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Pulmonary Edema

Occurs movement of liquid from the blood to the interstitial space and/or into the alveoli exceeds the return of liquid to the blood and its drainage through the lymphatics. This is a cardiac emergency. The causes and pathophysiology have been discussed in the section under heart failure.

Development of acute pulmonary edema is a terrifying experience with extreme breathlessness developing suddenly, and the patient becomes extremely anxious, coughs, and expectorates pink,frothy liquid, with a feeling of drowning. The patient sits upright, or may stand, exhibits air hunger, respiratory rate is elevated, the alae nasi are dilated, and there is inspiratory retraction of the intercostal spaces and supraclavicular fossae that reflects the large negative intrapleural pressures required for inspiration. The patient often grasps the sides of the bed to allow use of the accessory muscles of respiration. Respiration is noisy, with loud inspiratory and expiratory gurgling sounds that are often easily audible across the room. Sweating is profuse, and the skin is usually cold, ashen, and cyanotic, reflecting low cardiac output and increased sympathetic drive.

Auscultation reveals crepitations and occasionally rhonchi, which appear initially over the lung bases but then extend upward with worsening of the condition. An S3 gallop and loud pulmonic component of the second heart sound are frequently present.Arterial pressure is usually elevated as a result of excitement and discomfort, which cause adrenergically mediated vasoconstriction. And this usually does not represent chronic systemic hypertension. Optic fundus examination may be useful in differentiating the two conditions.Sometimes it may be difficult to differentiate between acute pulmonary edema and acute exacerbation of bronchial asthma. Some of the points that may be of clinical use in such a situation are given in the table below.
Differentiation between Pulmonary Edema and Bronchial Asthma
Differentiation between Pulmonary Edema and Bronchial Asthma
Management of Pulmonary Edema
 
Pulmonary edema is life-threatening condition and therefore treated as a medical emergency.As is the case with chronic stable heart failure, identification and correction of any precipitating causes should be attempted. However, because of the acute nature of the problem, the initial management includes a number of additional nonspecific measures.

1) The patient should be in propped up position (provided the blood pressure is adequate) with the legs dangling along the side of the bed, if possible, which tends to reduce venous return.

2) 100 per cent O2 should be administered to improve oxygenation. If patient is not maintaining oxygen saturation with nasal oxygen intubation and mechanical ventilation should be considered. This would increase intra-alveolar pressure, reduces transudation of fluid from the alveolar capillaries, and impedes venous return to the thorax, reducing pulmonary capillary pressure.

3) Morphine is the drug of choice. It is administered intravenously, in doses from 2 to 5 mg intravenously. It reduces anxiety, reduces adrenergic vasoconstrictor stimuli to the arteriolar and venous beds, and thereby helps to break a vicious cycle. An antiemetic is usually given along with morphine to reduce chance of vomiting.

4) Intravenous loop diuretics produce rapid diuresis, reduce circulating blood volume and hasten the relief from pulmonary edema. Furosemide when administered exerts a venodilator action, reducing venous return. This helps in improving pulmonary edema even before the diuresis is initiated. Given IV in a dose of 40 mg.

5) Afterload reducing agents, e.g., IV sodium nitroprusside at 20 to 30 μg/min in patients with systolic BP above 100 mmHg.

6) Inotropic support should be provided by dopamine or dobutamine where necessary.

7) Sometimes, aminophylline (theophylline ethylenediamine), 240 to 480 mg intravenously, is effective in diminishing bronchoconstriction, increasing renal blood flow and sodium excretion, and augmenting myocardial contractility.

8) Rotating tourniquets may be applied in an effort to reduce venous return.

9) In unresponsive severe pulmonary edema, endotracheal intubation and positive pressure ventilation may be required.Once the patient has been stabilized and underlying cause determined, treatment directed at correcting/improving the cause.

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