CAREFUSION AVEA

Features

The Vyaire Carefusion Avea Ventilator can provide a wide range of ventilation modes with clinical tools and advanced monitoring. The Vyaire CareFusion Aveacan offer critical care ventilation in both non-invasive and invasive ventilation modes for neonate, pediatric and adult patients. Some of the advanced tools include; BiCore Pulmonary monitoring, Heliox administration, and Volumetric Capnography. The Ventilator runs off of a Servo-controlled, software-driven ventilation system. as well as a user interface module that can maximize the flexibility of the ventilation to fit each patient’s needs. The front panel has a larger LCD touch screen making it easy to see the parameters being monitors while still being able to easily make changes.

  • This ventilator offers precision gas delivery system supplies accurate volumes.
  • Active exhalation valve on the CareFusion Avea promotes ventilator synchrony and comfort for your patients.
  • Volumetric Capnography gives clinicians more accurate tools to aid in quicker reaction during critical situations.
  • Accurate esophageal pressure measurements.

 

The AVEA provides a comprehensive array of modes and advanced features that keep you focused on your patient, not the equipment:

  • Volumetric capnography—Equipped with this option, this ventilator adds another key piece of information to provide improved monitoring of the patient’s condition. When tied with exclusive BiCore technology, this powerful tool provides the most comprehensive monitoring array of any ventilator available.
  • Precision gas delivery system—Supplies accurate tidal volumes from 2 mL to 2.5 L and was the first of its kind to automatically compensate for heliox gas delivery.
  • On-board compressor—The optional onboard air compressor can meet your patient’s needs whether in the intensive care unit (ICU) or moving to computerized tomography (CT) scan. This powerful scroll compressor can only be found on the ventilator and is capable of operating the ventilator for up to two hours on battery.*
  • Communication—Three different serial protocols can be selected from the utility screen to simplify integration with hospital information systems or remote alarm monitoring.
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Specifications

Dimensions
  • Pneumatic Module: 10.5” h x 16.75” w x 16” d (26.7 cm x 43.2 cm x 40.6 cm)
  • User interface Module: 13.75” h x 16.25” w x 2.5” d (35 cm x 41.3 cm x 6.4 cm)
  • Viewable Size: 12.1” (diagonal)
  • Resolution: 800 x 600
Weight
  • Ventilator w/ UIM no Compressor: < 73 lbs. (33.1 kg)
  • Ventilator w/UIM and Compressor < 80 lbs (36.3 kg)
Battery
  • 1 hr of ventilator use on internal battery (standard) or 30 minutes ventilator and compressor
  • 4 hr of ventilator use on external battery or 2 hr ventilator and compressor
Setup
  • Humidifier: Active and passive humidification
  • Circuit compliance compensation: 0.0 to 7.5 mL/cmH2O
  • Leak compensation: ON, OFF
Endotracheal Tube Setup
  • Diameter: 2.0 to 10.0 mm
  • Length: 2.0 to 30.0 cm
  • Automatic tube compensation: ON, OFF
Patient Setup
  • Patient weight: 0.1 to 300 kg
  • Patient ID: Alphanumeric 24 characters
Modes
  • Mode type: A/C, SIMV, CPAP/PSV, NPPV, nasal CPAP/IMV
  • Breath type: APRV/BiPhasic,Volume, Pressure, TCPL, PRVC,Volume Guarantee
  • Apnea backup: Volume, pressure
Primary Settings
  • Rate: 1 to 150 bpm (neonatal, pediatric), 1 to 120 bpm (adult)
  • Tidal volume: 2.0 mL to 2.5 L
  • Inspiratory pressure: 0 to 80 cmH2O (neonatal), 0 to 90 cmH2O (adult, pediatric)
  • Peak flow: 0.4 to 150 L/min
  • Inspiratory time: 0.15 to 5.0 sec
  • Pressure support ventilation: 0 to 80 cmH2O (neonatal), 0 to 90 cmH2O (adult, pediatric)
  • PEEP: 0 to 50 cmH2O
  • Flow trigger: 0.1 to 20 L/min
  • %O2: 21% to 100%
  • Pressure high (in APRV mode): 0 to 90 cmH2O
  • Time high (in APRV mode): 0.2 to 30 sec
  • Time low (in APRV mode): 0.2 to 30 sec
  • Pressure low (in APRV mode): 0 to 45 cmH2O
Advanced Settings
  • Bias flow: 0.4 to 5.0 L/min
  • Volume limit: 2.0 mL to 2.5 L
  • Inspiratory rise: 1 to 9
  • Flow cycle: Off to 45%
  • PSV rise: 1 to 9
  • PSV cycle: 5% to 45%
  • PSV Tmax: 0.15 to 5.0 sec
  • Waveform: Decelerating, square
  • Sigh: ON, OFF
  • Pressure trigge:r 0.1 to 20 cmH2O
  • Demand flow: ON, OFF
  • Volumetric capnography: EtCO2 averaging 1 or 8 breaths, VCO2 averaging 3, 6, 9 or 12 minutes
Manual Controls
  • Manual breath: One breath
  • Expiratory hold: Maximum 20 sec (adult, pediatric), 3 sec (neonatal)
  • Inspiratory hold: Maximum 3 seconds
  • Increase O2: Set percentage O2 + 0% to 79% O2
  • Synchronized nebulizer: Available when peak flow > 15 L/min
  • Disconnect for suction: Active
Advanced Gas Blending System
  • Air/oxygen Blending: 21–100%
  • Internal Heliox Blending System: All concentrations from 80/20 helium/oxygen to 0/100 helium/oxygen
Advanced Patient Monitoring
  • Proximal hot wire flow sensor
  • Proximal variable orifice flow sensor (infant, pediatric, adult)
  • Proximal airway pressure monitoring
  • Tracheal pressure monitoring
  • Esophageal pressure monitoring
  • Volumetric capnography
Maneuvers
  • AutoPEEP Airway: 0–50 cmH2O (automated)
  • MIP/P100: -60 to 120 cmH2O (automated)
  • low Flow (Pflex): Automated
Alarms
  • Vent inop Ventilator inoperative
  • Loss of gas All gas sources lost
  • Circuit disconnect Patient circuit disconnected
  • Ext. high Ppeak High Ppeak longer than 5 seconds
  • Safety valve Safety valve open
  • Circuit occlusion Circuit occlusion
  • High Ppeak High peak pressure
  • Apnea interval Apnea interval exceeded
  • Loss of O2 Oxygen supply lost
  • Loss of air Air supply lost
  • Loss of heliox Heliox supply lost
  • Low battery Internal/external batteries low
  • Loss of A/C Main AC power lost
  • Low PEEP Low PEEP cmH2O
  • Low Ppeak Low PIP cmH2O
  • Low Vte Low tidal volume
  • Low Ve Low minute volume
  • Low %O2 Low FiO2 reading
  • High %O2 High FiO2 reading
  • ILV disconnect Independent lung ventilation lost
  • Alarm test Test alarm/set loudness
  • Invalid gas ID Gas type ID bad or missing
  • High Ve High minute volume
  • High rate High breath rate
  • Max insp time Inspiratory time limit exceeded
  • I:E limit I:E ratio limit exceeded
  • Fan failure Cooling fan failure
  • High Vt High tidal volume
  • Vol limit Volume limit exceeded
  • Low EtCO 3 2 Low end tidal CO2
  • High EtCO 3 2 High end tidal CO2
  • nCPAP pressure limit nCPAP pressure limit exceeded
  • Low nCPAP pressure Low nCPAP cmH2O
  • High nCPAP pressure High nCPAP cmH2O