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Triton Electronic Systems Ltd.
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  5. Model MV200 - Intensive Care Ventilator ...

Model MV200 - Intensive Care Ventilator Zisline

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Zisline MV200 is multifunctional mechanical ventilator that effectively provides all necessary functions for reliable and safety respiratory support of all patient groups: adult children and infants. Zisline MV200 includes large number of innovative functions that were developed in close cooperation with leading Russian medical experts. The device provides continuous monitoring of gas exchange and evaluation of metabolic needs and has mode of intellectual adaptive ventilation. Zisline MV200 provides invasive mandatory and assisted as well as non-invasive ventilation. Friendly intuitive interface allows using the device by medical personnel of different qualification.

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Mandatory ventilation

volume controlled

CMV VCV

pressure controlled

CMV PCV
pressure controlled, volume guaranteed

PCV VG

Synchronized intemittent mandatory ventilation

volume controlled

SIMV VC (+PS)

pressure controlled

SIMV PC (+PS)

double-controlled

SIMV DC (+PS)

Spontaneous breathing

with continuous positive airway pressure

CPAP (+PS)

two levels of PEEP

BiSTEP (+PS)

airway pressure release ventilation

APRV (+PS)

Noninvasive ventilation

 noninvasive ventilation with a mask NIV

Adaptive ventilation

intellectual support ventilation with auto-control of ventilation

iSV
Reserve mode apnea / backup ventilation

Apnea / backup

Intended use: artificial lung ventilation in operation rooms, resuscition and intensive care units, for hospital transportation.

Patient types: adult, pediatric, infant.

Display: 12.1“ , touchscreen, color, viewing angle adjustment.

Gas supply: built-in turbine; oxygen from central gas pipeline, cylinder or O2 concentrator.

Mobile rack-trolley, pneumatic nebulizer, USB.

Power: 100–250 V, 50/60 Hz, built-in battery, up to 6 h of operation.

Tidal volume, ml

10-3000

Breathing rate, bpm

1-120

Tinsp, sec

0.2-10

Flow trigger sensitivity, lpm

0.5-20

Pressure trigger sensitivity, cmH2O

0.5-20

PEEP, cmH2O

0-50

Flowmax, lpm

 180

Inspiratory pressure, cmH2O

0-100

Pressure support, cmH2O

0-80

I:E ratio

1:99-60:1

BASIC MONITORING

Peak inspiratory pressure (PIP), plateau pressure, mean pressure, PEEP

Minute respiratory volume

Inspiratory, expiratory volume

Respiratory rate (RB), spontaneous breaths frequency (fspont)

Compliance (C)

Resistance (R)

I:E ratio

Concentration of inspired oxygen FiO2

Leakage

Maximum flow on inspiration

EtCO2, FiCO2


ADVANCED MONITORING


AutoPEEP, total PEEP

Inspiratory time constant, expiratory time constant

Stress index 

Respiratory effort index

Work the patient breathing, work of ventilator breathing

Inspiratory time

Coefficient of spontaneous breathing

Resistance to exhalation

Circuit resistance

Circuit compliance

Dynamic compliance

Rapid shallow breathing index (RSBI)

SpO2, pulse rate

Cardiac output

Volume of alveolar ventilation (Valv min)


GRAPHICAL MONITORING

Graphs: simultaneous displaying up to three curves (flow, pressure, volume, CO2, SpO2, VCO2, Paux, iSV)

Loops: pressure-volume, flow-volume, flow-pressure, volume-auxiliary pressure

Monitoring parameters: simultaneous displaying up to 8 windows depending on user`s choice 

Controls: 8 parameters are displayed depending on ventilation mode

Hot keys: 9 fast access icons to special functions of ventilator

Evaluation of metabolic needs

The method of indirect calorimetry without use of disposables. Continuous measurement:

  • oxygen consumption (VO2),
  • carbon dioxide elimination (V?O2),
  • respiratory quotient (RQ),
  • resting energy expenditure (REE).

Mainstream capnometry

Monitoring of EtCO2, FiCO2, capnogram and respiratory rate. Quick response QuReTM sensor provides the highest precision of capnogram waveform for true clinical diagnostics and allows working even in HF ventilation mode up to 200 bpm.

Integrated calculator of cardiac output by Fick method

 Calculation of the cardiac output parameter (CO) based on the data of alveolar ventilation monitoring.
Auxiliary pressure module

Measurement of auxiliary pressure in trachea or esophagus via catheter.
Stress index

Integral parameter indicating correctness of PEEP and tidal volume VT settings.

Adaptive ventilation (iSV)

Mode of intellectual adaptive ventilation supporting patients with any level of breathing activity. It automatically determines the parameters of control and support ventilation pressure. This mode is ideal from weaning of patient from the ventilator.

Advanced monitoring of alveolar ventilation parameters

 Volumetric capnography (VCO2), airway dead space volume (Vd), alveolar minute ventilation volume (MValv).

Pulse oximetry

Measurement of oxygen saturation of arterial blood hemoglobin SpO2, pulse rate (PR), photoplethysmogram.