Comprehensive Background for Anesthesiology |
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Page 31
... tissue blood flow , etc. The following is an attempt to demonstrate the practical application of some physical principles involved in tissue absorption of these substances . A. Definitions . 1. Solubility coefficient : the volume of gas ...
... tissue blood flow , etc. The following is an attempt to demonstrate the practical application of some physical principles involved in tissue absorption of these substances . A. Definitions . 1. Solubility coefficient : the volume of gas ...
Page 134
... tissue ex- traction , that the high gradient and content would suffice for tissue oxygenation . b . Henry's law : The amount of a given gas which dissolves in a given liquid is directly proportional to the pressure of the gas . The ...
... tissue ex- traction , that the high gradient and content would suffice for tissue oxygenation . b . Henry's law : The amount of a given gas which dissolves in a given liquid is directly proportional to the pressure of the gas . The ...
Page 172
William Forrest Powell. SECTION 26 CHARACTERISTICS OF HEART MUSCLE AND CONDUCTIVE TISSUE A. Cardiac tissue . 1. Three types of syncytial muscle . a . Nodal tissue . b . Purkinje system . c . Cardiac muscle ( bundles and sheets of fibers ) ...
William Forrest Powell. SECTION 26 CHARACTERISTICS OF HEART MUSCLE AND CONDUCTIVE TISSUE A. Cardiac tissue . 1. Three types of syncytial muscle . a . Nodal tissue . b . Purkinje system . c . Cardiac muscle ( bundles and sheets of fibers ) ...
Contents
SICS SEDATIVES TRANQUILIZERS AND ANTICHOLINERGIC DRUGS | 3 |
PREOPERATIVE EVALUATION | 7 |
THEORIES OF NARCOSIS | 10 |
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acetylcholine acid action agents alveoli amount anesthesia anesthetic arterial associated block blood flow body Book calcium carbon dioxide cardiac cause cells central Charles Chemical chloride circulation circulatory clinical concentration constriction contraction curve decrease depression determined difference disease drugs effect electrical epinephrine ether excretion fibers FIGURE fluid force formula function gases glucose heart heat hyperventilation increased injection intracranial pressure kidney latter less liquid liter liver loss lung measured mechanism Medical method minute muscle muscle relaxants nerve nervous system normal output oxide oxygen patients Pharmacological plasma position potassium practical Preparation presence pressure properties Publishers pulmonary References relatively resistance respiration respiratory rise secondary sodium solution Specific spinal stimulation Structural substance sympathetic temperature tension tion tissue tube vapor venous ventilation ventricular vessels volume weight