Immunologic effects of acute hyperglycemia in nondiabetic rats

BACKGROUND

This study was designed to determine the consequences of acute hyperglycemia on the immune function of peripheral neutrophils, peritoneal macrophages, and alveolar macrophages in nondiabetic rats.

METHODS

The animals were randomly divided into nonsurgical (normal) and surgical groups. The postoperative rats were further divided into normoglycemic (control) and hyperglycemic (glucose) groups. The hyperglycemic condition was maintained by constant infusion of glucose to raise plasma glucose concentration to 300 mg/dL for 3 hours. The immune cells were then harvested to determine their phagocytic and oxidative capacities via flow cytometry.

RESULTS

The results showed that hyperglycemia significantly decreased the respiratory burst of alveolar macrophages (p < .05). In contrast, hyperglycemia enhanced phagocytosis in these cells (p < .002). There was a significant activation of the respiratory burst in peripheral neutrophils by surgery (p < .002), but no effect of hyperglycemia.

CONCLUSIONS

We conclude that hyperglycemia itself can influence immune function in some phagocytic cells, which may be an important factor in postsurgical infection.

A rat fatty liver transplant model

A rat model of fatty liver transplantation has been developed to study primary nonfunction in fatty liver grafts. ACI rats were fed with a diet deficient in choline and methionine for 7, 14, 28, and 42 days. Fat content in the pretransplant livers was examined by gas chromatography and histology. The main constituent of the fatty droplets was determined to be triglyceride. The triglyceride concentration reached a maximum by day 14 and remained constant for an additional 28 days. Histology revealed an absence of necrosis in 14- and 28-day fatty livers but scattered hepatocytic necrosis and inflammation in 42-day fatty livers. After being given cold (UW stored, 4 degrees C) or warm (37 degrees C) ischemia, the fatty liver was orthotopically transplanted into normal ACI rats. The one-week survival of fatty liver grafts after 6, 12, 18, and 24 hr cold preservation was 5/5, 5/6, 3/8, 0/6 for 14-day fatty liver and 5/5, 4/6, 0/8, 0/6 for 42-day fatty livers. The survival of normal liver grafts was 5/5, 6/6, 5/9, 2/8, respectively. Increased survival rate was correlated with the absence of hepatocytic necrosis. The survival after 15 and 30 min warm ischemia prior to transplant was 5/5, 2/6 for normal liver grafts and 4/7, 0/6 for 28-day fatty liver graft, respectively. Fatty livers were less resistant to damage induced by cold or warm ischemia.

Effect of short-term enteral feeding with eicosapentaenoic and gamma-linolenic acids on alveolar macrophage eicosanoid synthesis and bactericidal function in rats

OBJECTIVES

Because vasoactive eicosanoids derived from arachidonic acid present in immune cell phospholipids promote lung inflammation in critically ill patients, novel experimental diets containing eicosapentaenoic acid from fish oil and gamma-linolenic acid from borage oil have been designed to limit arachidonic acid metabolism. However, excess dietary eicosapentaenoic acid impairs superoxide formation and bacterial killing by immune cells. The present study determined whether short-term enteral feeding with diets enriched with either eicosapentaenoic acid alone or in combination with gamma-linolenic acid would modulate alveolar macrophage eicosanoid synthesis without compromising bactericidal function.

DESIGN

Prospective, randomized, controlled, blinded study.

SETTING

University medical center.

SUBJECTS

Adult male Sprague-Dawley rats.

INTERVENTIONS

Rats underwent surgical placement of a gastroduodenal feeding catheter and were randomly assigned to receive one of three high-fat (55.2% of total calories), low-carbohydrate diets containing isocaloric amounts of lipids for 4 days. The control diet was enriched with linoleic acid, whereas the two test diets were low in linoleic acid and enriched with either 5 mole % eicosapentaenoic acid alone or in combination with 5 mole % gamma-linolenic acid. Alveolar macrophages were then procured to assess phospholipid fatty acid composition, eicosanoid synthesis after stimulation with endotoxin, superoxide formation and phagocytosis by flow cytometry, and killing of Staphylococcus aureus

MEASUREMENTS AND MAIN RESULTS

Alveolar macrophage levels of arachidonic acid were significantly (p < .01) lower and levels of eicosapentaenoic and dihomo-gamma-linolenic acids were higher after feeding the eicosapentaenoic and gamma-linolenic acid diet vs. the linoleic acid diet. Ratios of thromboxane B2,/B3, leukotriene B4/B5, and prostaglandin E2/E1 were reduced in the macrophages from rats given either the eicosapentaenoic acid or eicosapentaenoic acid with gamma-linolenic acid diet compared with ratios from rats given the linoleic acid diet. Macrophages from rats given the eicosapentaenoic with gamma-linolenic acid diet released 35% or 24% more prostaglandin E1 than macrophages from rats given either the linoleic acid or the eicosapentaenoic acid diet, respectively. Macrophage superoxide generation, phagocytosis of opsonized zymosan, and killing of S. aureus were similar irrespective of dietary treatment.

CONCLUSION

Short-term enteral feeding with an eicosapentaenoic acid-enriched or eicosapentaenoic with gamma-linolenic acid-enriched diet rapidly modulated the fatty acid composition of alveolar macrophage phospholipids, promoted a shift toward formation of less inflammatory eicosanoids by stimulated macrophages, but did not impair alveolar macrophage bactericidal function relative to responses observed after feeding a linoleic acid diet.

Comparison of different techniques for estimating rates of protein synthesis in vivo in healthy and bacteraemic rats

Previous studies have reported that use of a flooding dose of radiolabelled amino acid is a more precise technique than the constant infusion of tracer quantities for determining rates of protein synthesis in rapidly turning-over tissues in the rat. However, there has been little direct investigation comparing different methods under comparable conditions. Initially, 12 healthy male Sprague-Dawley rats, weighing approx. 100 g, were randomized to receive either a bolus intravenous injection of 100 mumol of L-leucine (containing 30 microCi of [1-14C]leucine)/100 g body wt., or a continuous 2 h tracer infusion of [14C]leucine. In the second phase of the experiment, 12 additional rats were intravenously injected with 1 X 10(8) colony-forming units of Pseudomonas aeruginosa and 16 h later randomized to receive one of two infusions described above. Total protein synthesis as well as fractional synthesis rates were determined in liver, rectus muscle and whole body. Synthesis rates measured in liver, muscle and whole body were significantly higher in bacteraemic rats than in healthy rats. The flooding-dose methodology gave significantly higher estimates of protein synthesis in the liver, skeletal muscle and whole body than did the continuous-infusion method using direct measurement of the acid-soluble fraction from the respective tissue. Indirect estimates of whole-body protein synthesis based on plasma enrichments and stochastic modelling gave the lowest values.

Rapid modulation of lung and liver macrophage phospholipid fatty acids in endotoxemic rats by continuous enteral feeding with n-3 and gamma-linolenic fatty acids

Dienoic eicosanoids derived from phospholipid arachidonic acid (AA) in lung and liver macrophages promote leukosequestration, thrombosis, and tissue injury. Current enteral diets (diet A) are enriched with linoleic acid (LA), a precursor of AA. Novel diets low in LA and containing eicosapentaenoic acid (EPA) and gamma-linolenic acid (GLA) foster formation of less inflammatory eicosanoids. The study objective was to assess the rapidity and extent of LA and AA displacement in vivo from alveolar macrophage (AM phi), lung, and liver Kupffer and endothelial (KE) cell phospholipids in rats fed enterally with diets enriched with 5.3% (by wt) EPA and either 1.2% or 4.6% GLA (diets B and C, respectively). After surgical placement of catheters, the rats were fed enterally and co-infused intravenously with either endotoxin or vehicle continuously for 3 or 6 d. Rats given either diet B or C had significantly lower (P < 0.01) relative percentages of AA and LA within the AM phi, lung, and KE cell phospholipids, and concomitantly higher percentages of EPA compared with rats infused with diet A after 3 d of enteral feeding irrespective of endotoxin co-infusion. Incorporation of dihomo-gamma-linolenic acid (DHGLA), the metabolite of GLA, into lung and KE phospholipids was significant in rats given diet C. Most of the changes in fatty acid composition occurred by day 3. The polyunsaturated fatty acid composition of AM phi, lung, and KE cell phospholipids can be rapidly modified by continuous short-term enteral feeding with EPA- and GLA-enriched diets irrespective of concurrent endotoxemia.

Decreased loss of liver adenosine triphosphate during hypothermic preservation in rats pretreated with glucose: implications for organ donor management

Recent studies of human donor livers indicate an association between ex vivo hepatocellular adenosine triphosphate and posttransplant graft function. To test the hypothesis that prior glucose loading of donor liver would optimize its adenosine triphosphate production and adenylate energy charge during ex vivo organ preservation, adult male rats were randomized to receive either intravenous dextrose or saline for 44 h. After this infusion, a liver lobe was exposed and freeze-clamped (time 0). The remaining liver was quickly flushed, excised, and stored in Collins' II solution at 2 degrees C for 8 h. Additional lobes were freeze-clamped at 1, 4, and 8 h. Liver adenosine triphosphate, total nucleoside triphosphates, and energy charge losses were significantly reduced in the dextrose-treated rats in comparison with saline-treated rats during the first 4 h of preservation. Although the livers from rats receiving intravenous dextrose were able to generate lactate, their glycogen stores were not utilized appreciably, suggesting that exogenous glucose served as a substrate for anaerobic glycolysis. Unesterified choline levels of the fasted rat livers were significantly higher than those from the rats receiving intravenous dextrose by the first hour, indicative of increased membrane breakdown. These results indicate that prior infusion of glucose enhances the capacity of the ex vivo liver, presumably through the induction and stabilization of key glycolytic enzymes, to anaerobically generate adenosine triphosphate. Administration of glucose to liver donors before organ procurement may improve post-transplant graft function by reducing the loss of hepatocellular energy, retarding membrane damage, and fostering glycogen storage for use in the early postoperative period.

Fatty acid composition of lung, macrophage and surfactant phospholipids after short-term enteral feeding with n-3 lipids

Utilization of enteral feeding modalities may prove clinically relevant for rapid modulation of lung phospholipid polyunsaturated fatty acids (PUFA) that serve as substrates for the formation of vasoactive dienoic eicosanoids. We compared the effects of short-term enteral feeding with formulations enriched with either fish (n-3) or corn (n-6) oil PUFA on the fatty acid composition of rat lung, alveolar macrophage and surfactant phospholipids. The diets were infused continuously for 72 h through a surgically placed gastroduodenal feeding catheter by a syringe pump. The n-3 PUFA derived from the fish oil enriched diet were readily incorporated into the phospholipid membranes of the alveolar macrophages, lung tissue and pulmonary surfactant. The relative percentages of the n-3 PUFA were significantly higher and individual and total n-6 PUFA significantly lower in the macrophage, lung and surfactant phospholipids from the n-3-supplemented rats in comparison with those present in the rats infused enterally with the n-6 diet or untreated, chow-fed rats (baseline). In contrast, there was a significant increase in linoleic acid (18:2n-6) without modification of arachidonic acid (20:4n-6) in the alveolar macrophages, lung tissue and surfactant from rats enterally receiving the n-6 diet relative to levels measured in the rats at baseline. The results suggest that short-term continuous delivery of n-3-enriched enteral preparations can foster rapid modification of membrane phospholipid PUFA composition of lung tissue, alveolar macrophages and lung surfactant.(ABSTRACT TRUNCATED AT 250 WORDS)

Cyclic vs continuous enteral feeding with omega-3 and gamma-linolenic fatty acids: effects on modulation of phospholipid fatty acids in rat lung and liver immune cells

Arachidonic acid (AA) present in lung and liver immune cell phospholipids is the precursor of eicosanoids that promote neutrophil margination, leading to tissue injury and inflammation. Administration of novel enteral formulations low in linoleic acid (LA) and containing eicosapentaenoic acid (EPA) from fish oil and gamma-linolenic acid (GLA) from borage oil displaces AA and promotes cell formation of eicosanoids with reduced inflammatory potential. The present study was undertaken to determine whether or not short-term provision of enteral diets containing GLA, EPA, or both in a cyclic fashion modulated the fatty acid composition of rat alveolar macrophage (AM) and liver Kupffer and endothelial (K&E) cell phospholipids in vivo to the extent achieved during continuous feeding.

METHODS

Rats were isocalorically fed through a gastrostomy catheter for 3 or 6 days with high-fat, low-carbohydrate diets that were enriched with either LA (diet A), EPA (diet B), or EPA + GLA (diet C). The rats were randomized by infusion modality, ie, continuous vs cyclic (14 hours feeding with 10 hours fasting daily) feeding. AM and K&E were isolated and phospholipid fatty acid profiles were determined by gas chromatography.

RESULTS

The dietary effects on AM and K&E cell phospholipid fatty acids for a given feeding period were not significantly influenced by the infusion modality. AM and K&E cells from rats receiving either diet B or diet C for 3 days had significantly lower AA and LA and higher EPA and dihomo-GLA (DHGLA), respectively, than rats given diet A regardless of the infusion modality. The mole % of EPA and DHGLA in K&E cells were higher after 6 vs 3 days of cyclic feeding with diet C. Using the eicosanoid precursor ratio (EPA + DHGLA/AA), the potential for generation of AA-derived eicosanoids was lower in rats given die B or C vs diet A regardless of infusion modality.

DISCUSSION

Given the rapid changes in lung and liver immune cell phospholipid fatty acids, short-term provision of EPA and GLA-enriched diets cyclically or continuously may prove clinically relevant for modulating the fatty acid composition and potential eicosanoid formation by these cells.

Glycolytic support of adenine nucleotides in rat liver flush-preserved with UW or Collins' II. Importance of donor nutritional status

Correlation of hepatocellular adenine nucleotides in donor liver with clinical posttransplant outcome has recently been reported. Our earlier work with rats has shown that pretreatment of donors with glucose effectively retards hepatocellular ATP losses in livers preserved in Collins' II solution through potentiation of their glycolytic capacity. The primary substrate--i.e., endogenous or exogenous glucose--was not identified. The current study was undertaken to compare the relative efficacy of the University of Wisconsin (UW) solution, which is devoid of glucose, with Collins' II in the support of adenine nucleotides through anaerobic glycolysis in flush-preserved rat liver. Adult rats were either pretreated with 25% dextrose or fasted prior to liver harvesting and preservation in either UW or Collins' II. Adenine nucleotide degradation and lactate production during preservation were assessed. For a given dietary pretreatment, losses of ATP and adenylate energy charge and lactate production were similar for UW- and Collins' II-preserved livers. Donor pretreatment with dextrose resulted in significantly higher ex vivo liver ATP, energy charge, and lactate regardless of the preservation solution. Salvageable nucleotide degradates were increased significantly in UW livers, presumably through the effects of allopurinol. These results demonstrate that effective support of adenine nucleotides by glycolysis in flush-preserved liver is independent of the presence of exogenous glucose but dependent upon the nutritional status of the donor prior to liver procurement.

Effectiveness of orthotopic liver transplantation on the restoration of cholesterol metabolism in patients with end-stage liver disease

The effects of end-stage liver disease and orthotopic liver transplantation on components that modulate cholesterol esterification in plasma were assessed. In comparison with healthy controls, patients with end-stage liver disease had significantly decreased concentrations of lecithin-cholesterol acyltransferase mass, apolipoprotein A-1, total phospholipids, and both total and esterified cholesterol. Elevated phosphatidylcholine and reduced lysophosphatidylcholine fractions indicated impairment of cholesterol esterification by lecithin-cholesterol acyltransferase. Constituent fatty acids of the patients' phospholipids and cholesterol esters manifested increased saturation and a concomitant reduction of polyunsaturated fatty acids, indicative of impaired hepatic elongation and desaturation of essential fatty acids. By the third month after hepatic replacement, the plasma concentrations of total cholesterol, phospholipids, lecithin-cholesterol acyltransferase, and apolipoprotein A-1 were comparable to those of the healthy subjects. Despite the improvement in cholesterol esterification and the rapid normalization of the enzyme and cofactor involved in this process, the percentage of phosphatidylcholine remained significantly higher and the percentages of lysophosphatidylcholine and esterified cholesterol remained significantly lower than in the healthy subjects at 6 mo. Phospholipid and cholesterol ester fatty acid patterns attained normalcy by the sixth month after transplant. We conclude that hepatic transplantation effectively restores cholesterol and essential fatty acid metabolism in patients with end-stage liver disease.

Rapid incorporation of fish or olive oil fatty acids into rat hepatic sinusoidal cell phospholipids after continuous enteral feeding during endotoxemia

Therapeutic modalities that downregulate macrophage and endothelial production of eicosanoid mediators by displacing membrane arachidonic acid (20:4 omega 6) may benefit patients at increased risk of septic complications. The objective of this study in rats was to assess the incorporation of fish or olive oil fatty acids into hepatic Kupffer and endothelial (K&E) cell phospholipids after 4 d of continuous enteral feeding during endotoxemia. Either endotoxin (ETX) (0.5-1 mg-1.day-1) or vehicle was infused intravenously during the last 72 h. Dietary fish and olive oil fatty acids were rapidly incorporated into both K&E and plasma phospholipids irrespective of ETX cotreatment. Rats infused with the fish oil-enriched diet had a significantly lower relative percent of both K&E linoleic acid (18:2 omega 6) and 20:4 omega 6, whereas rats infused with the olive oil-enriched diet only had a lower relative percent of 18:2 omega 6 compared with control rats receiving corn oil. Provision of specific dietary lipids by continuous enteral infusion may prove efficacious for the rapid modulation of hepatic sinusoidal cell membrane fatty acids under either normal or endotoxemic conditions.

Cutaneous application of safflower oil in preventing essential fatty acid deficiency in patients on home parenteral nutrition

Essential fatty acid deficiency (EFAD) is observed in patients with massive bowel resection who are placed on home parenteral nutrition (HPN). We investigated the use of cutaneously applied safflower oil to prevent EFAD. Five subjects on HPN supplemented with intravenous (IV) fat emulsions underwent a three-phase study: 1) no IV fat emulsions for 4 wk; 2) cutaneous safflower oil for 4-6 wk; 3) oral safflower oil for 4 wk. Fatty acid profiles (FAP) of plasma were obtained during each phase. Significant decreases in linoleic and arachidonic acid occurred by the end of phase 1 and the triene:tetraene ratio rose from a baseline value of 0.1 to 0.5. This ratio returned to 0.2 by the end of phase 2 and significant increases in linoleic and arachidonic acid occurred. Only one of five subjects completed the oral phase (3). Cutaneous safflower oil may improve plasma FAP but adequacy of tissue stores remains unanswered. Liver function tests need to be monitored if this treatment modality is utilized.

Metabolism of dietary alpha-linolenic acid vs. eicosapentaenoic acid in rat immune cell phospholipids during endotoxemia

Short-term (i.e., 3 d) continuous enteral feeding of diets containing eicosapentaenoic (EPA) and gamma-linolenic (GLA) polyunsaturated fatty acids (PUFA) to endotoxemic rats reduces the levels of arachidonic acid (AA) and linoleic acid (LA) in alveolar macrophage (AM) and liver Kupffer and endothelial (K&E) cell phospholipids with attendant decreases in prostaglandin formation by these cells in vitro. Diets that contain alpha-linolenic acid (LNA) as a substrate for endogenous formation of EPA may not be as effective in facilitating these immune cell modifications given the limited activity of delta6 desaturase. In the present study we compared the effectiveness of an LNA-enriched diet vs. an (EPA + GLA)-enriched diet to displace phospholipid AA from AM and liver K&E cells in vivo in endotoxemic rats fed enterally for 3 or 6 d. We determined the fatty acid composition of AM and K&E cell phospholipids by gas chromatography. We found that AM and K&E cells from rats that had received the EPA + GLA diet for 3 d had significantly (P < 0.001) higher mole percentage of EPA and the GLA metabolite, dihomoGLA, than corresponding cells from rats given the LNA diet or a control diet enriched with LA. Rats given the LNA diet had relatively low levels of stearidonic acid, EPA and other n-3 PUFA, while rats given the LA diet had low levels of GLA and dihomoGLA. We conclude that diets enriched with LNA or LA may not be as effective as those enriched with EPA + GLA for purposes of fostering incorporation of EPA or dihomoGLA into and displacement of AA from macrophage phospholipids under pathophysiologic conditions commonly found in acutely septic patients.

Comparison of growth and fatty acid metabolism in rats fed diets containing equal levels of gamma-linolenic acid from high gamma-linolenic acid canola oil or borage oil

We have utilized transgenic technology to develop a new source of gamma-linolenic acid (GLA) using the canola plant as a host. The aim of the present study was to compare the growth and fatty acid metabolism in rats fed equal amounts of GLA obtained from the transgenic canola plant relative to GLA from the borage plant. Young male Sprague-Dawley rats (n = 10/group) were randomized and fed a purified AIN93G diet (10% lipid by weight) containing either a mixture of high GLA canola oil (HGCO) and corn oil or a control diet containing borage oil (BO) for 6 wk. GLA accounted for 23%, of the triglyceride fatty acids in both diets. Growth and diet consumption were monitored every 2-3 d throughout the study. At study termination, the fatty acid composition of the liver and plasma phospholipids was analyzed by gas chromatography. The growth and diet consumption of the HGCO group were similar to the BO group. There were no adverse effects of either diet on the general health or appearance of the rats, or on the morphology of the major organs. There was no significant difference between the diet groups for total percentage of n-6 polyunsaturated fatty acids present in either the total or individual phospholipid fractions of liver or plasma. The relative percentage of GLA and its main metabolite, arachidonic acid, in each phospholipid fraction of liver or plasma were also similar between groups. The percentage of 18:2n-6 in liver phosphatidylethanolamine and phosphatidylinositol/serine was higher (P < 0.05) and 22:5n-6 was lower in the HGCO group than the BO group. This finding could be attributed to the higher 18:3n-3 content in the HGCO diet than the BO diet. Results from this long-term feeding study of rats show for the first time that a diet containing transgenically modified canola oil was well-tolerated, and had similar biological effects, i.e., growth characteristics and hepatic metabolism of n-6 fatty acids, as a diet containing borage oil.

Essential fatty acid deficiencies in patients with chronic liver disease are not reversed by short-term intravenous lipid supplementation

The purpose of this study was to determine the plasma triglyceride and phospholipid fatty acid (FA) composition of severely malnourished patients with chronic liver disease and to examine the effects of parenteral nutrition with a total nutrient admixture (TNA) on these profiles. Nine consecutive patients with end-stage chronic liver disease were compared with 35 patients admitted for elective surgery of upper gastrointestinal malignancy. Baseline laboratory values and the FA profiles of the plasma triglyceride and phospholipids were analyzed. FA profiles were also performed after infusion of a TNA including 33+/-7 g of lipid/24 hr for 7.9+/-4 days in the patients with chronic liver disease. Compared with control patients, the plasma phospholipid fatty acid analysis results (relative mole percentage) of patients with chronic liver disease were significantly lower in the two essential FA, linoleic acid (15.4+/-3.4% vs. 20.8+/-2.9%, P<0.001) and alpha-linolenic acid (0.02+/-0.05% vs. 0.08+/-0.10%, P<0.001). Similar changes were demonstrated in the FA composition of the triglyceride fraction. Short-term infusion of intravenous lipid resulted in a significant increase in linoleic acid in the triglyceride fraction (9.9+/-2.8% before supplementation vs. 20.7+/-9.4% after supplementation, P<0.01) and a decrease in oleic acid (38.7+/-5.2% before supplementation vs. 29.3+/-7.5 after supplementation, P<0.01). In conclusion, acute and chronic deficiencies of essential FA occurs in patients with chronic liver disease. The clinical significance of these deficiencies is unknown, but they potentially may impact on eicosanoid metabolism. Short-term supplementation with modest amounts of intravenous lipid has only a minimal effect on normalization of longer-chain fatty acids.

Alterations in tyrosine and protein kinetics produced by injury and branched chain amino acid administration in rats

1. To determine whether the alterations in amino acid metabolism after injury were a result of changes in protein synthesis, whole body tyrosine and individual tissue protein kinetics were estimated 24 h after three different forms of stress in rats. 2. In addition, injured rats were either starved or infused with 180 mg of nitrogen/day (as branched chain amino acids or L-alanine) to ascertain whether the mechanism and degree of nitrogen sparing were unique to branched chain amino acid administration or whether they could be attributed to the infusion of alpha-amino nitrogen. 3. In the more catabolic types of injury, increased nitrogen loss during starvation appeared to be due to both an increased plasma amino acid appearance and a greater percentage being oxidized. Rates of tyrosine incorporation into whole body protein were also enhanced and could be explained in part by increases in the fractional synthesis rate of hepatic non-secretory protein. 4. Both branched chain amino acid and L-alanine administration reduced endogenous tyrosine oxidation and improved nitrogen balance. However, branched chain amino acid administration significantly increased amino acid incorporation into whole body protein and fractional synthetic rates of skeletal muscle, kidney and hepatic non-secretory protein. 5. It is concluded that the catabolic response to severe injury is consistent with increased rates of plasma amino acid appearance and branched chain amino acid administration spares body protein by improving amino acid utilization for whole body protein synthesis.

Hepatic utilization of exogenous nucleotide precursors for restoration of ATP after cold ischemia in rats

The study objective was to assess hepatic utilization of exogenous adenosine or adenine to enhance ATP recovery in rat liver after cold ischemia. ATP was measured noninvasively by 31P nuclear magnetic resonance (NMR) in perfused livers before and after 18 h of cold ischemia. The hepatocellular concentration of ATP during the initial postischemic reperfusion without adenosine or adenine coinfusion was 60% of that in fresh liver. The ATP increased significantly (P < 0.001) to 139% and 82% of baseline in postischemic livers coinfused for 90 min with adenosine or adenine (final concentration, 1 mmol/L), respectively. Less than 0.5% of the excess adenosine was catabolized to uric acid. In conclusion, adenosine and, to a lesser extent, adenine are salvaged by liver after extended cold ischemia to enhance ATP restoration. Provision of these ATP precursors, as components of an enteral formulation may facilitate the repletion of liver ATP and foster early resumption of liver function after an ischemic insult.

Enhanced restoration of adenine nucleotides in rat liver following extended preservation in UW solution by provision of adenosine during reperfusion

The extensive reduction of adenine nucleotides during preservation coupled with the loss of salvageable precursors during initial reflow may exacerbate recovery of adenine nucleotides in allograft liver following transplantation. The objective of this study was to assess whether provision of adenosine during reperfusion of rat liver stored for 20 hr in University of Wisconsin solution could enhance adenine nucleotide restoration. ATP and total adenine nucleotide content of livers perfused with an oxygenated Krebs/fluorocarbon solution containing 1 mM adenosine were restored to levels in vivo within 30 min of perfusion. Adenine nucleotide recovery in livers perfused without adenosine was only 65% of normal. Acute nutritional deprivation of the donor rats had no effect on adenine nucleotide restoration. These results indicate that a conditional deficiency of intracellular nucleotide precursors exists during initial reperfusion of liver subjected to extended storage in UW solution. Provision of supplemental adenosine to the allograft liver during initial reflow appears warranted to promote full and rapid restoration of adenine nucleotide content following extended preservation ex vivo.

Consequences of modified fasting in obese pediatric and adolescent patients: effect of a carbohydrate-free diet on serum proteins

Serum proteins were monitored during three studies of obese adolescents treated with protein-supplemented fasting in a clinical research center. In the first study of nine patients, small but significant decreases were noted for total serum protein, albumin, transferrin, retinol-binding protein, and complement beta 1c after 4 wk of carbohydrate-free protein-supplemented fast. In a further study of four of these same patients, the substitution of 400 glucose cal for 400 fat cal in a 5th wk of dietary study returned the total protein and retinol-binding protein concentrations to base-line levels. In a 3rd study of four patients, only complement beta 1c was significantly below base-line concentrations after 3 wk on a carbohydrate-containing protein-supplemented fast. There is an apparent metabolic effect of carbohydrate ingestion on maintaining usual concentrations of serum proteins.

Short-term administration of parenteral glucose-lipid mixtures improves protein kinetics in portacaval shunted rats

The efficacy of various total parenteral nutrition regimens administered for 72 h in supporting the rat after portacaval anastomosis was evaluated. All animals that received amino acid-containing formulas had significantly improved nitrogen balance (p less than 0.05), albumin synthetic rates (p less than 0.05), and serum albumin concentration (p less than 0.05) compared with animals receiving dextrose only. Rats that received the mixed-fuel system containing amino acids, dextrose, and lipid had significantly improved leucine flux and whole body protein synthesis (p less than 0.05) compared with animals that received dextrose only, or amino acids and dextrose. Diets composed of dextrose only, amino acids and dextrose, or amino acids and dextrose with the addition of currently available long-chain triglyceride lipid emulsion induced abnormal morphologic changes in the liver. No hepatic morphologic changes were evident in rats that received an isocaloric mixed-fuel regimen containing medium- and long-chain triglycerides. The results suggest that mixed-fuel systems containing amino acids and dextrose with lipids are superior to formulas containing dextrose only, or dextrose with amino acids. The improved liver morphology observed in animals given the lipid emulsion system containing medium- and long-chain triglycerides suggests that medium-chain triglycerides may provide an additional benefit in supporting the patient with liver dysfunction.

Blood carnitine status after orthotopic liver transplantation in patients with end-stage liver disease

We determined the effects of orthotopic liver transplantation on plasma and red cell carnitine concentrations in patients with end-stage liver disease. Before transplantation, plasma and red cell carnitine were significantly elevated above normal. The partitioning factor (ratio of red cell carnitine to plasma carnitine) was four times greater than that observed in our reference population. After hepatic replacement, plasma and red cell carnitine approached normal levels within 6 mo. The partitioning factor, however, remained elevated at that time. These results indicate that 1) there is no evidence for carnitine deficiency in severe liver disease on the basis of carnitine concentrations in the plasma and red compartments and 2) altered partitioning of carnitine between plasma and red cells persists for greater than or equal to 6 mo after hepatic replacement.

Effects of laparoscopic vs laparotomy treatment of E. coli peritonitis on hemodynamic responses in a porcine model

BACKGROUND

Laparoscopic surgery is being used now for increasingly diverse clinical applications, including diagnosis and treatment of appendicitis and bacterial peritonitis. However, some concerns and controversies exist regarding the effectiveness of laparoscopic irrigation of the abdominal cavity compared with that achieved during laparotomy. Of no less importance is concern that establishing a CO(2) pneumoperitoneum in patients with cardiopulmonary insufficiency or endotoxemic shock may compromise hemodynamic function. The objective of this randomized, controlled study was to determine the effects of laparoscopic versus laparotomy intervention on hemodynamic and outcome measurements using a porcine model of Escherichia coli peritonitis.

METHODS

For this study, 24 specific pathogen-free Hanford pigs underwent surgical placement of carotid, Swan-Ganz, and peritoneal catheters. After a 24-h recovery period, one subset of pigs (n = 12) received a bolus infusion of 9 x 10(8) CFU/kg E. coli intraperitoneally (septic) and intravenous fluid resuscitation. The remaining 12 pigs were not challenged with E. coli (control). Twenty-four hours later, all 24 pigs underwent either laparoscopic or open peritoneal irrigation with saline, then were reevaluated 48 h after surgical intervention. Standard cardiopulmonary, hematologic, and bacteriologic assessments were obtained both perioperatively and 48 h after surgical intervention.

RESULTS

Pigs given E. coli exhibited significantly elevated heart rates and core temperatures and decreased O(2) saturation during the initial 6 h. Within 24 h, these pigs exhibited respiratory alkalosis, altered blood leukocyte profiles, and E. coli-infected peritoneal fluid. Random blood samples from the septic pigs tested negative for E. coli. Mean pulmonary artery and capillary wedge pressures were lower (p < 0.05) in septic than in control pigs before and after surgical intervention. Septic pigs that underwent laparoscopy had significantly lower (p < 0.05) arterial pH and higher arterial pCO(2) levels than septic pigs after laparotomy. Other cardiopulmonary responses were similar irrespective of the surgical modality used. One of six septic pigs from each surgical group still had E. coli growth in its peritoneal fluid 48 h after surgical intervention.

CONCLUSION

Laparoscopic intervention demonstrated effectiveness equal to that of laparotomy for treating acute E. coli peritonitis in pigs without septic shock.

Branched-chain amino acid administration in surgical patients. Effects on amino acid and fuel substrate profiles

During the first five days following gastric bypass surgery, 15 patients received near isotonic amino acid solutions that varied in their branched-chain amino acid (BCAA) content and amino acid profiles (15.6%, 50%, or 100% BCAA solutions). Plasma valine concentrations were elevated in patients receiving 50% and 100% BCAA solutions. Plasma alanine concentrations were highest in patients receiving 50% BCAA. Plasma free fatty acids and blood lactate concentrations were unchanged by either the operation or BCAA administration. Serum glucose concentration was unaffected by the different amino acid administrations and followed the pattern induced by stress initially and later by starvation. beta-Hydroxybutyrate concentrations increased as starvation proceeded and were highest in patients receiving the 15.6% BCAA solution. Branched-chain amino acid-enriched solutions without additional energy may be administered safely to patients recovering from operative trauma. Plasma amino acid concentrations and fuel substrate profiles appear to follow metabolic patterns determined by the physiologic response to stress and starvation and can be affected by large quantities of BCAAs.