Ventilatory Patterns PDF

Summary

This document provides an overview of ventilatory patterns, including normal, abnormal, and specific types such as Cheyne-Stokes and Kussmaul breathing. The document details alveolar and dead space ventilation, along with the effects of airway resistance and lung compliance on these patterns. Specific ventilatory patterns such as hyperventilation and hypoventilation are also discussed.

Full Transcript

VENTILATION
Tamethia Perkins MS, RRT-NPS, RRT-ACCS
RT 3005/6005
Ventilatory Patterns
 Normal Ventilatory
Pattern
◼ Consists of:
◼ Tidal Volume (VT)
◼ Ventilator Rate (RR)
◼ Inspiratory to Expiratory Ratio (I:E)
◼ VT is the V of air that moves in and out of
the lungs in one quiet breath.
◼ VT= 7-9 mL/kg.
◼ RR= ~ 15 bpm. (12-20)
◼ I:E = 1:2. (1:ins)+ (1:exp, 1:pause).
Normal Ventilatory Pattern
Alveolar Ventilation vs.
Dead Space Ventilation
◼ Alveolar ventilation: inspired air that
reaches the alveoli for gas exchange.
◼ Deadspace ventilation: inspired gas that
does not reach the alveoli.
◼ Dead space:
◼ Anatomic
◼ Alveolar
◼ Physiologic
Alveolar Ventilation vs.
Dead Space Ventilation
 Anatomic Dead Space
◼ Volume of gas in the conducting airways.
◼ Normal: 1ml/lb (2.2 mL/kg).
◼ ~150 mL.
◼ VA= (VT-VD) x breaths/min.
◼ Example:
◼ VT=450 mL
◼ VD=150 mL
◼ RR= 12 bpm
◼ VA= ?
◼ VA= 3.6L
Anatomic Dead Space
 Anatomic Dead Space
◼ Breathing pattern can alter total VA.
◼ Depth
◼ Rate
 Alveolar Dead Space
◼ Alveolus is ventilated but not
perfused with pulmonary blood.

Physiologic Dead Space
◼ Sum of anatomic dead space and
alveolar dead space.
 Intrapleural P and
Regional Ventilation
◼ Individual in upright position.
◼ Ppl at the apices = -7 to –10 cm H2O.
Alveoli in the upper regions are expanded (almost
total filling capacity) more than alveoli at the bases.
◼ Ppl at the bases = -2 to –3 cm H2O.
More blood flow at the bases = heavier = more P for
support = gravity-dependent.
◼ Alveoli at the apices have lower
compliance than the alveoli at the bases.
◼ Ventilation is much greater and more
effective in the lower lung regions.
 Intrapleural P and
Regional Ventilation
Effects of Raw and CL on
Ventilatory Patterns
◼ Normal: RR 15 bpm / VT 500mL.
◼  CL :
◼  RR
◼  VT
◼  Raw :
◼  RR
◼  VT
◼ The change in ventilatory pattern is thought to be based on
minimum work requirements rather than ventilatory efficiency.
Effects of Raw and CL on
Ventilatory Patterns
 Specific Ventilatory
Patterns
APNEA
◼ Complete absence of spontaneous
ventilation.
EUPNEA
◼ Normal, spontaneous breathing.
BIOT’S BREATHING
◼ Rapid deep inspirations followed by
10-30 seconds of apnea. Meningitis.
Specific Ventilatory Patterns
 Specific Ventilatory
Patterns
HYPERPNEA
◼ Increased depth of breathing with or
without increased RR.
HYPERVENTILATION
◼ Increased VA ( RR or  VT).
HYPOVENTILATION
◼ Decreased VA ( RR or  VT).
Specific Ventilatory Patterns
Hyperventilation
Hypoventilation
 Specific Ventilatory
Patterns
TACHYPNEA
◼ Increased RR.
CHEYNE-STOKES BREATHING
◼ Gradual increase in volume and rate
followed by a gradual decrease in
volume and rate until a period of
apnea of 10-30 seconds.
◼ Cerebral disorders.
Cheyne-Stokes
 Specific Ventilatory
Patterns
KUSSMAUL BREATHING
◼ Increased depth and rate of breathing.
◼ Diabetic ketoacidosis.
ORTHOPNEA
◼ The individual is able to breath most
comfortably in upright position.
DYSPNEA
◼ Difficulty in breathing.
Kussmaul