Care fusion Avea Assembly instructions

AVEA

ventilator quick tips

Critical care ventilation

A. Main: Returns the display to the main screen.

B. Event: Select events to record to trends.

C. Alarm silence: 2 minute silence period.

D. Suction: 3 functions:

1. ↑O2 maneuver for 2 minutes.

2. Disables demand flow on loss of PEEP.

3. Alarms silenced for 2 minutes.

E. Nebulizer: 20 minutes, synchronized with inspiration.

User interface

Touch-Turn-Touch™ and Touch-Turn-Accept™ method

1. Touch the control to select. The control changes

color indicating that it is active.

2. Turn the data dial to reach the selected value.

3. Touch the control again or press ACCEPT to

confirm the change.

Setting alarm limits

1. Press the ALARM LIMITS button to open or

close the window.

2. Use Touch-Turn-Touch or

Touch-Turn-Accept

method to modify alarms.

Proximal flow sensors

The AVEA ventilator accepts either hot wire or variable orifice proximal low

sensors. These are in addition to the internal inspiratory flow sensor and heated

expiratory flow sensor.

The variable orifice sensor attaches to the receptacle

circled in dark blue.

The hot wire flow sensor attaches to the receptacle

circled in light blue directly below the variable orifice

flow sensor connection.

To attach, pull back the locking collar. Push firmly onto the receptacle. Push the

collar forward to lock the sensor in place.

To disconnect, retract the collar and pull the connector straight

away from the ventilator.

2 3

The AVEA® ventilator’s quick tips card is not intended as a replacement for the

operator’s manual.

You must become completely familiar with the operator’s manual before using

the AVEA ventilator.

Volume monitors

Vte Exhaled tidal volume.

Vte/kg Exhaled tidal volume adjusted for patient weight.

Vti Inspired tidal volume.

Vti/kg Inspired tidal volume adjusted for patient weight.

Spon Vt Spontaneous tidal volume.

Spon Vt/kg Spontaneous tidal volume adjusted for patient weight.

Mand Vt Mandatory tidal volume: Displayed as a rolling average of either

8 breaths or one minute, whichever occurs first.

Mand Vt/kg Mandatory tidal volume adjusted for patient weight.

Vdel Delivered machine volume measured by the ventilator’s inspiratory

flow sensor.

% leak Percent leakage: The difference between the inspired and exhaled

tidal volumes in terms of % difference.

Ve Minute volume. Volume of gas exhaled by the patient during the

last minute.

Ve/kg Minute volume adjusted for patient weight.

Spon Ve Spontaneous minute volume.

Spon Ve/kg Spontaneous minute volume adjusted for patient weight.

Rate/time monitors

Rate Breath rate.

Spon rate Spontaneous breath rate.

Ti Inspiratory time.

Te Exhalation time.

I:E Inspiratory/expiratory ratio.

Note: Not active for demand breaths.

f/Vt Rapid shallow breathing index.

Pressure monitors

Ppeak Peak inspiratory pressure.

Note: Not active with spontaneous breaths.

Pmean Mean airway pressure.

Pplat Plateau pressure. If no plateau occurs, then the monitor displays.***

PEEP Positive end expiratory pressure.

Air inlet Air inlet gas supply pressure.

O2 inlet Oxygen inlet gas supply pressure.

Gas composition monitors

FiO2Delivered percent O2.

Mechanics

CDYN

CDYN/Kg

Dynamic compliance (CDYN and CDYN/Kg), absolute and

normalized to patient weight.

Monitors and definitions

Mechanics (continued)

Cstat

Cstat/kg

Respiratory system compliance (CRS ), (a.k.a. static compliance

Cstat), absolute and normalized to patient weight.

Note: This requires an Inspiratory Hold maneuver.

PIFR Peak inspiratory flow rate.

PEFR Peak expiratory flow rate.

Ccw The ratio of the tidal volume (exhaled) to the delta esophageal

Pressure (dPES ). Requires an esophageal balloon.

CLUNG

The ratio of the tidal volume (exhaled) to the delta

transpulmonary pressure. The delta transpulmonary pressure

is the difference between the airway plateau pressure (during

an inspiratory pause) and esophageal pressure (at the time

the airway plateau pressure is measured) minus the difference

between the airway and esophageal baseline pressures. Requires

an inspiratory hold and esophageal balloon.

C20 / C The ratio of the dynamic compliance during the last 20% of

inspiration (C20) to the total dynamic compliance (C).

RRS

The total resistance during the inspiratory phase of a breath.

Respiratory system resistance is the ratio of the airway pressure

differential (peak–plateau) to the inspiratory flow 12 ms prior to

the end of inspiration. Requires an inspiratory hold.

RPEAK

The peak expiratory resistance (RPEAK) is defined as the resistance

at the time of the peak expiratory flow (PEFR).

RIMP

The airway resistance between the wye of the patient circuit

and the tracheal sensor. Requires an inspiratory hold and

tracheal catheter.

RLUNG

The ratio of the tracheal pressure differential (peak–plateau) to

the inspiratory flow 12 ms prior to the end of inspiration. Requires

an inspiratory hold and tracheal catheter.

dPAW

The difference between peak airway pressure (PPEAK AW) and base-

line airway pressure (PEEPAW).

dPES

The difference between peak esophageal pressure (PPEAKES) and

baseline esophageal pressure (PEEPES).

AutoPEEP The airway pressure at the end of an expiratory hold maneuver.

Requires a passive patient.

dAutoPEEP

The difference between airway pressure at the end of an

expiratory hold maneuver and the airway pressure at the start of

the next scheduled breath after the expiratory hold maneuver.

Requires a passive patient.

AutoPEEPES

The difference between esophageal pressure measured at the end

of exhalation (PEEPES) minus the esophageal pressure measured at

the start of a patient-initiated breath (PES start) and the sensitivity of

the ventilator’s demand system. The sensitivity of the ventilator’s

demand system is the difference between the baseline airway

pressure (PEEPAW) and the airway pressure when the patient

initiates a breath (PAW start). Requires an esophageal balloon.

Ptp Plat

Transpulmonary pressure during an inspiratory hold, which is the

difference between the airway plateau pressure (PPLAT AW) and the

corresponding esophageal pressure. Requires an inspiratory hold

and esophageal balloon.

Monitors and definitions (continued)

Mechanics (continued)

Ptp PEEP

The difference between the corresponding airway and esophageal

pressures at the end of the expiratory hold during

an AutoPEEP maneuver. Requires an inspiratory hold and

esophageal catheter.

MIP The maximum negative airway pressure that is achieved by the

patient, during an expiratory hold maneuver.

P100

The negative pressure that occurs 100 ms after an inspiratory

effort has been detected.

WOBV

Ventilator work of breathing (WOBV) is defined as the summation

of airway pressure (PAW) minus the baseline airway pressure

(PEEPAW) times the change in tidal volume to the patient (-V)

during inspiration, and normalized to the total inspiratory tidal

volume (Vti).

WOBP

Patient work of breathing (WOBP), normalized to the total

inspiratory tidal volume. Patient work of breathing is defined as

the summation of two work components: Work of the lung and

work of the chest wall. Requires an esophageal balloon.

WOBI

Imposed work of breathing (WOBI) is defined as the work

performed by the patient to breathe spontaneously through the

breathing apparatus, (i.e., the E.T. tube), the breathing circuit and

the demand flow system. Requires a tracheal catheter.

Note: Monitored values are displayed as BTPS.

Capnography

EtCO2

The patient’s peak expired CO2 as measured and reported by the

CO2 sensor in the airway, calculated for each breath then averaged

as specified by set EtCO2 averaging time.

VCO2

Minute volume of exhaled CO2 measured continuously and

averaged over a user-selectable time. Requires flow measurement

at the wye or circuit compliance active.

VtCO2

Tidal volume of exhaled CO2, measured for each breath and then

averaged over the set VCO2 averaging time. Requires flow mea-

surement at the wye or circuit compliance active.

Vd ana

The volume of dead space in the patient’s conducting airways

from the nose to the level of the terminal bronchioles measured

for each breath, then averaged over the set CO2 averaging time.

Also includes any mechanical dead spaces added to the ventila-

tor circuit between the CO2 sensor and the patient. Requires flow

measurement at the wye or circuit compliance active.

Vd/Vt ana

Anatomic Vd/Vt is averaged over the set VCO2 averaging

time. Requires flow measurement at the wye or circuit

compliance active.

Vd phy

Comprises Vd ana as well as the volume of the respiratory zone

(respiratory bronchioles, alveolar ducts and alveoli) not participat-

ing in gas exchange. Requires an arterial blood gas sample.

Vd/Vt phy Physiologic Vd/Vt is averaged over the set VCO2 averaging time.

Requires an arterial blood gas sample.

Vd alv

Alveolar dead space is the difference between physiological

dead space and anatomical dead space. It represents the volume

of the respiratory zone that is from ventilation of relative

under-perfused or non-perfused alveoli. Requires an arterial

blood gas sample.

Monitors and definitions (continued)

Capnography (continued)

VA Alveolar ventilation is the volume of gas participating in gas

exchange per minute. Requires an arterial blood gas sample.

P/F

The PaO2 / FIO2 ratio is a simple assessment of gas exchange

calculated from the FIO2 monitor value and an arterial blood

oxygen measurement (required) entered by the clinician.

Oxygenation index is a dimensionless number often used to

assess the “pressure cost” of oxygenation calculated from the FIO2

mean airway pressure and an arterial blood oxygen measurement

(required) entered by the clinician.

Monitors and definitions (continued)

Available modes

Mode Adult Pediatric Neonatal

Volume A/C X X X

Volume SIMV X X X

Pressure A/C*X X X

Pressure SIMV*X X X

TCPL A/C*X

TCPL SIMV*X

PRVC A/C X X

PRVC SIMV X X

APRV/BiPhasic X X

CPAP/ PSV X X

Nasal CPAP/IMV X

* Volume guarantee breaths available for neonates

Normal values and indications for weaning (adults)

Parameter Normal range Indications for

weaning

Respiratory rate 10 to 20 breaths/minute < 30 B/min△

Esophageal pressure 5 to 10 cmH2O < 15 cmH2O

Tidal volume 7 to 10 mL/kg > 5 mL/kg△

Minute ventilation 5 to 10 Liters/min < 10 L/min

WOBP3 to 0.6 Joules/Liter < 0.75 J/L △

Pressure time index 0.05 to 0.12 < 0.15 △

Airway resistance 2 to 5 cmH2O/L/s < 15 cmH2O/L/s

Lung compliance 50 to 100 mL/cmH2O > 25 mL/cmH2O

Maximum inspiratory -30 cmH2O low effort > -20 cmH2O△

Pressure (MIP) -140 cmH2O high effort

Auto PEEP 0 < 3 cmH2O

Respiratory drive P0.1 2 to 4 cmH2O < 6 cmH2O△

f/VT 60 to 90 < 105

Pressure time 200 to 300 cmH2O sec/min

Product (PTP)

Ti/TTOT 0.3 to 0.4

Parameter Acceptable range

SaO2> 90% on FlO2 of < 40%

P(A - a) O2 on

FlO2 of 100%

< 350 mmHg

PaO2/FlO2> 200 mmHg

Qs/Qt < 20%

Vd/Vt < 0.6

Heart rate > 70 and < 120 bpm

Mean blood pressure > 70 and < 110 mmHg

Turn-Touch are trademarks or registered trademarks of

CareFusion Corporation or one of its subsidiaries.

RC2236 (0511/2000) L3059 Rev. B

CareFusion

Yorba Linda, CA

carefusion.com

Note: Research indicates these pulmonary parameters may aid qualified medical

personnel in evaluating weaning potential. If measured values exceed acceptable

range, successful weaning may be less likely. Ranges from these parameters are not

intended as a substitute for clinical assessment by qualified medical personnel and

CareFusion assumes no liability for their use in patient care. A list of references is

available upon request.

CareFusion Germany 234 GmbH

Leibnizstrasse 7

97204 Hoechberg

Germany

+49 931 4972-0 tel

+49 931 4972-423 fax

CareFusion

22745 Savi Ranch Parkway

Yorba Linda, CA 92887

800.231.2466 toll-free

714.283.2228 tel

714.283.8493 fax

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