Official media resources for industry partners covering the Safyr technology platform and Promptus. For interview requests or additional materials, please contact us.
"With Safyr, we are trying to bridge the gap between the wellness insights delivered by existing wearable companies and medical data that physicians can actually use."
The fact sheet outlines some key milestones, and forward development plan, providing a concise, reference-ready snapshot of Safyr’s progress and direction.
This document offers a concise snapshot of Safyr’s technology, positioning, and development timeline, providing essential context for media coverage and industry reporting.
On our About page, linked below, you’ll find an introduction to Promptus along with brief bios of our core leadership team. If you need additional information, please reach out.
Safyr is a next-generation smart ring being developed to enable precision, cuffless blood pressure monitoring. It is built on our proprietary Vascular Impedance Mapping™ (VIM™) technology, designed to directly sense arterial dynamics from the finger
Most wearable devices use optical sensors to estimate cardiovascular metrics indirectly. Safyr’s Vascular Impedance Mapping technology is engineered to capture real vascular signals, creating the potential for more direct and clinically relevant blood pressure measurement.
No. Safyr is progressing through engineering development and regulatory planning. Commercial availability will follow completion of validation and regulatory processes.
Safyr has completed early human feasibility studies and defined its regulatory pathway. Engineering development is underway in partnership with CSEM, a global leader in wearable system engineering. Pivotal clinical validation is planned prior to regulatory submission.
Yes. Pilot human feasibility studies evaluating Vascular Impedance Mapping showed strong correlation between ring-derived vascular signals and reference cuff-based measurements, supporting continued development.
VIM is Safyr’s proprietary sensing approach designed to directly measure arterial dynamics from the finger. It forms the technical foundation of Safyr’s cuffless blood pressure platform.