Non-invasive Hemodynamic Monitoring

Airway Hemodynamics

High-fidelity Stroke Volume, Cardiac Output and Pulmonary Artery Pressure in Ventilated Patients

Pulmonary vasculature creates mechanical pressure changes in the airway

Cardiospire provides accurate AI modeling of core hemodynamic parameters

Placed inline using capnography adapter

Outstanding efficacy against catheterization

30 pressure features isolated during exhalation

Heart Failure
Pulmonary Hypertension
Shock
Goal-oriented Therapy
Sepsis

Fulfilling the promise of low-risk, robust, non-invasive hemodynamics

Displace the catheterization risk
Remove the guesswork from hemodynamic management
De-risk unknown cardiopulmonary status
Targeted management of hemodynamic instability in high-risk patients has been shown to improve patient outcomes and reduce length of perioperative hospitalization, saving $12.6B - $28B*

*Schulz GB, G.T. et. al., Surgical High-risk Patients With ASA >= 3 Undergoing Radical Cystectomy: Morbidity, Mortality, and Predictors for Major Complications in a High-volume Tertiary Center. Clinical Genitourinary Cancer, 2018. 16(6): p. 1141-1149.

Shin, C.H., et al., Effects of Intraoperative Fluid Management on Postoperative Outcomes: A Hospital Registry Study. Ann Surg, 2018. 267(6): p. 1084-1092.

Pour-Ghaz, I., et al., Accuracy of non-invasive and minimally invasive hemodynamic monitoring: where do we stand? Annals of translational medicine, 2019. 7(17): p. 421-421.