Patented Technology

Engineered for Clinical Safety and Reliability

Built to established standards with precision manufacturing and redundant safety systems.

Built for the Office, Not the Hospital

RxAir360 holds an issued U.S. patent covering a monoplace hyperbaric oxygen therapy chamber designed and sized to operate within a standard physician examination room rather than adapted from larger hospital-grade systems. The chamber is designed to fit within many standard exam room environments, in the range of a typical 100 to 120 square foot room, establishing a protected position around this deployment model. The RxAir360 chamber is pending FDA 510(k) clearance and is not available for clinical use.

The chamber is built to the recognized national safety standard for pressure vessels that hold people, the same framework that governs hyperbaric chambers across North America. That standard, known as PVHO-1 and published by the American Society of Mechanical Engineers (ASME), sets the engineering requirements for how a chamber is designed, built, and tested to safely hold a person under pressure.

The chamber is constructed from steel and acrylic using the same precision manufacturing processes used in aerospace production, where small tolerances and repeatable quality are essential. The vertical seated design is intended to reduce the feeling of confinement some patients experience in traditional lie-down chambers, while meeting U.S. electrical and mechanical safety standards.

Large blue industrial machine with circular ports and control panel mounted on wooden pallet in laboratory setting.

Vertical Orientation

Seated configuration reduces claustrophobia, fits standard exam rooms

Compact Footprint

Designed for standard 100-120 sq ft exam rooms

PVHO-1 Compliant

Designed to ASME PVHO-1 pressure vessel standards

IEC 60601-1

Designed to meet electrical safety compliance for medical devices

EMC Compliant

Designed to meet electromagnetic compatibility requirements

Prototype Hydrostatic Testing Passed

Pressure vessel withstood 1.5× maximum working pressure of 3.0 ATA (4.5 ATA test pressure)

World-Class Manufacturing

Manufactured by Electroimpact

Precision aerospace engineering applied to medical device manufacturing

Aerospace manufacturing equipment with precision engineering

Precision Manufacturing for Medical Devices

Electroimpact brings aerospace precision to medical device manufacturing. Their expertise spans Boeing and Airbus commercial aircraft programs.

  • Aerospace Engineering

    Precision automation for commercial aircraft programs

  • Quality Standards

    Manufacturing rigor applied to medical device production

Aerospace

Grade Manufacturing

Precision

Engineering Excellence

Proven

Track Record

RxAir360 hyperbaric chamber

Safety & Controls

RxAir360 incorporates redundant safety features designed for controlled pressurization and decompression in outpatient clinical settings.

Precision Controls

"Dive" and "Surface" controls for straightforward operation

Redundant Safety Valves

Multiple valves for automated pressure equalization

Calibrated Sensors

Precision monitoring for consistent treatment outcomes

Safety Monitoring

Anomaly detection and screening protocols for oxygen-rich environments

Built to ASME PVHO-1 Standards

PVHO-1 compliant chambers operated per UHMS guidelines and manufacturer protocols.

PVHO-1 Compliant

Designed to ASME PVHO-1 standards for pressure vessels for human occupancy — the gold standard in hyperbaric safety

Safety Record

PVHO-1 compliant chambers operated per UHMS guidelines and manufacturer protocols have established a strong safety record in clinical settings