JMIR Publications

ABSTRACT

Background:

Infusion failure may have severe consequences for patients receiving critical short half-life infusions. Continued interruptions to infusions can lead to subtherapeutic therapy.

Objective:

To identify and rank determinants of longevity of continuous infusions delivered by syringe driver through nonlinear predictive models to evaluate key factors, and to create, and test a model for predicting the likelihood of successful infusion longevity.

Methods:

Data was taken from the event logs of smart pumps with information on care profile, medication type and concentration, occlusion alarm setting, and final infusion cessation cause. The data was fitted to five nonlinear models, and evaluated for the best explanatory model.

Results:

Random Forest was the best fit predictor model. Final medication concentration and medication type were of less significance to infusion longevity than rate and care unit. For low-rate infusions rates between 2-2.8 ml/hr performed best for a balance between infusion longevity and fluid load per infusion.

Conclusions:

The study can inform clinicians of which types of infusion warrant more intense observation or proactive intravenous access management, and what is the average length of uninterrupted infusion that can be expected in these care areas. Optimizing rate settings to improve infusion longevity for continuous infusions through compounding to create customized concentrations with for patients may be possible in the light of the study’s outcomes. The study also highlights the potential of machine learning nonlinear models to predict outcomes and lifespans of specific therapies delivered via medical devices. Clinical Trial: Nil