Mechanical Ventilation

I. Identify indications and contraindications of mechanical ventilation (F1,F3, F8, C18,
C19, C20)
A. Define respiratory failure and distinguish between its two primary types
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B. Compare and contrast acute and chronic respiratory failure
C. Identify causes of respiratory failure
D. Justify ventilatory support in special circumstances
II. Demonstrate proficiency in initiating mechanical ventilation (F1, F5, F8, F10, C18,
C19, C20)
A. Differentiate between physician ordered and therapist controlled parameters
B. Differentiate between pressure ventilation and volume ventilation
C. Establish an appropriate minute volume for initial ventilator settings
D. Establish appropriate FiO2 setting for initial mechanical ventilation
E. Explain the relationship between flow, inspiratory time, and expiratory time
III. Differentiate between common modes of mechanical ventilation
A. Define the terms trigger, limit, and cycle as they pertain to modes of mechanical
ventilation
B. Differentiate between ventilator breaths and spontaneous breaths as they
relate to modes of mechanical ventilation
C. Produce graphic representations of different modes of mechanical ventilation
D. Describe controlled mandatory ventilation (CMV)
E. Describe assist control ventilation
F. Differentiate between intermittent mandatory ventilation and synchronized
intermittent mandatory ventilation
G. Differentiate between pressure control and volume control ventilation
H. Describe pressure support mode (PSV)
I. Describe continuous positive airway pressure (CPAP) mode of ventilation
J. Differentiate between PSV and CPAP
IV. Describe the difference between PEEP, CPAP, and PS
A. Define positive end expiratory pressure
B. Explain indications for PEEP
C. Determine optimal PEEP
D. Describe hazards of PEEP
E. List contraindications for PEEP
F. Define CPAP
G. Explain indications for CPAP
H. Define pressure support
I. Explain indications for pressure support
V. Define and discuss the relationship between inspiratory time, expiratory time, I:E
ratio, rate, minute volume, and inspiratory flow rate
A. Discuss the relationships between tidal volume, flow, and I:E ratio
B. Calculate all components needed to establish appropriate I:E ratio
C. Differentiate between various flow waveforms
D. Describe the correct setting of the sigh mechanism
E. List indications for initiating the sigh mechanism
VI. Explain the importance of proper alarm settings (F1, F3, F8, C18, C19, C20)
A. Differentiate between input and output alarms
B. Identify the need for each alarm and state the normal ranges for each.
C. Troubleshoot activated alarms
VII. Describe hazards and complications of mechanical ventilation (F1, F3, F5, F9)
A. Identify hazards related to positive pressure ventilation
B. Explain alteration of V/Q ratio by mechanical ventilation
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C. Explain decreased venous return as it relates to central venous pressure
D. Identify pressures that may induce barotrauma
E. Identify hazards related to the patient’s condition
F. Identify hazards related to the ventilator and artificial airway
G. Identify hazards related to medical professionals
VIII. Differentiate between compliance and resistance (F1, F2, F3, F5, F6, F8, F9, F12)
A. Define compliance
B. Describe how compliance will affect volume changes in the lung
C. Differentiate between static and dynamic compliance
D. Calculate dynamic and static compliance
E. List factors influencing compliance
F. Identify disease processes in comparison to compliance changes.
G. Define and describe resistance
H. Calculate airway resistance
I. List factors influencing airway resistance
J. Identify disease processes in comparison to resistance changes.
IX. Student will utilize a systematic review of ventilator waveforms and their use in
ventilator management and troubleshooting.(F10, F12, C18, C19, C20)
A. Identify all phases of a pressure-time waveform
B. Identify five breath types that can be viewed with pressure-time waveform
C. Assess plateau pressure, patient triggering and peak flow rate using
pressure-time waveform
D. Identify all phases of a flow-time waveform
E. Determine the presence of Auto peep with the flow-time waveform
F. Evaluate I time with flow-time curves
G. Identify flow waveform shapes.
H. Detect leaks with volume-time waveforms
I. Identify mandatory and spontaneous breaths with pressure-volume loops
J. Assess patient’s work to trigger, changes in compliance and resistance, lung
over-distention, and inflection points with pressure-volume loop
K. Evaluate the effect of bronchodilators using flow-volume loops
L. Determine the presence of secretions in the airway or water in the circuit
using flow-volume loops.
X. Manage the patient-ventilator system by gathering data from physiologic
measurements and general patient assessment(F1, F2, F3, F5, F6, F8, F9, F12)
A. Recommend appropriate adjustments in ventilatory support settings, given
ABG parameters
B. Describe when and how to conduct a comprehensive patient-ventilator
system check
C. Interpret the meaning of common flow, volume, and pressure waveforms
seen during mechanical ventilation
D. Given specific clues regarding abnormal patient ventilator function, identify
the possible causes and potential corrective actions.
E. Outline the steps to be taken in managing sudden distress in a patient
receiving ventilatory support
XI. Demonstrate competence, care, and diligence in managing and monitoring the
critical care patient (F1, F2, F3, F5, F6, F8, F9, F12)
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A. Identify and define the three essential components in the management
process for the critically ill patient.
B. Differentiate among the various aspects of general patient assessment and
their relevance to managing patient receiving ventilatory support.
C. Specify the common parameters used to assess patient oxygenation,
ventilation, mechanics and capacity, laboratory results; and their threshold
values and use in bedside decision making.
XII. Demonstrate an understanding of the science of weaning and be able to identify
different weaning techniques(F1, F2, F3, F5, F6, F8, F9, F12)
A. Identify factors contributing to ventilator dependence.
B. Differentiate among preweaning, weaning, and extubation phases of
ventilator withdrawal
C. Identify physiologic and psychological prerequisites for successful weaning
and methods to achieve them
D. Identify criteria useful in determining when to extubate a patient after
withdrawal of ventilatory support
XIII. Identify, initiate, manage and evaluate noninvasive ventilation. (F1,F3, F5, C18, C19,
C20
A. List and describe terms and acronyms associated with noninvasive
ventilation.
B. List and describe types, goals, indications and criteria for selection and
exclusion for noninvasive ventilation
C. Describe clinical applications for noninvasive ventilation
D. Describe advantages and disadvantages of noninvasive ventilation
E. Describe the troubleshooting associated with noninvasive ventilation and
interfaces.