Abstract
The interrelationships of several important factors contribute to the development of pulmonary edema. These factors include hydrostatic and osmotic forces, capillary membrane permeability, and lymphatic drainage capacity. Whether the pulmonary edema is cardiogenic or noncardiogenic, optimal management is facilitated by the improvement of ventilation and gas exchange within the lungs and the restoration of oxygen transport to peripheral tissues. The keystones in such therapy include the administration of oxygen, diuretics, and vasodilators; the use of mechanical ventilation; and the implementation of specific therapy directed toward underlying disorders.
MeSH terms
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Acute Disease
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Adrenal Cortex Hormones / therapeutic use
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Altitude Sickness / complications
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Altitude Sickness / diagnosis
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Altitude Sickness / physiopathology
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Aminophylline / therapeutic use
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Anti-Arrhythmia Agents / therapeutic use
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Capillary Permeability
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Cardiotonic Agents / therapeutic use
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Diuretics / therapeutic use
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Emergencies
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Fluid Therapy
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Heart Failure / complications
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Heart Rate
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Humans
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Hydrostatic Pressure
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Lung / physiopathology
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Morphine / therapeutic use
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Myocardial Contraction
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Nitroglycerin / therapeutic use
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Osmotic Pressure
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Oxygen Inhalation Therapy
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Posture
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Pulmonary Alveoli / physiopathology
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Pulmonary Edema / diagnosis
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Pulmonary Edema / physiopathology
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Pulmonary Edema / therapy*
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Respiration, Artificial
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Respiratory Distress Syndrome / complications
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Respiratory Distress Syndrome / diagnosis
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Respiratory Distress Syndrome / physiopathology
Substances
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Adrenal Cortex Hormones
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Anti-Arrhythmia Agents
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Cardiotonic Agents
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Diuretics
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Aminophylline
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Morphine
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Nitroglycerin