Cardiopulmonary Physical Therapy, Volume 1Scot Irwin, Jan Stephen Tecklin Mosby, 1985 - 473 pagine |
Dall'interno del libro
Risultati 1-3 di 62
Pagina 401
... diaphragm because ventilation with the diaphragm uses less metabolic energy than ventilation with the neck mus- cles.1 Muscle evaluation The purpose of evaluating the muscles of respiration is to identify specific areas of muscle ...
... diaphragm because ventilation with the diaphragm uses less metabolic energy than ventilation with the neck mus- cles.1 Muscle evaluation The purpose of evaluating the muscles of respiration is to identify specific areas of muscle ...
Pagina 403
... diaphragm is recorded on film . During quiet breathing the normal excursion should be at least one intercostal space ( 1.5 cm ) . During deep inspiration the diaphragm will de- scend at least three to four intercostal spaces ( 7 to 13 ...
... diaphragm is recorded on film . During quiet breathing the normal excursion should be at least one intercostal space ( 1.5 cm ) . During deep inspiration the diaphragm will de- scend at least three to four intercostal spaces ( 7 to 13 ...
Pagina 418
... diaphragm . The strength of the diaphragm was consid- ered " poor " as demonstrated by an incomplete epigastric rise . The strength of the deltoids bilaterally was consistent with the finding of a weak diaphragm . Because of recurrent ...
... diaphragm . The strength of the diaphragm was consid- ered " poor " as demonstrated by an incomplete epigastric rise . The strength of the deltoids bilaterally was consistent with the finding of a weak diaphragm . Because of recurrent ...
Sommario
an overview of the basic mechanism | 6 |
Physical therapy for the child with respiratory 21 Respiratory rehabilitation of the patient with a spinal | 18 |
Hemodynamics | 19 |
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abnormal activity acute addition airway alveolar alveoli angina arrhythmias assessment associated blood pressure breathing capacity cardiac output cardiac rehabilitation cause cells changes Chapter chest chronic Circulation clinical complete complications continued contraction coronary artery disease decrease depression determined develop discussed disease drainage drugs effects evaluation exercise testing factors failure flow force function further heart rate hypertension important improve increased indicate initial inspiration intensity involved less limited load lower lung major maximal measured mechanical minutes monitored muscle myocardial infarction normal obstructive occur oxygen pain patient peak performed peripheral phase physical therapy position prevent produce progression pulmonary reduced resistance respiratory response Resting rise risk secretions segment severe significant signs sounds surgery symptoms systolic Table therapist thoracotomy tients tion tissue tolerance treatment usually vascular venous ventilation ventricular volume wall