Ventilation Mechanisms and Pulmonary Hypertension PDF

Summary

This document discusses the mechanisms of hypoxemia, focusing on hypoventilation, V/Q mismatch, right-to-left shunts, and diffusion limitation, as well as the impact of these processes on pulmonary vascular resistance. It also details the pulmonary vascular response to changes in cardiac output and the resulting pulmonary hypertension.

Full Transcript

‫‪Ventilation‬‬
‫دکتر مريم بنی عقیل‬
‫فلوی فوق تخصص ریه‬
 21%

760 mmhg

74 mmhg

0.8
Mechanisms of hypoxemia

 Hypoventilation

 V/Q mismatch

 Right to left shunt
Anatomic
Physiologic

 Diffusion limitation

 Reduced impaired oxygen tension
 Mechanisms of hypoxemia
 Hypoventilation
Mechanisms of hypoxemia

 Hypoventilation
SHUNT & v/q miss-match
Shunt P O2 does not rise with administration of 100%
oxygen
perfusion
 Pulmonary circulation is a low pressure
 system
 Syst. pr======25 mmHg
 Diast. pr======8 mmHg
 Mean pr.======15 mmHg
 When cardiac o utput increases, as occurs during exercise the
pulmonary responding to the increase in flow with a decrease in
pulmonary vascular resistance. In consequence, the increase
in mean pulmonary arterial pressure (PAP), even with a three-
to fourfold increase in cardiac output , is small
pvr

PVR = 80(PAP – PCW)/CO
PVR = pulmonary vascular resistance (dyn ·
s/cm5);
PAP = mean pulmonary arterial pressure
(mmHg);
PCW = pulmonary capillary wedge
pressure (mmHg);
CO = cardiac output
(L/min).
The normal value for pulmonary vascular
resistance is ~50–150 dyn · s/cm5.
 Mechanisms of increased PVR

 PVR may increase by a variety of mechanisms :
 Pulmonary arterial and arteriolar
vasoconstriction is a prominent response to alveolar
hypoxia.
 PVR also increases if intraluminal thrombi or
proliferation of smooth muscle in vessel walls
diminishes the luminal cross-sectional area.

 If small pulmonary vessels are destroyed, either by
scarring or by loss of alveolar walls (as in chronic
obstructive lung disease), the total cross-sectional
area of the pulmonary vascular bed diminishes, and
 pulmonary hypertension
39
All diseases of the respiratory system causing hypoxemia are
potentially capable of increasing PVR, since alveolar hypoxia is a very
potent stimulus for pulmonary vasoconstriction.

The more prolonged and intense the hypoxic stimulus, the more likely
it is that a significant increase in PVR producing pulmonary
hypertension will result.

In practice, patients with hypoxemia caused by chronic obstructive
lung disease, interstitial lung disease, chest wall disease, and the
obesity hypoventilation–sleep apnea syndrome are particularly prone
to developing pulmonary hypertension.

Dr Yahyapour
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‫شما‬