3100B Theory of Operation and Controls. SensorMedics 3100B u Electrically powered, electronically controlled piston-diaphragm oscillator u Paw of 5 -

Slides:

Advertisements

Similar presentations

Tidal volume delivery during high-frequency oscillatory ventilation in adults with acute respiratory distress syndrome RESUMENMÉTODOS CONCLUSIONES Carla.

Advertisements

Neonatal Mechanical Ventilation

The Map Between Lung Mechanics and Tissue Oxygenation The Map Between Lung Mechanics and Tissue Oxygenation.

HFOV – Equipment Required (Filtered circuit)

Modes of Mechanical Ventilation

Daikin Altherma™ Troubling Shooting

Respiratory Calculations

Mechanical Ventilaton Ramon Garza III, M.D.. Indications Airway instability Most surgical patients or trauma Primary Respirator Failure Mostly medical.

HFOV high frequency Oscillatory Ventilation

Model 754 Portable Ventilator

Mechanical Ventilation in the Neonate RC 290 CPAP Indications: Refractory Hypoxemia –PaO2 –Many hospitals use 50% as the upper limit before changing.

Neonatal Options for the 3100A. VIASYS Healthcare, Inc. Neonatal Options for the 3100A Early Intervention Pro-Active Rescue.

Introduction to Mechanical Ventilation

Trigger/Limit/Cycle/Baseline

GO ORDNANCE !!! ORDNANCECORPS 1 Antenna Mast Group We will now trace the electrical circuits of the antenna mast mast group. Be fore we get started you.

1 © 2013 Cengage Learning. All Rights Reserved. May not be copied, scanned, or duplicated, in whole or in part, except for use as permitted in a license.

1 LIFECARE PLV-100 by Bryce Younger. 2 Classification ► Electrically powered  microprocessor controlled ► Volume-control, time cycled ► Rotary drive.

Initiating Positive Pressure CMV A generic approach!

Medical Gas Alarm Panels

3100B Theory of Operation and Controls. VIASYS Healthcare, Inc. 3100B Theory of Operation and Controls Approved for sale outside the US in 1998 for patients.

pNeuton Transport Ventilator

Clean Air Box Usage & Care CABs RAMs CO Monitors.

Troubleshooting and Problem Solving

3100A Ventilator. VIASYS Healthcare, Inc. 3100A Ventilator Approved in 1991 for Neonatal Application for the treatment of all forms of respiratory failure.

High Frequency Ventilation

RSPT 2414 Mechanical ventilation Review Unit 3 classifications By Elizabeth Kelley Buzbee AAS, RRT- NPS.

Copyright © 2013, 2009, 2003, 1999, 1995, 1990, 1982, 1977, 1973, 1969 by Mosby, an imprint of Elsevier Inc. Chapter 42 Mechanical Ventilators.

By Dr. Ahmed Mostafa Assist. Prof. of anesthesia and I.C.U.

CMV Mode Workshop.

AHP300 VENTILATOR Prepared by Caesar Rondina, EMTP, SCT, EMTP, CES

How Ventilators Work Chapter 3. To care for a ventilator patient, you need to know: The various functions of the ventilator used How the ventilator interacts.

Newport HT50 Ventilator Orientation & Training

Respiratory System Control of Breathing.

Chapter 42 Mechanical Ventilators

08/14/061 HFOV vs. Conventional Ventilation Latoya Robinson Julie Ordones Joshua Globke Matthew Heaton.

1 Life Products LP-6, LP 6 Plus and LP 10 Home Ventilator By Bryce Younger.

1 Elsevier items and derived items © 2010 by Saunders, an imprint of Elsevier Inc. Chapter 19 Mechanical Ventilation of the Neonate and Pediatric Patient.

Ventilators All you need to know is….

1 © 2013 Cengage Learning. All Rights Reserved. May not be copied, scanned, or duplicated, in whole or in part, except for use as permitted in a license.

ASSISTED VENTILATION By: Dr.Saif Assistant Professor Of Paediatrics Allied Hospital Faisalabad.

Without reference, identify principles about volume/pressure and high frequency ventilators with at least 70 percent accuracy.

13.7 – Resistance in circuits. Electrical resistance Electrical resistance is the opposition to the movement of electrons as they flow through a circuit.

Critical Care Ventilation Technology Perspective Fran Hegarty.

Acute Responses to Exercise Key Knowledge 2.1: Functions responsible for short term (acute) responses to physical activity in the cardiovascular, respiratory.

Advanced Modes of CMV RC 270. Pressure Support = mode that supports spontaneous breathing A preset pressure is applied to the airway with each spontaneous.

Basic Concepts in Adult Mechanical Ventilation

IPPB: Bennett valve tutorial

CLINICAL ALGORITHM FOR THE MANAGEMENT OF INTUBATED PATIENTS PRESENTING WITH CHANGES VISSIBLE ON CxR Next step in the algorithm.

Mechanics of Breathing Overview 1. Inspiration 2. Expiration 3. Respiratory Volumes.

HIGH FREQUENCY VENTILATION (HFV)

Ventilator Management James Eakins, MD FACS Director, Trauma and Surgical Critical Care Hahnemann University Hospital.

1 Elsevier items and derived items © 2010 by Saunders, an imprint of Elsevier Inc. Chapter 20 Neonatal and Pediatric High-Frequency Ventilation.

Infant Incubator. Introduction The core temperature of the human body is ~ 37 C. If the temperature goes too high or too down the organ can be damaged.

3 nd LECTURE VENTILATORS Part One. Ventilators One of the major life support systems. Ventilators take over the vital role of the respiratory muscles.

 Understand the dual control concept  Understand the pressure regulation mechanism in PRVC  Demonstration of PRVC  Settings and adjustment with Servo.

Ventilatory Modes. Volume Controlled Mandatory Breath Gas is delivered at a constant flow until the set tidal volume is reached. Pressure rises to a.

Several types of HFV  HFPPV  HFJV  HFOV. Principles of Oscillation Richard F. Kita BS, RRT, RCP Edited by Paula Lussier, CRT, NPS, RCP, BS.

Mechanical Ventilator

Oil-free Vacuum Pump / Compressor Today’s Instruments Co., Ltd.

HIGH FREQUENCY OSCILLATORY VENTILATION

Ventilatory Modes Graphnet Ventilator.

PRESSURE CONTROL VENTILATION

The Crossvent 2i+ option The Crossvent 2i+ is available in 2 different configurations: Model 2200JC Built-in model for retrofitting incubators that currently.

Advanced Modes of Mechanical Ventilation

Basic Concepts in Adult Mechanical Ventilation

HFOV: Theory of Operation and Controls

T-6B On-Board Oxygen Generation System (OBOGS)

T-6B On-Board Oxygen Generation System (OBOGS)

Presentation transcript:

3100B Theory of Operation and Controls

SensorMedics 3100B u Electrically powered, electronically controlled piston-diaphragm oscillator u Paw of cmH2O u Pressure Amplitude from cmH2O u Frequency of Hz u % Inspiratory Time 30% - 50% u Flow rates from LPM

Paw is created by a continuous bias flow of gas past the resistance (inflation) of the balloon on the mean airway pressure control valve.

To pressurize the patient circuit, the Reset / Power Fail button must be pressed and held until the mean airway pressure is at least 5 cmH2O

Oxygenation u The Paw is used to inflate the lung and optimize the alveolar surface area for gas exchange. u Paw = Lung Volume

Primary control of CO 2 is by the stroke volume produced by the Power Setting.

Alveolar ventilation during CMV is defined as: F x Vt Alveolar Ventilation during HFV is defined as: F x Vt 2 Therefore, changes in volume delivery (as a function of Delta-P, Freq., or % Insp. Time) have the most significant affect on CO 2 elimination

Ventilation

u The % Inspiratory Time also controls the time for movement of the piston, and therefore can assist with CO 2 elimination. u Increasing % Inspiratory Time will also affect lung recruitment by increasing delivered Paw.

Secondary control of PaCO 2 is the set Frequency.

Frequency controls the time allowed (distance) for the piston to move. Therefore, the lower the frequency, the greater the volume displaced, and the higher the frequency, the smaller the volume displaced.

Piston Centering is automatically regulated by the instrument and requires no operator intervention.

The Start / Stop button is used to start and stop the oscillator. The oscillator may be stopped without a complete loss of mean airway pressure.

Alarms

Preset High and Low mean airway pressure alarms. Upon activation the oscillator will stop and the circuit pressure will vent to ambient.

Activation of the high mean pressure alarm will trigger the Auto Limit System. The Auto Limit System will open the “blue” limit valve on the circuit and vent pressure. The valve will then repressurize to it’s normal operational state.

After resolution of the fault condition the visual alarm can be cleared by pressing the Reset / Power Fail Button

Activation of the low mean airway pressure alarm will only provide audible and visual alarms. The visual alarm will automatically reset after the fault condition has resolved

The source gas low alarm will provide only a visual indicator if either of the high pressure gas supplies falls below 30 psi.

The battery low alarm will provide only a visual indicator when the nine volt alarm battery needs replacement.

The oscillatory overheated alarm will provide only a visual indicator if the linear motor temperature exceeds 150 degrees Centigrade.

The oscillator stopped alarm will provide audible and visual indicators if the oscillatory amplitude is at or below 7 cmH2O and the oscillatory subsystem is energized. (as indicated by the illumination of the green LED on the start stop button)