Continuous non-invasive vascular intelligence for critical patient care
PhysioSense brings physiologically rich, real-time hemodynamic phenotyping to ED, ICU, and post-acute settings — enabling clinicians to detect deterioration earlier and track treatment response in near-real-time.
Conventional monitoring often misses meaningful physiological change
- Heart rate, SpO2, and blood pressure can remain within expected ranges even while a patient is drifting physiologically
- Standard workflows use only a fraction of the information already present in pulsatile waveforms such as PPG and arterial line signals
- Different causes of instability can produce different waveform patterns, but conventional bedside displays do not make those differences easy to interpret
- Medication titration and critical care decisions often rely on intermittent assessment rather than a more continuous view of physiological response
Turning waveform data into interpretable physiological insight
PhysioSense transforms pulsatile waveforms from existing monitoring platforms into interpretable physiological descriptors that can be tracked over time. Using signals such as arterial line waveforms, PPG, and other optical or pulsatile inputs, the platform helps clinicians and device partners visualize changes related to vascular load and compliance rather than relying on isolated numeric values alone.
Where PhysioSense adds value in patient monitoring
From sepsis and traumatic brain injury to post-surgical recovery and medication titration, PhysioSense adds a new layer of physiological visibility to continuous monitoring workflows.
Physiological Pattern Recognition in Sepsis
Sepsis can present with different physiological patterns and trajectories over time. PhysioSense helps surface waveform-derived differences related to vascular load and compliance, supporting earlier recognition of meaningful change and added context for resuscitation and escalation decisions.
Systemic Physiology Tracking in TBI
Management of cerebral perfusion depends in part on the patient’s evolving systemic physiological state. PhysioSense provides ongoing tracking of waveform-derived changes that may help clinicians and monitoring partners better visualize systemic contributors to perfusion management and patient instability.
Fluid Response Monitoring
Fluid needs and physiological response can vary substantially across trauma and burn patients. PhysioSense supports continuous tracking of waveform-derived physiological change during resuscitation, helping add visibility into whether a patient appears to be stabilizing, improving, or drifting during treatment.
Advanced Hemodynamic Context
In shock states, clinicians often need richer context than standard vital signs alone can provide. PhysioSense adds an interpretable layer of waveform-based physiological tracking that can complement existing monitoring signals and help visualize change over time during escalation, support, and recovery.
Medication and Titration Response Tracking
Vasopressors, vasodilators, inotropes, and other therapies can produce measurable physiological change over time. PhysioSense helps monitoring platforms track waveform-derived response patterns during titration, adding visibility between intermittent bedside assessments.
Post-Operative Recovery Monitoring
The early post-operative period can include subtle physiological drift before overt deterioration becomes obvious. PhysioSense supports longitudinal monitoring of waveform-based physiological patterns that may help identify concerning change earlier and improve situational awareness during recovery.
Vascular Radar turns waveform change into an interpretable patient state view
Vascular Radar presents waveform-derived physiology as an intuitive state and trajectory view, helping clinicians and monitoring partners see how a patient is changing over time rather than relying on isolated values alone. Instead of watching only individual numbers, care teams can visualize whether physiology appears stable, improving, drifting, or moving toward a higher-risk region.
- Displays current physiological state in an interpretable visual framework built from continuous waveform analysis
- Shows historical trajectory so clinicians can assess whether a patient appears stable, improving, or deteriorating
- Can highlight projected direction of travel to support earlier recognition of concerning change
- Supports configurable region labels and visualization logic for different clinical contexts and monitoring applications
Evaluated across critical care and acute monitoring settings
PhysioSense waveform analysis has been assessed across high-acuity patient populations and monitoring environments, supporting its use as an added physiological layer for continuous monitoring platforms.
ICU Physiological Trajectory Tracking
In intensive care settings, PhysioSense-derived physiological descriptors tracked meaningful patient change over time in a manner consistent with evolving clinical status. These waveform-based patterns provided added visibility into physiological drift beyond conventional threshold-based monitoring alone.
Vasoactive Response Tracking in Critical Illness
Serial waveform analysis during vasopressor and related therapy adjustments showed directional physiological changes consistent with expected treatment effects. This supports the use of PhysioSense as an added monitoring layer for visualizing patient response between intermittent bedside assessments.
Compatibility Across Monitoring Signals
PhysioSense has been applied to arterial line waveforms, PPG signals, and other pulsatile inputs, supporting a sensor-independent approach to physiological interpretation. This enables monitoring partners to explore deployment using existing waveform sources already available on many bedside platforms.
Interested in adding physiological insight to your monitoring platform?
We can walk through how PhysioSense and Vascular Radar could fit your monitoring environment, waveform inputs, and target clinical use cases.
Discuss a Monitoring Collaboration