The Journal of surgical research
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The measurement of lung water by the thermal-dye double indicator dilution technique was evaluated in dogs with normal and edematous lungs during a state of reduced cardiac output. The technique used cold indocyanine green dye to measure extravascular thermal volume (EVTV) as an estimate of extravascular lung water (EVLW). Anesthesia was maintained with pentobarbital. ⋯ Predetermination measurements of EVTV correlated closely with EVLW as determined by gravimetric analysis (EVTV = 1.1 EVLW + 4.7 ml/kg, n = 21, r = 0.93, P less than 0.001). Thermodilution cardiac output measured in the abdominal aorta (used in the calculation of the EVTV) correlated well with simultaneous measurements of cardiac output by both indocyanine green dye dilution and pulmonary artery thermodilution (r = 0.86 and r = 0.88, respectively, pretermination). The thermal-dye technique appears to provide an accurate reflection of lung water in normal and edematous lungs, even in the presence of a low cardiac output.
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Comparative Study
Comparison of blood and peritoneal neutrophil activity in rabbits with and without peritonitis.
The neutrophil (polymorphonuclear cell, or PMN) function is an essential component of the host defense against infection. However, infection itself may alter PMN activity. To investigate both the effects of infection on PMN activity and PMN activity on survival, we evaluated control and infected blood and peritoneal PMN phagocytosis, chemotaxis, and superoxide anion production in rabbits with and without peritonitis. ⋯ Of the six that lived, two developed intraabdominal abscesses. Blood and peritoneal PMN activity was similar in all rabbits despite their outcome. We conclude that (1) blood and peritoneal PMNs have different basal activities and responses to infection; (2) the milieu of the peritoneal cavity appears to alter the PMNs present; and (3) PMN activity did not predict morbidity or mortality.
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A variety of methods have been employed for the induction of hypothermia; however, there are still some inherent problems that remain with current techniques. Liquid ventilation, a process used in several other environmental and clinical research areas, may be a feasible method since it takes advantage of the effectiveness of the pulmonary architecture as a heat exchanger. Hypothermia induced by liquid ventilation was studied in 8 newborn lambs, mean age = 10 +/- 8 SEM days. ⋯ Temperatures decreased producing rectal cooling rates of 8.4 and 4.8 degrees C/hr, respectively. Blood gas analysis showed adequate physiological gas exchange for all lambs during the liquid ventilation period. Based on the data, the process of liquid ventilation offers a unique potential both in experimental and clinical areas as a new approach to the technique of induced hypothermia.
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Small volumes (4 ml/kg) of 2400 mOsm NaCl restore cardiac output and mean arterial pressure to 80% of baseline after hemorrhage (65% of blood volume) in unanesthetized sheep. An equal volume of normal saline is less effective. To identify an optimal hypertonic solution, we screened six 2400 mOsm solutions in 18 randomized experiments in 8 sheep: NaCl, NaHCO3, NaCl/sodium acetate, NaCl/mannitol, NaCl/6% Dextran 70, and glucose. ⋯ Its beneficial effects are caused in part by a sustained reestablishment of plasma volume. More studies are needed to document the safety of dextran in the clinical setting of hemorrhagic shock. Small volumes of hypertonic solutions may be valuable in the initial fluid resuscitation of patients in hemorrhagic shock.
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Arteriolar dilatation, loss of venous tone, and uptake of shed blood characterize decompensated hemorrhagic shock. The loss of compensatory constrictor responses to hemorrhage mainly occurs in the skeletal muscle microcirculation. ⋯ Our data indicate that tissue acidosis attenuates constrictor responses of larger arterioles (100-170 micron) and venules to hemorrhagic hypotension but has no effect on the dilator responses of small arterioles (10-30 micron). We conclude that tissue acidosis contributes significantly to loss of arteriolar resistance and to decreased venous return in the decompensatory phase of hemorrhagic shock.