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Query: UMLS:C0036690 (sepsis)
 59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Myocardial failure is uniformly fatal when associated with post-traumatic sepsis and multisystem failure. Controversy exists as to whether endotoxin has a direct effect on the myocardium. A nonanoxic isolated arterially perfused rabbit interventricular septum was used in this study to evaluate the effects of endotoxin, live E. coli, and endotoxin/septic shock plasma on myocardial function and ultrastructure. Purified E. coli endotoxin and live E. coli bacteria did not have a significant direct effect on rabbit cardiac muscle function or ultrastructure. Perfusion of the rabbit septum with plasma from rabbits exsanguinated following a 2-hour septic or endotoxin shock insult, however, caused significant (p less than 0.02) myocardial depression when compared with control septa perfused with normal rabbit plasma. Septa perfused with shock plasma demonstrated ultrastructural alterations of mitochondria that were not noted in control preparations.
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PMID:Myocardial depression in sepsis. 36 63

In ten experiments, 53 castrated male 4- to 8-week-old weanling pigs were given adriamycin (ADR) IV at mean dosages of 0.64, 1.0, 1.6, 3.2, or 6.4 mg/kg/week at various frequencies for up to 20 weeks. Mortalities in pigs given these dosages were 0% after 112 days, 100% after 134 days (survival time was 48 to 134 days), 91% after 75 days (survival time was 5 to 75 days), 100% after 28 days (survival time was 23 to 28 days), and 100% after 14 days (survival time was 10 to 14 days), respectively. Survival time was prolonged in younger pigs and in pigs given smaller but more frequent dosages of ADR. Characteristic gross and histopathologic alterations of ADR toxicosis were observed in pigs given 1.0, 1.6, 3.2, or 6.4 mg/kg/week mean dosages. The most frequent lesions were in the alimentary tract, myeloid and lymphoid tissues, skin, and perivascular tissues at injection sites. Alimentary tract lesions were mucosal epithelial atrophy, with secondary fibrinonecrotic inflammation in the oral cavity and large intestine. Marked hypoplasia was seen in bone marrow and lymphoid tissues, with frequent terminal hemorrhagic diathesis and septicemia. Several days before death, the pigs developed severe dermatitis over the ventral portion of the abdomen and inner surfaces of the limbs. Perivascular necrosis and cellulitis produced by extravasation of ADR was a frequent complication of treatment. Terminal severe acute pneumonia occurred in most pigs. Pericarditis or cardiomyopathy (or both) developed in 14 pigs, given 0.64, 1.0, or 1.6 mg/kg each week (mean cumulative dosage 520.5 mg/m2 of body surface). Characteristic histopathologic and ultrastructural alterations in affected cardiac muscle cells were vacuolar degeneration, myocytolysis, and hyaline necrosis. Nephrotoxicosis also was in pigs with chronic ADR toxicosis. Systemic antibiotic treatment did not prolong survival of ADR-treated pigs in two experiments, but did in one other experiment.
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PMID:Pathologic features of adriamycin toxicosis in young pigs: nonskeletal lesions. 52 72

Cardiac pathologic findings were analyzed in 22 necropsy cases from a series of 29 patients with leukemia, aplastic anemia, or metastatic cancer who had been treated with ablative therapy followed by bone marrow transplantation. Some cardiac alterations were similar to those that occur in patients with hematologic and neoplastic diseases not treated with bone marrow transplantation, and consisted of cardiomegaly, cardiac atrophy, hemorrhage, foci of necrosis due to shock associated with sepsis or hepatic failure, myocardial abscesses secondary to systemic candidiasis or staphylococcal infection, fibrinous pericarditis, and hemosiderosis. Other cardiac alterations were more specifically related to factors associated with transplantation procedure. Six patients exhibited a distinctive interstitial reactive change characterized by the presence of (1) moderate to large numbers of Anitschkow cells, occurring alone or in small cellular aggregates and histiocytes, histiocytic cells with nuclei of the Anitschkow type, lymphoid cells, and plasma cells, and (2) nuclei of the Anitschkow type in cardiac vascular and endocardial smooth muscle, endothelial and Schwann cells, and occasional cardiac muscle cells. This alteration may have been induced by abnormal immune mechanisms, as suggested by the observation that five of the six patients with interstitial change had clinical evidence of graft-versus-host disease. Two patients developed fatal congestive cardiac failure in the early post-transplant period and exhibited myocardial damage with histologic and post-transplant period features indicative of severe acute injury. Findings in these two patients consisted of necrotic muscle cells, which exhibited multiple contraction bands, diastase-resistant PAS staining, and intracellular fibrin deposits; microthrombi, which were composed of fibrin and occasionally of fibrin and platelets; and extravasated erythrocytes and fibrin strands in the interstitium. One of the two patients also exhibited unusual nuclear alterations, which were characterized by replacement of normal chromatin by palely stained fibrous and filamentous material. Clinicopathologic analysis strongly suggested that the fatal cardiotoxicity in both patients resulted primarily from effects of high doses of cyclophosphamide, which were administered as part of a four drug regimen that provided tumor ablation and immunosuppression for bone marrow transplantation. Our findings emphasize the need for less toxic antineoplastic and immunosuppressive therapy for use in bone marrow transplantation procedures.
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PMID:Cardiac pathologic findings in patients treated with bone marrow transplantation. 110 69

We studied the effect of Gram-negative sepsis on negative charges of heart capillaries and myocardial cells. We used a rat model of multiorgan failure, with ruthenium red (RR) and polyethyleneimine (PEI) as cationic binding tracers. Twenty-four hours after induction of sepsis, negative charges had decreased in glycocalyx and basement membrane of myocardial capillary endothelial cells. There were substantial amounts of interstitial edema. Density of anionic charges in the sarcolemmal glycocalyx complex of cardiac cells was markedly reduced. Myocardial cells' mitochondria consistently showed morphologic changes, whose severity ranged between stages II and IV C of Trump. Thirteen days after induction of sepsis, capillary endothelial and myocardial cells had recovered almost completely and showed no intracellular edema. Gram-negative sepsis caused a significant reduction in negative charges normally present in the microvascular wall as well as on myocardial cells. Consequently, several membranes limiting the various compartments of heart tissue lost their structural integrity. This morphometric data could explain the development of protein-rich interstitial edema and defective cell volume regulation observed in cardiac muscle of endotoxin-shocked animals. This myocardial edema may be at the origin of the cardiac dysfunction observed in both experimental and human septic shock.
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PMID:Loss of microvascular negative charges accompanied by interstitial edema in septic rats' heart. 137 36

The precise roles of carnosine and histamine in the physiologic response of the cardiovascular system to stress are unknown. We have previously shown in skeletal and cardiac muscle that carnosine serves as a histidine reservoir available for subsequent histamine synthesis following trauma and sepsis. This study was designed to quantify the effect of histamine-releasing and blocking agents on the myocardial carnosine-histamine pathway as well as on survival during severe stress. Four groups of mature (9-month-old) Sprague-Dawley rats were treated with either (1) saline, (2) lodoxamide (L, mast cell degranulation inhibitor), (3) compound 48/80 (a mast cell degranulator which causes stress), or (4) L followed by 48/80, and observed until agonal or the end of 30 min. When either endpoint was reached the animals were sacrificed and their hearts were removed for tissue analyses of histidine, histamine, 3-methylhistamine, and carnosine via high-pressure liquid chromatography. All five L-pretreated animals survived challenge with 48/80 while all five animals given 48/80 alone died (P less than .005). This mortality correlated well with the increase in the myocardial levels of histidine (P less than or equal to .0005), histamine (P less than or equal to .0077), and 3-methylhistamine (P less than or equal to .0004) and the decrease in carnosine (P less than or equal to .009) experienced by the animals treated with 48/80 alone in comparison to the control, L-only- and L + 48/80-treated groups. A protective effect of L was shown against the deleterious effects of 48/80 which is associated with prevention of myocardial carnosine mobilization to histidine and histamine. These data support the role of carnosine as a nontoxic myocardial histidine reservoir which is mobilized in response to stress-induced increases in histamine requirements.
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PMID:Improved survival from compound 48/80-induced lethal stress and inhibition of myocardial histamine and carnosine mobilization by lodoxamide. 270 50

Controversy exists in the literature concerning the effects of insulin and glucagon on cardiac muscle contractility, in particular during anoxia, ischemia or sepsis. The purpose of the present study was to determine the effects of insulin and glucagon on the systolic function of the normal and the dysfunctioning septic rat myocardium in the Langendorff preparation. In the normal isolated rat heart, neither insulin nor glucagon exhibited any lasting inotropic effect on systolic function or coronary flow. Sepsis (cecal ligation and puncture) resulted in a dramatic reduction of systolic function to 44% of control animals. All insulin-containing formulations tested improved systolic function in septic hearts by a mean of 85% compared to Krebs and glucose only. However, this improvement did not reach statistical significance compared to the use of Krebs and glucose only. Glucagon at 100 micrograms/l was doing as well as Krebs and glucose alone while at 1 mg/l glucagon was only able to maintain pre-perfusion contractility. Our results suggest that neither insulin nor glucagon seem to possess special inotropic properties for the isolated perfused normal or septic rat heart.
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PMID:The effect of insulin and glucagon on systolic properties of the normal and septic isolated rat heart. 390 99

Amino acid uptake in vivo was determined in soleus (SOL) muscle, diaphragm, heart, and liver following intravenous injection of [3H]-alpha-amino-isobutyric acid ([3H]-AIB) in rats made septic by cecal ligation and puncture (CLP) and in sham-operated controls. Muscle amino acid transport was also measured in vitro by determining uptake of [3H]-AIB in incubated extensor digitorum longus (EDL) and SOL muscles. Results were expressed as distribution ratio between [3H]-AIB in intracellular and extracellular fluid. AIB uptake in vivo was reduced by 90% in SOL and cardiac muscle and by 45% in diaphragm 16 hours after CLP. In contrast, AIB uptake by liver was almost four times higher in septic than in control animals. AIB uptake in vitro was reduced by 18% in EDL 8 hours after CLP but was not significantly altered in SOL at the same time point. Sixteen hours after CLP, AIB uptake was significantly reduced in both muscles, i.e., by 17% in EDL and by 65% in SOL. When muscles from untreated rats were incubated in the presence of plasma from septic animals (16 hours CLP) or from animals injected with endotoxin (2 mg/kg body weight), AIB uptake was reduced. Addition of endotoxin in vitro (2-200 micrograms/ml) to incubated muscles did not affect AIB uptake. The results suggest that sepsis leads to marked impairment of amino acid transport system A in muscle and that this impairment is mediated by a circulating factor that is not endotoxin. Reduced uptake of amino acids by skeletal muscle during sepsis may divert amino acids to the liver for increased gluconeogenesis and protein synthesis.
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PMID:Inhibited muscle amino acid uptake in sepsis. 396 95

Protein turnover in cardiac and skeletal muscle is affected by the provision of amino acids, particularly the branched chain amino acids (BCAA). The effect of each of the BCAA, valine, leucine, and isoleucine, on the systolic function of isolated normal or septic rat heart perfused as a Langendorff preparation was examined. Thirty normal control and 28 septic rats (cecal ligation and puncture) were perfused with either Krebs + 8.5 mM glucose or Krebs + 5.0 mM glucose and 3.5 mM valine, leucine, or isoleucine. Septic hearts perfused with Krebs + 8.5 mM glucose exhibited developed force (DF) and force velocity (dF/dt) levels which were reduced to an average of 45 and 50%, respectively, compared to normal controls, and improved by 35% during 60 min perfusion over measurements made at time zero. In normal hearts DF and dF/dt decreased significantly during perfusion with leucine (27%) and isoleucine (20%). In sepsis, perfusion with leucine and isoleucine resulted in a mild improvement in systolic function. However, valine was far less effective than leucine and isoleucine in maintaining systolic function in sepsis, due apparently to valine being a less efficient energy substrate for the cardiac muscle in a state of severe energy deficit. Thus, valine, leucine, and isoleucine seem to exert different effects on the systolic function of normal and septic isolated rat hearts.
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PMID:The different effects of leucine, isoleucine, and valine on systolic properties of the normal and septic isolated rat heart. 398 17

An X-linked recessive disease is reported in a large pedigree. The disease is characterised by a triad of dilated cardiomyopathy, neutropenia and skeletal myopathy. The untreated patients, all boys, died in infancy or early childhood from septicemia or cardiac decompensation. Ultrastructural abnormalities were observed in mitochondria in cardiac muscle cells, neutrophil bone marrow cells and to a lesser extent (0-9%) in skeletal muscle cells. Membrane-bound vacuoles were seen in neutrophil bone marrow cells. Intramuscular fat droplets were increased in type I skeletal muscle fibres. An affected patient had intermittent lactic acidemia, borderline low plasma carnitine, the latter decreasing during periods of illness, and low muscle carnitine (27% pretreatment; 35-40% posttreatment). While on treatment with oral carnitine he had less weakness and no cardiac complaints, but his neutropenia was not affected. Respiratory chain abnormalities were observed in this patient's isolated skeletal muscle mitochondria. These were: (1) diminished concentrations of cytochromes c1 + c, b and aa3 to 29, 47 and 64% of the averaged controls, and (2) a lowered P:0 ratio for oxidation of ascorbate + TMPD, with diminished uncoupler stimulated Mg2+-ATPase activity. Muscle AMP deaminase was deficient (5 resp. 17%). Only one previous report (Neustein et al. 1979) on X-linked mitochondrial cardiomyopathy exists, which probably refers to the same entity. Biochemical studies and haematological abnormalities (neutropenia) are reported for the first time.
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PMID:An X-linked mitochondrial disease affecting cardiac muscle, skeletal muscle and neutrophil leucocytes. 614 97

Untreated septic shock results in depletion of extracellular fluid, cellular swelling, increased intracellular sodium, and decreased intracellular potassium concentrations in primate skeletal muscle. The Langer rabbit heart interventricular septal preparation was used to determine whether similar changes occur in cardiac muscle during sepsis. Rabbit septa (n = 17) were perfused with control and septic rabbit plasma plus red blood cells. Tissue contractility (developed tension [DT] and rate of tension change [dP/dt]) was followed, plasma cations were measured (Na+, K+, Ca2+, H+), perfusion pressure (PP) was monitored, and 42K efflux was determined. The effect on 42K efflux caused by the addition of potassium chloride to control plasma was determined. During perfusion with septic plasma there was significant decline of septal function (P less than 0.001). In 12/17 experiments DT fell 77.8 +/- 21.4% and dP/dt fell 75.8 +/- 24.8% from control values (means +/- 1 SD). All septa recovered when perfusion with control plasma was resumed. If [K+] was increased in control plasma during 42K washout, the percentage increase of effluent counts per minute per minute correlated with the percentage rise of control plasma [K+] (r = 0.95, P less than 0.001). During perfusion with septic plasma there was no similar correlation (r = 0.277). 42K efflux increased during septic plasma perfusion independent of the differences between control and septic plasma [K+], demonstrating abnormal myocardial K+ efflux. An abnormal efflux of K+ is seen during septic plasma perfusion similar to that described in primate skeletal muscle. It is associated with and may be a mechanism of action for the observed fall of contractility.
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PMID:Altered potassium flux and myocardial dysfunction during sepsis. 638 64


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