Evaluation of transcutaneous near-infrared spectroscopy for early detection of cardiac arrest in an animal model

Sudden cardiac arrest (SCA) is a leading cause of mortality worldwide. The SCA-to-resuscitation interval is a key determinant of patient outcomes, highlighting the clinical need for reliable and timely detection of SCA. Near-infrared spectroscopy (NIRS), a non-invasive optical technique, may have utility for this application. We investigated transcutaneous NIRS as a method to detect pentobarbital-induced changes during cardiac arrest in eight Yucatan miniature pigs. NIRS measurements during cardiac arrest were compared to invasively acquired carotid blood pressure and partial oxygen pressure (PO2) of spinal cord tissues. We observed statistically significant decreases in mean arterial pressure (MAP) 64.68 mmHg +/- 13.08, p < 0.0001), spinal cord PO2 (38.16 mmHg +/- 20.04, p = 0.0028), and NIRS-derived tissue oxygen saturation (TSI%) (14.50% +/- 3.80, p < 0.0001) from baseline to 5 min after pentobarbital administration. Euthanasia-to-first change in hemodynamics for MAP and TSI (%) were similar [MAP (10.43 +/- 4.73 s) vs TSI (%) (12.04 +/- 1.85 s), p = 0.3714]. No significant difference was detected between NIRS and blood pressure-derived pulse rates during baseline periods (p > 0.99) and following pentobarbital administration (p = 0.97). Transcutaneous NIRS demonstrated the potential to identify rapid hemodynamic changes due to cardiac arrest in periods similar to invasive indices. We conclude that transcutaneous NIRS monitoring may present a novel, non-invasive approach for SCA detection, which warrants further investigation.

Automated summary

Sudden cardiac arrest (SCA) is a leading cause of death worldwide, and there is a need for reliable and timely detection methods. We investigated the use of transcutaneous near-infrared spectroscopy (NIRS) to detect changes during cardiac arrest. Our study found that NIRS monitoring can identify rapid hemodynamic changes in a similar timeframe to invasive measurements.