Da Vinci Medical
In Stock
PNOE Biomarker Analyzer
Analyze 23 biomarkers in 10 minutes. No labs required.
The PNOE Biomarker Analyzer provides real-time breath data related to wellness indicators such as lung, heart, and metabolic activity. Developed in top research labs, it powers the Superhuman Protocol Report, offering personalized insights for optimizing wellness with magnetism, oxygen, and light.
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Specifications
Analyzed Biomarkers:
23 key metabolic, cardiovascular, and respiratory biomarkers
Technology:
Advanced breath analysis developed in collaboration with Stanford, MIT, and Cambridge labs
Superhuman Protocol Integration:
Generates a personalized Superhuman Protocol Report
Key Health Metrics:
Heart, lung, brain, and cellular function assessment
Personalized Insights:
Custom exercise, nutrition, and biohacking recommendations
Real-Time Data:
Instant metabolic and biological age analysis
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Free shipping to the contiguous 48 U.S. states
International Customers
International customers: to ensure a seamless and personalized ordering experience, we kindly ask that you place your orders through a direct call with our team. This allows us to cater to your specific needs, including shipping preferences and any inquiries you may have about our products. We’re excited to serve you globally!
+1-888-391-5350
What Is PNOE?
Lung, Heart, and Metabolic Data for Personalized Training
Da Vinci and PNOE have partnered to offer Superhuman Protocol Clinics access to a customized data report: the Superhuman Protocol Report.
This report includes information to guide the use of magnetism, oxygen, and light exposure protocols based on individual assessment data.
Developed with technology originating from research at institutions such as Stanford, MIT, and Cambridge, PNOE is a tool that collects and analyzes breath-based metrics related to cardiorespiratory and metabolic performance.
PNOE evaluates respiratory and metabolic indicators, including 23 measured variables. These data points may reflect functions associated with cardiovascular, pulmonary, and metabolic activity, and are used to generate a report in real time.
The breath analysis provides information that may support the creation of individualized lifestyle plans, including fitness and nutrition programming. The Superhuman Protocol Report is intended for use as a tool to support decision-making around wellness strategies and user education.
Dr. Andrew Hanson in Denver, CO, an avid user of the Superhuman Protocol (SHP), tracked personal wellness metrics over a 90-day period using PNOE testing at both the beginning and end.
After following a routine aligned with SHP guidance, his PNOE results indicated a 7-year reduction in reported biological age. While individual results may vary, he considered the change a remarkable personal observation.
Case Studies
"Bringing VO2 Max from ‘low’ to ‘below average’ has been associated in studies with significant differences in all-cause mortality risk."
Peter Attia, MD
New York Times Best Selling Author
Validated By
Attract & Retain More Superhuman Protocol Clients with PNOE
Clinics that incorporate PNOE into their businesses alongside Superhuman Protocol stand to attract and retain more clients and significantly increase their revenue potential.
Resting Test Biomarkers:
- VO2peak: Maximum volume of oxygen consumed
- VCO2: Volume of carbon dioxide produced
- Respiratory Exchange Ratio (RER): Ratio of carbon dioxide volume produced over oxygen volume consumed
- Tidal Volume (VT): Volume of air exhaled in one breath
- Breathing Frequency (BF): Number of breaths completed in one minute
- Minute Ventilation (VE): The air volume exhaled in one minute
- VE/VCO2: Ratio of minute ventilation over carbon dioxide volume produced
- O2pulse: Ratio of oxygen volume consumed over heart rate
- VO2/BF: Ratio of oxygen volume consumed over breathing frequency
- End-tidal CO2 (FetCO2): The highest concentration of carbon dioxide achieved during exhalation
- End-tidal O2 (FetO2): The highest oxygen concentration achieved during inhalation
- Fraction of expired CO2 (FeCO2): Average carbon dioxide concentration in one exhalation
- Fraction of expired O2 (FeO2): Average oxygen concentration in one exhalation
- Heart Rate: Number of heartbeats per minute
- Heart Rate Variability (HRV): The time variability between heartbeats
- Forced Vital Capacity (FVC): The maximum air volume exhaled at rest during the most prolonged exhalation possible
- Caloric Burn: Number of calories burned per minute
- Fat Oxidation: Grams and calories of fat burned per minute
- Carbohydrate Oxidation: Grams and calories of carbohydrate burned per minute
- Mechanical Efficiency: Ratio of mechanical power over calorie burn per second
- Crossover Point: The heart rate at which carbohydrate and fat oxidation reach the same level
- Aerobic Threshold or First Ventilatory Threshold (VT1): The heart rate at which fatigue accumulation begins at a sustainable rate for the body
- Anaerobic Threshold or Second Ventilatory Threshold (VT2): The heart rate at which fatigue accumulation begins at an unsustainable rate for the body
