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Mechanical Ventilator 1

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1 Mechanical Ventilator 1
Lecture (5)

2 Mechanical Ventilation
Mechanical Ventilation is ventilation of the lungs by artificial means usually by a ventilator. A ventilator delivers gas to the lungs with either negative or positive pressure.

3 Anatomy and physiology of the lungs
The lungs are soft, spongy, cone-shaped organs located in the thoracic cavity. The right and left lungs are separated medially by the heart and the mediastinum, and they are enclosed by the diaphragm and the thoracic cage.

4 Ventilator The ventilator (also known as a respirator) is a pneumatic and electronics system designed to monitor, assist, or control pulmonary ventilation, and respiration intermittently or continuously.

5 Types of Mechanical ventilators:
Negative-pressure ventilators Positive-pressure ventilators.

6 Negative-Pressure Ventilators
Early negative-pressure ventilators were known as “iron lungs.” The patient’s body was encased in an iron cylinder and negative pressure was generated . The iron lung are still occasionally used today.

7 Intermittent short-term negative-pressure ventilation is sometimes used in patients with chronic diseases. The use of negative-pressure ventilators is restricted in clinical practice, however, because they limit positioning and movement and they lack adaptability to large or small body torsos (chests) . Our focus will be on the positive-pressure ventilators.

8 Positive-pressure ventilators
Positive-pressure ventilators deliver gas to the patient under positive-pressure, during the inspiratory phase.

9

10 Types of Positive-Pressure Ventilators
1- Volume Ventilators. 2- Pressure Ventilators 3- High-Frequency Ventilators

11 1- Volume Ventilators The volume ventilator is commonly used in critical care settings. The basic principle of this ventilator is that a designated volume of air is delivered with each breath. The amount of pressure required to deliver the set volume depends on :- - Patient’s lung compliance - Patient–ventilator resistance factors.

12 Therefore, peak inspiratory pressure (PIP) must be monitored in volume modes because it varies from breath to breath. With this mode of ventilation, a respiratory rate, inspiratory time, and tidal volume are selected for the mechanical breaths.

13 2- Pressure Ventilators
The use of pressure ventilators is increasing in critical care units. A typical pressure mode delivers a selected gas pressure to the patient early in inspiration, and sustains the pressure throughout the inspiratory phase. By meeting the patient’s inspiratory flow demand throughout inspiration, patient effort is reduced and comfort increased.

14 Although pressure is consistent with these modes, volume is not.
Volume will change with changes in resistance or compliance, Therefore, exhaled tidal volume is the variable to monitor closely. With pressure modes, the pressure level to be delivered is selected, and with some mode options (i.e., pressure controlled [PC], described later), rate and inspiratory time are preset as well.

15 3- High-Frequency Ventilators
High-frequency ventilators use small tidal volumes (1 to 3 mL/kg) at frequencies greater than 100 breaths/minute. The high-frequency ventilator accomplishes oxygenation by the diffusion of oxygen and carbon dioxide from high to low gradients of concentration.

16 Classification of positive-pressure ventilators:
Ventilators are classified according to how the inspiratory phase ends. The factor which terminates the inspiratory cycle reflects the machine type. They are classified as: 1- Pressure cycled ventilator 2- Volume cycled ventilator 3- Time cycled ventilator

17 1- Volume-cycled ventilator
Inspiration is terminated after a preset tidal volume has been delivered by the ventilator. The ventilator delivers a preset tidal volume, and inspiration stops when the preset tidal volume is achieved.

18 2- Pressure-cycled ventilator
In which inspiration is terminated when a specific airway pressure has been reached. The ventilator delivers a preset pressure; once this pressure is achieved, end inspiration occurs.

19 3- Time-cycled ventilator
In which inspiration is terminated when a preset inspiratory time, has elapsed. Time cycled machines are not used in adult critical care settings. They are used in pediatric intensive care areas.

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