The V3 Pro is a powerful yet portable ICU ventilator, featuring turbine-driven technology, a hidden carry handle, and extended battery life for true mobility. It supports a full range of patients from neonates to adults, offers advanced ventilation modes, and comes equipped with comprehensive clinical support tools.
With 18 ventilation modes and high flow oxygen therapy, V3 Pro provides full patient support throughout their treatment journey, from admission to discharge. Our ventilators can assist patients in various stages, from intubation to weaning, invasive to non-invasive ventilation, and even during high-flow oxygen therapy. Our V3 Pro ventilator will meet all your needs without switching between different devices during recovery.
Brand new iV-Cycle technology gives V3 Pro the ability to intelligently sense patient's demand for each breath and greatly improves man-machine synchronization in both inspiration and expiration.
Engineered for dynamic healthcare environments, V3Pro ventilator offers clinical adaptability through its all-in-one portability concept. Featuring an ultra-lightweight design, endurance-optimized power system, and one-button mobility solutions, it seamlessly serves ER interventions, ICU treatments, intra-hospital transfers, and routine care scenarios, ensuring uninterrupted respiratory support across care continuum.
Super Light Weight
V3 Pro’s weight is down to 10kg, easy to carry and operate
Longer Battery Life
V3 Pro’s battery supports up to 6.6h ventilation
Hidden Handle
Designed with a hidden handle that blends seamlessly into the body, this space-saving feature lets you grab and go whenever you need
Internal Turbine Charged
Integrated high-performance turbine provides pneumatic ventilation without air supply
Higher Mobility Trolley
V3 Pro can be mounted both on trolley or transportation bed
Super Light Weight
V3 Pro’s weight is down to 10kg, easy to carry and operate
Longer Battery Life
V3 Pro’s battery supports up to 6.6h ventilation
Hidden Handle
Designed with a hidden handle that blends seamlessly into the body, this space-saving feature lets you grab and go whenever you need
Internal Turbine Charged
Integrated high-performance turbine provides pneumatic ventilation without air supply
Higher Mobility Trolley
V3 Pro can be mounted both on trolley or transportation bed
Super Light Weight
V3 Pro’s weight is down to 10kg, easy to carry and operate
Longer Battery Life
V3 Pro’s battery supports up to 6.6h ventilation
Hidden Handle
Designed with a hidden handle that blends seamlessly into the body, this space-saving feature lets you grab and go whenever you need
Internal Turbine Charged
Integrated high-performance turbine provides pneumatic ventilation without air supply
Higher Mobility Trolley
V3 Pro can be mounted both on trolley or transportation bed
As our understanding of mechanical ventilation and its potential for lung injury evolves, new concepts have emerged over time. From "volumetrauma" and "barotrauma" first introduced in 1985, to the "low tidal volume ventilation" strategy in the early 21st century, and more recently, "stress and strain," our comprehension of protective ventilation continues to develop. In response to these advancements, Comen is constantly optimizing our functionalities to reduce the burden on healthcare professionals while ensuring patient safety.
To understand the multifaceted influences of mechanical ventilation on lung injury, it is critical to monitor:
Mechanical Power Monitoring
V3 Pro monitors real-time mechanical power, guiding the individualized mechanical strategy.
Driving Pressure Monitoring
Driving pressure (ΔP) predicts ventilator-induced lung injury risk, guiding tidal volume/PEEP optimization to reduce alveolar overdistension in ARDS.
Low tidal volume ventilation is at the core of current lung-protective ventilation strategies. The recommended tidal volume typically ranges from 6-8 ml/kg (based on ideal body weight) to minimize VILI.
Tidal Volume Recommendation
To adjust tidal volume based on ideal body weight.
C20/C
To provide monitoring to assess lung expansion and prevent excessive tidal volumes.
C20/C
To provide monitoring to assess lung expansion and prevent excessive tidal volumes.
Appropriate (PEEP) helps maintain alveolar patency and prevents atelectasis. The selection of PEEP should be tailored to each patient’s individual condition, achieving optimal gas exchange while minimizing lung injury.
Static P-V loop
Utilize a pressure-volume tool for individualized assessment.
Stress Index
To further evaluate the compliance of respiratory system.
Stress Index
To further evaluate the compliance of respiratory system.
Recruitment strategies intermittently increase airway pressures to reopen collapsed alveoli that have suffered from inadequate ventilation.
Sigh
To use sigh maneuvers to facilitate recruitment.
Sustained Inflation
To employ sustained inflation techniques for effective recruitment.
Sustained Inflation
To employ sustained inflation techniques for effective recruitment.
To understand the multifaceted influences of mechanical ventilation on lung injury, it is critical to monitor:
Mechanical Power Monitoring
V3 Pro monitors real-time mechanical power, guiding the individualized mechanical strategy.
Driving Pressure Monitoring
Driving pressure (ΔP) predicts ventilator-induced lung injury risk, guiding tidal volume/PEEP optimization to reduce alveolar overdistension in ARDS.
Low tidal volume ventilation is at the core of current lung-protective ventilation strategies. The recommended tidal volume typically ranges from 6-8 ml/kg (based on ideal body weight) to minimize VILI.
Tidal Volume Recommendation
To adjust tidal volume based on ideal body weight.
C20/C
To provide monitoring to assess lung expansion and prevent excessive tidal volumes.
C20/C
To provide monitoring to assess lung expansion and prevent excessive tidal volumes.
Rapid Shallow Breathing Index
Spontaneous Breathing Trial
Negative Inspiratory Force
Airway occlusion pressure at 0.1 second
An SBT is a clinical procedure used to assess a patient's ability to breathe spontaneously and independently without the support of mechanical ventilation. It is a crucial step in the process of weaning a patient from the ventilator.
Collecting data from high-flow oxygen therapy patients for accurately assessing the prognosis status of ARDS. When there is no arterial blood gas analysis, the oxygenation index will assist in the prediction and prognosis judgment of respiratory diseases.
It enables personalized nutrition plans, preventing under-/over-nutrition support while enhancing recovery.
By measuring alveolar dead space, tidal volume, and oxygenation index, it helps clinicians evaluate effective ventilation.
20,000 Hours of “Set It & Forget It”
Modular turbo cartridge: One-click removal, no tools needed.2.3 years (20,000 hours) of continuous runtimeSmart alerts: Proactive notifications for turbine servicing
High-performance turbine
Infection Control, Simplified in Seconds
Autoclave it or soak it: High-temp sterilization and chemical disinfection kill hidden biofilms. Every breath starts 100% clean.No tools, no fuss: Two-step snap-off design. Swap valves solo in 5 seconds flat.
Dual valves for inhalation and exhalation
Consumables? More Like “Can’t-Bother-ables”
Zero Calibration, Zero Replacements: Lifetime use without recalibration or consumable purchases.Factory-Calibrated Precision: Ready for accurate operation upon startup—no annual calibration required.5+ Years of Durability: Engineered for relentless performance
Non-comsumable ultrasonic oxygen sensor
20,000 Hours of “Set It & Forget It”
Modular turbo cartridge: One-click removal, no tools needed.2.3 years (20,000 hours) of continuous runtimeSmart alerts: Proactive notifications for turbine servicing
High-performance turbine
Infection Control, Simplified in Seconds
Autoclave it or soak it: High-temp sterilization and chemical disinfection kill hidden biofilms. Every breath starts 100% clean.No tools, no fuss: Two-step snap-off design. Swap valves solo in 5 seconds flat.
Dual valves for inhalation and exhalation
