The Ciba Collection of Medical Illustrations: Respiratory systemThe most critically acclaimed of all of Dr. Frank H. Netter's works, this fully illustrated single book from the 8-volume/13-book reference collection includes: hundreds of world-renowned illustrations by Frank H. Netter, MD; informative text by recognized medical experts; anatomy, physiology, and pathology; and diagnostic and surgical procedures. |
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Page 53
... resistance falls . Conversely , at low lung volumes , transmural airway pressure is lower , and airway resistance increases . If elastic recoil of the lung is reduced - for example , through destruction of alveolar walls ( the ...
... resistance falls . Conversely , at low lung volumes , transmural airway pressure is lower , and airway resistance increases . If elastic recoil of the lung is reduced - for example , through destruction of alveolar walls ( the ...
Page 56
... resistance to airflow must also be increasing proportionally with pleural pressure , probably because of com- pression and narrowing of intrathoracic airways . Factors that determine airflow during a maxi- mal expiratory maneuver are ...
... resistance to airflow must also be increasing proportionally with pleural pressure , probably because of com- pression and narrowing of intrathoracic airways . Factors that determine airflow during a maxi- mal expiratory maneuver are ...
Page 62
... Resistance . Pulmonary vascular resistance ( Plate 15 ) is calculated from the driving pressure across the pulmonary circu- lation - i.e . , mean pulmonary artery pressure minus mean left atrial pressure - and pulmonary blood flow ...
... Resistance . Pulmonary vascular resistance ( Plate 15 ) is calculated from the driving pressure across the pulmonary circu- lation - i.e . , mean pulmonary artery pressure minus mean left atrial pressure - and pulmonary blood flow ...
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Common terms and phrases
abnormalities abscess acute airflow airway alveolar alveolar pressure alveoli aorta asthma basal biopsy blood flow breathing bron bronchial bronchial artery bronchitis bronchogenic bronchoscopy bronchus capillary carbon dioxide carcinoma cartilage cause cavity cells chest wall chronic CIBA clinical Continued cor pulmonale costal cough diagnosis diaphragm diffuse drainage dyspnea edema elastic recoil embolism emphysema esophagus expiration factor fibers fibrosis fluid gas exchange gland hypercapnia hypoventilation hypoxemia increased infection inhalation intercostal interstitial lateral left lung lesions lower lobe lung volume lymph nodes mechanical medial mediastinal mediastinum membrane nerve Netter CIBA Netter M.D. CIBA nodules normal obstruction occur oxygen patients peripheral pleural pressure pneumonia pneumothorax posterior pulmo pulmonary artery pulmonary embolism respiratory result right lung roentgenogram sarcoidosis SECTION IV PLATE segment sputum superior surface symptoms syndrome therapy thoracic tion tissue trachea tracheobronchial tube tuberculosis tumor upper lobe usually vascular vein vena cava venous ventilation vessels