John R. Border

The gut origin septic states in blunt multiple trauma (ISS = 40) in the ICU.

The association between support elements (ventilator days = Vd, enteral protein = EnP, number of antibiotics per day = AB/d) and the magnitude of the septic state (SSS) and its bacteriologic manifestations (bacti. log) in 66 patients with blunt multiple trauma (mean HTI-ISS = 40) over 1649 days have been studied restrospectively. SSS is measured by summing the standard deviation units of change in the septic direction for the 16 measurements taken every day in the intensive care unit. Increasing Vd is tightly associated with an increasing SSS (r = +0.52), after day 10 an increasing bacti. log (r = +0.21 to +0.32), and an increasing AB/d (r = +0.26) (all p < 0.001, N = 1615–1626). The independent variables that best predicted Vd were delayed operations (DORS), day of rising EnP, and total positive blood cultures (TPC) (adj. R sq. = 0.84, F = 104, dF = 3/59). An increasing AB/d was associated with an increasing SSS (r = +0.38), increasing Vd (r = +0.26), and an increased bacti. log (r = +0.14 to +0.18) (all p < 0.001, N = 1615). Only an increased EnP was consistently associated with a reduced SSS (r = −0.38) and a reduction in bacti. log (r = −0.10 to −0.21) (all p < 0.001, N = 1626–1636). The independent variables Vd, EnP, AB/d, and TPC best predicted SSS for all surviving patients (adj. R sq. = 0.42, F = 268, dF = 4/1496). The patients who died of sepsis were not different in terms of bacti. log from those with equal Vd but were distinguished by zero EnP, high AB/d, and persistent ventilatory support. In conclusion, DORS is tightly associated with increased Vd, SSS, AB/d, and zero EnP. If Vd exceeds 10, there is an increasing bacti. log and evidence of infection probably from the gut. This responds only to increased EnP and not to AB/d. Death due to sepsis is not associated with increased bacti. log but with zero EnP and high AB/d and their consequences.

Septic autocannibalism. A failure of exogenous nutritional support.

Forty-six patients with surgical sepsis were studied prospectively until death or survival to evaluate the effect of exogenous metabolic support on the observed plasma substrate levels and on the differential endogenous utilization of branch chain amino acids. There were no effects of administered glucose or colloid load. The administered amino acid load had little effect on substrate levels in patients who died; but significantly effected the observed levels of glycine, isoleucinc, and methionine in patients who survived. Evidence is presented which suggests that fatal sepsis is associated with an increased release of endogenous valine and isoleucine into plasma, as well as increased plasma levels of tyrosine, proline, and methionine. These abnormalities are highly correlated with the increased levels of plasma alanine and occur at a time when the nonsurviving septic patient manifests a tendency toward reduced oxygen consumption and abnormal vascular tone relations—the septic B state. These data are consistent with the hypothesis that increased muscle protein catabolism is occurring with a differential utilization of branch chain amino acids and increased use of leucine and isoleucine and reduced use of valine. This autocannibalism of muscle mass appears to be the source of the increased plasma alanine and is little influenced by administered amino acid support in the absence of control of the septic process.

The systemic septic response: does the organism matter?

The clinical and physiological responses to septicemia were evaluated in 59 patients with 70 septic episodes. All patients were critically ill, had similar ICU support, and had positive blood cultures as well as a clinical infection when studied by dye dilution cardiac outputs.The overall ratio of gram-negative to gram-positive sepsis was 2.6:1.0. Patients with septicemia caused by gram-positive organisms, gram-negative organisms, anaerobes, and fungi had similar fever, leucocyte, and acid-base responses. There were also no statistical differences in any physiological variables between organism group or between specific organisms. After volume loading, all patients exhibited a hyperdynamic cardiovascular response with abnormal vascular tone. Some degree of myocardial depression was a common feature of all forms of bacterial or fungal septicemia. Heart rate was the cardiac variable producing the increased cardiac output in this setting.The exact pathogenesis of the septic response remains undetermined. However, the response appears to be host determined and not peculiar to a specific pathogenic microorganism.

Correlations between metabolic and cardiopulmonary measurements in patients after trauma, general surgery, and sepsis.

Simultaneous longitudinal hormonometabolic-physiologic (cardiopulmonary) profiles were measured in 14 nonseptic trauma/general surgery (T/GS) patients and in ten patients with Gram-negative abdominal surgical sepsis. The physiologic state classification system was used as the frame of reference. There were no response differences between the T and GS groups: they had A State responses. The sepsis (S) patients initially had exaggerated A State responses with significant changes in glucose, fat, amino acid, and glucagon plasma levels relative to T/GS. The S patients who survived (four) demonstrated profiles as in T/GS. The S patients who expired (six) progressively evolved an unbalanced, hyperdynamic B State response with progressive elevations of glucose, lactate, aromatic and branched-chain amino acids and glucagon, and low ketone bodies. There is definite correlation over time between metabolic and physiologic responses; the physiologic responses reflect the metabolic responses; the metabolic responses are consistent with a peripheral energy-fuel deficit.

Multiple systems organ failure.

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Proline metabolism in sepsis, cirrhosis and general surgery. The peripheral energy deficit.

Proline metabolism was prospectively evaluated in patients with surgical sepsis, cirrhosis, and elective surgical procedures. Significant correlations were found in the septic patients. Proline levels were an excellent indicator of mortality and correlated positively with lactate levels. Lactate and proline were inversely related to total peripheral resistance and oxygen consumption. In septic patients who expired: the metabolites involved in the hepatic pathways of proline degradation were elevated in proportion to proline; lactate, glutamate and proline were directly related to pyruvatc; lactate/pyruvatc ratios were constant; proline, glutamate, ammonia, ornithine, lactate and pyruvate levels were inversely proportional to oxygen consumption and total peripheral resistance. The primary defects in sepsis seem to be metabolic; there are very strong correlations in time between physiology and metabolism; the metabolic abnormality seems to be a progressive energy-fuel deficit, possibly from a progressive inhibition of substrate entry into the Krebs cycle.

Mechanism of immunosuppression following hemorrhage: Defective antigen presentation by macrophages

The mechanism by which simple hemorrhage profoundly impairs the proliferative response of T lymphocytes to mitogen and alloantigen, produces a defect in interleukin-2 generation, and increases the susceptibility to sepsis remains unknown. Since antigen presentation (AP) by the macrophage (M phi) plays a critical role in the antigen-specific activation of T-helper cells and lymphokine production, we investigated whether the function of the M phi as an AP cell is altered following hemorrhage. C3H/HEJ mice were bled to a mean BP of 35 mm Hg, maintained at that level for 1 hr, and then resuscitated. There was no mortality with this model. Control mice were not bled but otherwise treated identically. Immediately after resuscitation the mice were sacrificed and peritoneal M phi (PM phi) as well as splenic adherent cells (SAC) were harvested. AP function was tested by coculturing different numbers of PM phi and SAC with D10.G4.1 cells (2 x 10(4) cells/well) in the presence of conalbumin (300 micrograms/ml). This T-helper cell clone proliferates upon recognition of conalbumin in the context of Iak (a M phi surface membrane glycoprotein), thus directly reflecting M phi AP capability. After 72 hr of incubation, the cultures were pulsed with [3H]thymidine and harvested. D10.G4.1 proliferations induced via AP by PM phi and SAC from hemorrhaged-resuscitated mice were 29 and 24% of control, respectively (P less than 0.05). Thus, we conclude that AP by M phi following hemorrhage is defective despite adequate resuscitation, a mechanism which could explain the state of immunosuppression and enhanced susceptibility to sepsis.

Feeding studies in weanling rats with dorsomedial hypothalamic lesions: Maintenance of competence to compensate for additional calories ☆

Weanling rats received bilateral electrolytic lesions in the dorsomedial hypothalamus primarily destroying the dorsomedial hypothalamic nuclei (DMN). Sham-operated rats served as controls. After a 14 day postoperative period during which food intake (lab chow) and body weight were recorded, each of the above groups were subdivided into 2 groups. One DMN group and one sham-operated control group were continued on lab chow alone throughout the remainder of the study. The other DMN group and the second control group were given additional calories in the form of a liquid diet by stomach tube during 2 separate periods of 10 and 14 days, respectivly, to increase their caloric intake beyond that taken in spontaneously. Both tube-fed groups reduced their ad lib caloric intake from chow considerably and to the same extent. Body weight gains were similar in tube-fed versus non-tube-fed rats, whether with or without DMN lesions. After the second, 14-day-long tube feeding period, however, DMN rats regulated their body weight somewhat less precisely than the controls. This may be related to their reduced food intake during that time period. The data indicate that weanling rats with DMN lesions, despite their basic hypophagia, do not show a deficit in caloric metering and gross body weight regulation.

A method for determining amino acid concentrations and specific activities of amino acids and some other compounds in biological fluids

Abstract A method is described for obtaining plasma ultrafiltrates from which the concentrations of all amino acids, including tryptophan and ammonia, are obtained. A split-stream methodology is described for obtaining, in addition to the concentrations, the radioactivities of amino acids, glucose, and plasma water.

Plasma concentrations and tissue uptake of free amino acids in dogs in sepsis and starvation: effects of glucose infusion--some effects of low alimentation.

The plasma concentrations of substrates, together with transhepatic and transgut balances, have been studied in six control and eight septic awake fasted dogs. Four severely ill septic dogs (typically fluid in chest and/or abdomen, extensive peritonitis, respiratory difficulties) had high concentrations of threonine, glycine, tyrosine, lysine, histidine, tryptophan, and triglycerides (p less than or equal to 0.05). The other septic dogs (less severely ill) showed fewer and less pronounced alterations in the plasma substrates (aspartate and tryptophan were elevated, p less than or equal to 0.05). The infusion of glucose increased the concentration of glucose, lactate, and pyruvate and depressed the concentrations of most amino acids in both normal and septic dogs. Threonine, asparagine, glutamine, leucine, isoleucine, alpha-aminobutyrate, and tyrosine were significantly depressed in the severely ill septic dogs (p less than or equal to 0.05). In the normal dogs most amino acids were removed by the liver, with alanine accounting for approximately 40% of the total. Glutamine removal was negligible. In the septic dogs hepatic removal of amino acids was variable; livers of two severely ill septic dogs did not remove amino acids. In the control dogs glucose infusion (0.015--0.017 g/kg/min) tended to lower hepatic removal of amino acids. Hepatic dye removal in the septic dogs was always very poor. In the gut glutamine was removed and alanine, glutamate, glycine, and ammonia produced, but the overall sum of amino acid uptake was negligible in both the control and septic dogs. The ratio of tryptophan to the sum of valine, isoleucine, leucine, tyrosine, and phenylalanine concentrations was greatly elevated in all septic dogs in which it was measured. The free concentrations of amino acids in the liver, heart, and muscle tissues were grossly elevated in the low intravenous alimented septic state relative to the fasted normal state, whereas the tissue concentrative ability as measured by nonmetabolizable amino acids, alpha-aminoisobutyrate and cycloleucine, was not similarly increased. Sepsis clearly alters plasma and tissue concentrations, and in some instances hepatic uptake of amino acids.