NONRESPIRATORY FUNCTIONS OF THE LUNG
In addition to its central role in gas exchange, the lung is active in both the metabolism and the degradation of many substances. Surfactant production by the alveolar Type II cell is an important metabolic function of the lungs. This phospholipid minimizes surface tension and thus confers stability on the alveoli and small airways, preventing atelectasis and decreasing the work of breathing. The failure of the immature lung to produce sufficient surfactant leads to the respiratory distress syndrome (RDS) of the newborn. The lung is also involved in the biosynthesis of arachidonic acid into products of both the lipoxygenase and cyclo-oxygenase pathways. While a myriad of physiological functions have been ascribed to these agents, a clear relationship to pulmonary function is still lacking. Additionally, the lung is capable of removing or inactivating a large number of biologically active substances, including serotonin, bradykinin, and prostaglandins. It is also the principal site of the conversion of angiotensin I to angiotensin II.
- HEART DISEASE AND PREGNANCY
- PULMONARY GAS EXCHANGE
- RAYNAUD'S PHENOMENON
- VENTILATION
- ARTERIOSCLEROSIS OBLITERANS
- ENVIRONMENTAL DAMAGE OF THE EXTREMITIES
- NONPULMONARY FACTORS
- NONRESPIRATORY FUNCTIONS OF THE LUNG
- GENERAL PRINCIPLES OF CARDIAC SURGERY
- THROMBOANGIITIS OBLITERANS
- MISCELLANEOUS AORTIC DISEASE
- GAS TRANSFER
- THE BLOOD VESSELS STRUCTURE
- ARTERIAL TRAUMA
- PERIPHERAL VENOUS DISEASE
- PERFUSION
- GENERAL SURGERY IN THE PATIENT WITH HEART DISEASE
- THE AIRWAY STRUCTURE
- PERIPHERAL ANEURYSMS AMD FISTULAE