Journal of critical care
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Journal of critical care · Sep 1993
Flow resistance in mechanically ventilated patients with severe neurological injury.
In 5 mechanically ventilated patients with severe neurological injury (SNI), we measured the respiratory system's flow resistance (Rrs) over a range of inspiratory flows between 0.2 to 2 L/s, at inflation volumes (delta V) ranging from 0.1 to 1 L. Under baseline ventilatory conditions (V = 1 L/s; delta V = 0.95 L), we also partitioned Rrs into airway resistance (Raw) and the additional resistance offered by the tissues of the lung and chest wall (delta Rrs). At all inflation volumes, Rrs decreased hyperbolically with increasing flow but was higher than in normal anesthetized paralyzed subjects (N). ⋯ Indeed, at V of 1 L/s, Raw (mean +/- SEM) was significantly higher in SNI than in N (4.0 +/- 0.9 v 2.4 +/- 0.2 cm H2O/L/s; P < .001), whereas delta Rrs did not differ significantly. The increased Raw in SNI was due to the fact that these patients were therapeutically hyperventilated (PaCO2 = 30.4 +/- 4.2 mm Hg) and as a result their airways were bronchoconstricted. We conclude that in the intensive care unit setting, hyperventilated patients with severe neurological injury can not be considered to be adequate controls in terms of Rrs and Raw, because hypocapnia induces an increase of Raw and consequently also in Rrs (= Raw+delta Rrs).
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Emphasis in medical training is laid on therapeutic approaches that prolong life at all costs. This training is reinforced by current medical practices in the United States and by an ever-expanding medical technology, such that it becomes difficult, if not impossible, to "let the patient go." In response, individuals promote the "right-to-die" and euthanasia, so that patients may maintain their human dignity during the dying process. A more rational and nonpolarized approach to this issue would be to strive for the preservation of human function, not physiological function alone. ⋯ On this basis, therapies can be withheld and withdrawn when they no longer reflect these goals. Caution regarding potential abuses of this approach need to be raised, however, when considering care for the very vulnerable of society. In that regard, therapeutic goals directed at maintaining human function need to be developed in parallel with global societal values regarding quality of life issues.
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Journal of critical care · Jun 1993
Allocation of critical care resources: entitlements, responsibilities, and benefits.
Determination of allocation of limited critical care resources appears to be an inevitable development. Criteria proposed to assign such limited resources among patients are not defined. It has been argued that allocation of critical care resources could be based on the principals of patient entitlements to health care, responsibilities of the physician to the critically ill patient, and beneficence. However, based on an analysis of the philosophical tenants of the Hippocratic Oath, there is little to support the concept of "sin" taxes or patient triage on the basis of judgment on the moral merit of the patient.
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Journal of critical care · Jun 1993
Stressing the critically ill patient: the cardiopulmonary and metabolic responses to an acute increase in oxygen consumption.
Critically ill patients frequently have compromised respiratory and hemodynamic function. Chest physical therapy has been previously shown to increase oxygen demand and therefore was used to examine how postoperative mechanically ventilated patients responded to an increased oxygen demand. We found that during chest physical therapy, oxygen consumption increased 52% +/- 37% (SD) over baseline values. ⋯ There was no significant change in systemic vascular resistance. The increase in oxygen demand caused by chest physical therapy triggered an integrated physiological response that resulted in increased respiratory and cardiac performance. This in some ways, such as the lack of increase in systemic vascular resistance, resembles the response to exercise.
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Journal of critical care · Jun 1993
Comparative StudyOrgan blood flow and distribution of cardiac output in dopexamine- or dobutamine-treated endotoxemic rats.
Endotoxemia causes a decrease of blood flow to most organs. If this could be prevented, chances of survival might improve. In endotoxemic rats, we studied the effect of a therapeutic infusion of dopexamine (dopaminergic, beta 2-adrenergic) on blood flow and percentage of the cardiac output distributed to heart, brain, hepatic artery, stomach, intestines, spleen, pancreas, kidneys, adrenals, diaphragm, skeletal muscle, and skin. ⋯ Dopexamine and dobutamine similarly improved cardiac output in endotoxemic rats. All organs benefitted to the same extent from the increased cardiac output. Therapeutic infusion of dopexamine during endotoxemia did not favor flow to any particular organ; redistribution of cardiac output changed little after administration of dopexamine, and its effects were not significantly different from those of dobutamine.