Cardiopulmonary hemodynamics during sleep in subjects with chronic obstructive pulmonary disease. The effect of short- and long-term oxygen.

Some patients with chronic obstructive pulmonary disease (COPD) experience transient arterial hypoxemia (TAH) during rapid eye movement (REM) sleep. To examine the effect of short- and long-term low flow oxygen on TAH associated cardiopulmonary hemodynamics, we recorded pulmonary artery pressure (Ppa) and cardiac output during nocturnal sleep in seven male subjects with COPD. In all of the subjects, parameters were measured breathing room air at baseline time and after eight or more weeks of home supplemental oxygen (15 hours per day, 3 L/min). Five were also studied one full night at baseline time while breathing 3 L/min nasal oxygen. While breathing room air both before and after chronic home oxygen therapy, transient increases in Ppa during TAH were due to increased pulmonary vascular resistance in seven instances, increased cardiac output in four, and increases in both vascular resistance and cardiac output in two. Short-term supplemental oxygen lowered mean sleeping Ppa and eliminated TAH along with its associated hemodynamic changes in four of the five subjects; the fifth did not experience REM sleep. In the six subjects who complied with the eight-week home oxygen protocol, mean sleeping Ppa was significantly reduced (p less than 0.05). In four of these, total pulmonary resistance was lower and cardiac output higher after home oxygen therapy. Short-term supplemental oxygen is useful in correcting REM-associated TAH and in some hypoxemic subjects, reducing mean sleeping Ppa. Sustained reductions in pulmonary vascular resistance after long-term home oxygen therapy may be indicative of improved cardiac and pulmonary vascular status even in subjects showing minimal or no reduction in mean sleeping Ppa.

[1]  N. Douglas,et al.  TRANSIENT HYPOXÆMIA DURING SLEEP IN CHRONIC BRONCHITIS AND EMPHYSEMA , 1979, The Lancet.

[2]  N. Fowler,et al.  Anoxia and human pulmonary vascular resistance. , 1951, Transactions of the Association of American Physicians.

[3]  J. Bishop,et al.  Effects of acute hypoxia and hypervolaemia singly and together, upon the pulmonary circulation in patients with chronic bronchitis. , 1967, Clinical science.

[4]  A. Rechtschaffen,et al.  A manual of standardized terminology, technique and scoring system for sleep stages of human subjects , 1968 .

[5]  A. Fishman,et al.  Effects of acute anoxia on the circulation and respiration in patients with chronic pulmonary disease studied during the steady state. , 1952, The Journal of clinical investigation.

[6]  A. J. Block,et al.  Nocturnal pulmonary hypertension in patients with chronic obstructive pulmonary disease. , 1979, Chest.

[7]  E. Lugaresi,et al.  Arterial blood gases and pulmonary and systemic arterial pressure during sleep in chronic obstructive pulmonary disease. , 1978, Sleep.

[8]  J. Doyle,et al.  The Pulmonary Vascular Responses to Short‐Term Hypoxia in Human Subjects , 1952, Circulation.

[9]  A. Leitch,et al.  Arterial blood gas tensions, hydrogen ion, and electroencephalogram during sleep in patients with chronic ventilatory failure. , 1976, Thorax.

[10]  J. Cotes,et al.  EFFECT OF BREATHING OXYGEN UPON CARDIAC OUTPUT, HEART RATE, VENTILATION, SYSTEMIC AND PULMONARY BLOOD PRESSURE IN PATIENTS WITH CHRONIC LUNG DISEASE. , 1963, Clinical science.

[11]  T. Petty,et al.  The role of long-term continuous oxygen administration in patients with chronic airway obstruction with hypoxemia. , 1967, Annals of internal medicine.

[12]  A. J. Block,et al.  The origins of cor pulmonale; a hypothesis. , 1979, Chest.

[13]  E. Lupi-Herrera,et al.  The Role of Hydralazine Therapy for Pulmonary Arterial Hypertension of Unknown Cause , 1982, Circulation.

[14]  D. Sax,et al.  Arterial blood gases and pH during sleep in chronic obstructive pulmonary disease. , 1975, The American journal of medicine.

[15]  E. Fletcher,et al.  Nonapneic mechanisms of arterial oxygen desaturation during rapid-eye-movement sleep. , 1983, Journal of applied physiology: respiratory, environmental and exercise physiology.

[16]  A. J. Block,et al.  Continuous in-vivo monitoring of arterial oxygenation in chronic obstructive lung disease. , 1977, Annals of internal medicine.

[17]  K. Horsfield,et al.  The pulmonary circulation in chronic bronchitis at rest and during exercise breathing air and 80 per cent oxygen. , 1968, Clinical science.

[18]  A. J. Block,et al.  Treatment of Chronic Obstructive Pulmonary Disease at Sea Level , 2017 .

[19]  B. Burrows,et al.  Patterns of cardiovascular dysfunction in chronic obstructive lung disease. , 1972, The New England journal of medicine.

[20]  D. Flenley CLINICAL HYPOXIA: CAUSES, CONSEQUENCES, AND CORRECTION , 1978, The Lancet.

[21]  J. Bishop,et al.  Long-term Domiciliary Oxygen in Chronic Bronchitis with Pulmonary Hypertension , 1973, British medical journal.

[22]  R. Wilson,et al.  The effects of breathing 99.6% oxygen on pulmonary vascular resistance and cardiac output in patients with pulmonary emphysema and chronic hypoxia. , 1955, Annals of internal medicine.

[23]  A G Leitch,et al.  Long-term domiciliary oxygen therapy in cor pulmonale complicating chronic bronchitis and emphysema. , 1976, Thorax.

[24]  W. Whitaker Pulmonary hypertension in congestive heart failure complicating chronic lung disease. , 1954, The Quarterly journal of medicine.

[25]  J. Bishop,et al.  Reversal of Pulmonary Hypertension by Prolonged Oxygen Administration to Patients with Chronic Bronchitis , 1968, Circulation research.