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Intensive Care Ventilator ZISLINE MV300

Built-in turbine
Built-in turbine
Independed from compressed air sources. The turbine does not require special maintenance and ensures the operation for 40 000 hours
Advanced patient monitoring
Advanced patient monitoring
Mainstream CO₂
Volumetric CO₂
Evaluation of patients metabolic needs
Auxiliary pressure
SpO2
Respiratory mechanics
Cardiac output by Fick method
13 ventilation modes
13 ventilation modes
Mandatory ventilation modes
Modes of spontaneous breathing
Non-invasive ventilation modes
Intelligent ventilation

Scope
of application

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Anesthesiology
Anesthesiology
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Intensive care
Intensive care
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Resuscitation
Resuscitation

Ventilation Parameters

Tidal volume

10–3000 ml

Minute volume

0–60 lpm

Rate of breathing

0–120 lpm

Inspiratory pressure

0–100 H₂O (mbar)

Flow trigger

0.5–20 lpm

Pressure trigger

0.5–20 cmHO (mbar)

I:E ratio

1:99–60:1

Positive end-expiratory pressure

0–50 cmHO (mbar)

Technical Specifications

Power

100–250 V, 50/60 Hz

Built-in battery for 4 to 6 hours of independent operation

Input oxygen pressure

0.15–0.6 MPa (1.5–6 bar). It is allowed to use low-pressure oxygen sources with operating pressure range: 0.05–0.15 MPa (0.5–1.5 bar)

Alarms

Visual and sound alarm
3 level of priority
Interfaces

Ethernet for connection to PC, USB

Maximum (peak) flow on inspiration

180 lpm

" Created with Sketch. ALL-IN-ONE VENTILATOR

Intelligent ventilation mode iSV
iSV mode provides the target volume of minute ventilation at any level of patient‘s spontaneous respiratory activity. Determined by the patient‘s height and gender.
Battery
For 4 to 6 hours back-up battery
15`` full-color touchscreen
Display can be fully folded for easy transportation
Reliable autoclavable exhalation valve
Ventilator is equipped with exhalation valve, which can be easily disconnected from the device and processed in autoclave. Number of sterilization cycles is unlimited
Intensive Care Ventilator ZISLINE MV300
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Advantages

Capnometry and volumetric capnometry
Capnometry and volumetric capnometry

This monitoring method is recommended for use in intensive care units and operating rooms to improve patient safety.

Capnography allows to assess the endotracheal tube location, the resuscitation effectiveness. This type of monitoring is necessary for patients with increased intracranial pressure.

Volumetric capnometry has additional capabilities:
  • allows to assess the alveolar ventilation;
  • tracks the change in physiological dead space at the artificial ventilation.

Capnometry and volumetric capnometry
Auxiliary pressure Paux
Auxiliary pressure Paux
An auxiliary pressure channel allows to the health practitioner to obtain valuable practical information. The doctor can measure the pressure directly in the trachea and
esophagus. The pressure in esophagus is equal to the intrapleural pressure.

Among the main principles of protective artificial lung ventilation the PEEP is considered to be an important component for the prevention of atelectotrauma.

P transpulmonary = P alveolar — Ppleural.

Transpulmonary pressure is the only objective criterion for setting up PEEP. Its monitoring allows reducing or eliminating lung injuries during the ventilation.
Auxiliary pressure Paux
Extended Respiratory Monitoring
Extended Respiratory Monitoring
Extended respiratory monitoring allows to set comfortable and safe ventilation parameters in accordance with the respiratory needs of the patient.

Stress index is an indicator of the correct choice of PEEP and the inspiration volume Vt. Its deviation from “1” shows non-optimal choice of ventilation parameters.
Extended Respiratory Monitoring
Evaluation of patient‘s metabolic needs
Evaluation of patient‘s metabolic needs
The method of indirect calorimetry is considered the “gold standard” of metabolic monitoring.

VO2 oxygen consumption
VCO2 carbon dioxide excretion
 RQ respiratory quotient
 REE resting energy expenditure

In addition to directly measuring the actual resting energy expenditure (REE), this method calculates the respiratory quotient (RQ) — the ratio of carbon dioxide release rate to oxygen consumption rate and assess the contribution of each macronutrient to the total metabolism.
Evaluation of patient‘s metabolic needs

Accessories

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Angle connector
Angle connector
Conformed to patient monitors and ICU ventilators Treaton
All accessories

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All consumables

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All accessories and consumables

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Documents and manuals

Ventilator Treaton Zisline MV200, MV300

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