Development of a liposomal near-infrared fluorescence lactate assay for human blood

In emergency medicine, blood lactate is a commonly used biomarker of hypoxia (e.g., sepsis, trauma, cardiac arrest) but the median time to obtain the results from a clinical lactate test is 3 h. We recently developed a near-infrared fluorescent blood lactate assay based on a two-step enzymatic cascade in a vesicular reaction compartment. Previously, we reported a response of this assay to lactate-spiked bovine blood after 10 min. To develop a point-of-care test, we optimized this assay in commercial human blood, validated it in fresh capillary blood of healthy volunteers in an institutional review board-approved study, and improved the stability of the formulation. External pH and luminal enzyme concentrations were identified as key parameters of sensor response and kinetics, as they impact transmembrane lactate diffusion and turnover rate. The preparation pro-cess was also simplified and the stability was improved to allow storage at 4 ? for at least 5 days. The final formulation exhibited a strong and linear response to lactate-spiked human blood in a clinically relevant range, and accurately quantified a lactate standard at a clinically used cut-off in fresh capillary blood after 2 min. These findings motivate a clinical evaluation of this rapid and easy-to-use lactate assay.

Automated summary

This article introduces a near-infrared fluorescent blood lactate assay that can rapidly and accurately detect lactate levels in the blood. The research suggests that this detection method has potential value in clinical applications.