Comprehensive Background for Anesthesiology |
From inside the book
Results 1-3 of 27
Page 109
... amine vasopressors . a . Ephedrine ( actions that are unlike adrenaline ) : ( 1 ) More stable . ( 2 ) Orally ... amines . In larger doses , excessive peripheral constriction will further raise the pres- sure but will decrease blood flow ...
... amine vasopressors . a . Ephedrine ( actions that are unlike adrenaline ) : ( 1 ) More stable . ( 2 ) Orally ... amines . In larger doses , excessive peripheral constriction will further raise the pres- sure but will decrease blood flow ...
Page 222
... amines , etc. more severe arrhythmias with increasing dosage . The initial bradycardia and conduction depression is ... amine concentration , etc. , with the anesthetic agent contributing to conductive or contractile abnormality through ...
... amines , etc. more severe arrhythmias with increasing dosage . The initial bradycardia and conduction depression is ... amine concentration , etc. , with the anesthetic agent contributing to conductive or contractile abnormality through ...
Page 309
... amine buffers are useful in the rewarming phase to offset metabolic and / or respiratory acidosis . 8. Warming ... amines . 9. There is a marked reduction in pulmonary perfusion . Diffusion does not seem to be affected . 10. The cardiac ...
... amine buffers are useful in the rewarming phase to offset metabolic and / or respiratory acidosis . 8. Warming ... amines . 9. There is a marked reduction in pulmonary perfusion . Diffusion does not seem to be affected . 10. The cardiac ...
Contents
SICS SEDATIVES TRANQUILIZERS AND ANTICHOLINERGIC DRUGS | 3 |
PREOPERATIVE EVALUATION | 7 |
THEORIES OF NARCOSIS | 10 |
Copyright | |
51 other sections not shown
Common terms and phrases
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