The goal of this clinical study is to investigate a new medical device, the Smart Mask V1 System (herein 'Smart Mask'), and particularly its measurements of blood oxygen levels (SpO2) and pulse rate (PR) in healthy adults aged 18 to 65. More specifically, the study is directed at answering the following questions: * Can the Smart Mask accurately measure SpO2 levels compared to established reference devices (reference oximeters, blood gas) throughout the range of SpO2 \~ 70 - 100%? * Can the Smart Mask accurately measure PR during the same conditions? * Does skin pigmentation impact the accuracy of Smart Mask's measurements of SpO2 and PR. The following reference devices will be used in the study: * An FDA-cleared fingertip pulse oximeter (Nellcor Portable SpO2 Patient Monitoring System, PM10N) * A laboratory-grade CO-oximeter (Radiometer ABL90 FLEX) that analyzes oxygen saturation from blood samples. Study participants will: * Wear the Smart Mask on their face and a fingertip pulse oximeter while lying down * Breathe air with gradually reduced oxygen levels inside a specialized hypoxia room while being closely. * In a second phase of the study, have a catheter inserted into a wrist artery for blood sampling to directly measure oxygen levels with the CO-oximeter.
This clinical study evaluates the Smart Mask V1 System, a medical device designed to measure blood oxygen saturation (SpO2) and pulse rate (PR) using reflective photoplethysmography (PPG) sensors integrated into a face mask intended for use with positive airway pressure (PAP) therapy. The study aims to validate the accuracy of the Smart Mask's optical measurements under controlled, progressive hypoxia conditions in healthy adult volunteers. The investigation is divided into two sequential phases; Non-Invasive (NI) and Invasive (IN) Study. All study sessions are conducted at the Complementary Medical Centre (CMC) in Genk, Belgium, within a certified normobaric hypoxia room. This room is sealed and climate-controlled, equipped with oxygen and carbon dioxide sensors to maintain a stable and safe hypoxic environment. Hypoxia is induced gradually to reduce any discomfort or potential risk to participants. Comprehensive safety protocols are in place to protect volunteers. These include medical screening and obtaining informed consent prior to enrollment, as well as real-time monitoring by trained medical staff throughout the exposure. Immediate exit protocols are activated if a participant's SpO2 falls below 73% or if symptoms of acute mountain sickness are observed. Emergency oxygen and resuscitation equipment are readily available on-site. Additionally, participants are reminded that they may withdraw from the study at any time without penalty.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
OTHER
Masking
NONE
Enrollment
36
PPG-based sensors integrated into a PAP-compatible face mask to measure SpO2 and PR.
Complementair Medisch Centrum (CMC) Europe
Genk, Belgium
RECRUITINGSpO2 Accuracy (Arms)
Root mean square error (Arms) of SpO2 measured by the Smart Mask compared to SpO2 and SaO2 reference devices
Time frame: During each hypoxia session (90-140 minutes)
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