It’s Time for a Different Surgical Experience

WEARABLE PRE-OPS

Multi-sensor integration

We study the use of ambulatory biometrics to identify patients susceptible to cardiac and pulmonary surgical complications, ensuring tailored interventions for optimized outcomes.

FREE-LIVING STRESS TESTING

Harnessing wearable technology to conduct free-living stress testing and identify patients at risk of surgical complications and perioperative myocardial ischemia. By leveraging cardiorespiratory fitness metrics, including VO2max estimations, and single-lead EKG data, we can accurately assess patients' physiological responses to real-world stressors.

SURGICAL RISK AI

Our innovative approach integrates artificial intelligence (NLP and LLMs) to streamline preoperative chart review processes, enhancing efficiency and precision in patient care planning.

MULTI-OMIC SURGICAL PROFILING

Unifying the Molecular and Digital Worlds

We study ways to combine the best technologies of the digital and molecular worlds to give people a comprehensive view of their health status and their surgical risk.

MULTI-OMIC HEALTH INTELLIGENCE

By measuring millions of interactions between molecules across various organ systems, we can understand which patients are at greatest risk for surgical complications and tailor prevention, treatment, and rehabilitation to each individual’s molecular profiles.

CONTACTLESS HEALTH SENSING

Our next-generation contactless sensor system converts any room into a sensor, giving you continuous insight into your health state and surgical risk.

AEROSPACE ANESTHESIA

Launching next-gen medicine

We seek and test creative technologies for diagnostic, therapeutic, and operational solutions that can elevate perioperative care, especially the management of critically-ill patients.

A MOONSHOT FOR ALL PATIENTS

Medical technologies created for austere environments are poised to provide insight into complex pathologic processes in ways inaccessible with standard tools.

Application of these innovative devices to study dynamical physiological interactions can help us update disease models and inform development of next-generation therapeutics. Additionally, they can potentially transform provider performance, attention, team dynamics, and active recovery. Read more.

FOR MANKIND'S NEXT GIANT LEAP

The perioperative period supports multi-dimensional, high-density, gold-standard clinical validation of novel devices to accelerate their commercial maturation and integration into healthcare workflows both on Earth and in space.

Rigorous evaluation across diverse patient populations and procedures enables us to capture the entire testable physiologic range, facilitating the refinement of these novel technologies to exceed standards for any environment — austere or otherwise.