherally inserted central catheter-related bloodstream infection (PICC-CRBSI) in preterm infants at the time of clinical suspicion.</p> </ItemContent> <ItemContent> <p>Addresses a gap in the literature by integrating the SHAP method to transparently identify and prioritize key risk-associated features (e.g., C-reactive protein and white blood cell count), enhancing the clinical interpretability of the model.</p> </ItemContent> <ItemContent> <p>Provides a practical approach for risk stratification, with potential to support clinical assessment and improve the understanding of PICC-CRBSI risk in neonatal intensive care.</p> </ItemContent> </UnorderedList></p>

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Machine learning and SHAP-based risk assessment of PICC-related bloodstream infections in premature infants at the time of clinical suspicion

  • Yongqin Guo,
  • Yingying Dou,
  • Wenxia Song,
  • Lihong Wang,
  • Li Wang

摘要

Background

Peripherally inserted central catheter-related bloodstream infections (PICC-CRBSI) pose a serious threat to preterm infants. This study aimed to develop and validate an interpretable machine learning model for risk assessment of PICC-CRBSI at the time of clinical suspicion.

Methods

A total of 490 preterm infants who underwent PICC insertion in a tertiary hospital NICU in China were prospectively enrolled from January 2024 to October 2025. After feature selection, prediction models were constructed using four machine learning algorithms. Model performance was evaluated using area under the receiver operating characteristic curve (AUC), calibration, and decision curve analysis. The optimal model was interpreted using Shapley additive explanations (SHAP).

Results

CRBSI occurred in 68 patients (13.88%). The Random Forest model demonstrated the best performance, with AUC values of 0.973 and 0.934 in the training and validation sets, and overall accuracy of 0.945 and 0.905. SHAP analysis revealed that C-reactive protein(CRP), white blood cell count, and respiratory rate had the most significant influence on the model’s predictive performance.

Conclusion

The random forest model demonstrated robust performance for risk assessment of PICC-CRBSI in preterm infants at the time of clinical suspicion. These findings may support clinical risk stratification and provide hypothesis-generating insights into key factors associated with PICC-CRBSI.

Impact

Develops a high-performance, interpretable random forest model for risk assessment of peripherally inserted central catheter-related bloodstream infection (PICC-CRBSI) in preterm infants at the time of clinical suspicion.

Addresses a gap in the literature by integrating the SHAP method to transparently identify and prioritize key risk-associated features (e.g., C-reactive protein and white blood cell count), enhancing the clinical interpretability of the model.

Provides a practical approach for risk stratification, with potential to support clinical assessment and improve the understanding of PICC-CRBSI risk in neonatal intensive care.