UMLS:C0036690 - FACTA Search

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

Excessive coagulation is a typical response to the vascular injury occurring in gram negative sepsis. This study evaluated the pharmacological effects of the use of a recombinant Escherichia coli derived form of tissue factor pathway inhibitor (ala-TFPI) in a baboon model of septic shock. Several doses of ala-TFPI were administered either 30 or 120 min after the initiation of a lethal intravenous infusion of E. coli into baboons. Treatment at 30 min with either 2.7 or 7.4 mg/kg of ala-TFPI resulted in the same survival rates and attenuation of both the coagulation response and cellular injury, as measured by clinical chemistry. When administration of ala-TFPI was delayed for 120 min, a dose of ala-TFPI protein continued to provide a benefit to survival. Ala-TFPI reduced the drop in mean systemic arterial pressure compared to control baboons in addition to partially attenuating the coagulopathic response. Baboons given ala-TFPI also maintained lower levels of plasma interleukin-6 (IL-6) and thrombin-antithrombin. These results suggest that the site of action of the protein may involve the later stage components of the coagulation and inflammatory pathways.
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PMID:Recombinant E. coli-derived tissue factor pathway inhibitor reduces coagulopathic and lethal effects in the baboon gram-negative model of septic shock. 760 Jun 36

The baboon model of E. coli sepsis illustrates three concepts with respect to the host response and vascular endothelium. First, the endothelium is the primary target. E. coli sepsis is an acute inflammatory disease of the vascular endothelium. Second, the endothelium is not a passive target. Initially it regulates both the inflammatory and coagulopathic aspects of E. coli sepsis through membrane associated regulatory receptor/plasma protein assemblies including protein C/thrombomodulin, activated protein C/protein S, C4bBP/protein S, tissue factor pathway inhibitor/Xa, antithrombin III/glycosaminoglycans. Third, when overridden by inflammatory events, the endothelium can change its anticoagulant phenotype and mount a massive procoagulant fibrinolytic counter-attack on its luminal side through the expression of tissue factor and release of tissue plasminogen activator. Fourth, again when overridden by inflammatory events, the endothelium can change its antioxidant phenotype and produce a "distal" tissue hypoxia on its abluminal side through induction of free radical generation and peroxidation of mitochondrial lipid membranes of those tissues with high metabolic rates. It has become increasingly clear that the so-called anticoagulant systems which act on the proximal factors of the clotting cascade (protein C, TFPI, AT-III, PGI2) also attenuate the amplification of the inflammatory response. Aspects of the mechanism by which this occurs are coming to light. This includes the attenuation of Il-6 response by TFPI and the attenuation of the complement effects by C4bBP/PS. The specifics of these observations in the E. coli sepsis model will be reviewed.
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PMID:Studies on the inflammatory-coagulant axis in the baboon response to E. coli: regulatory roles of proteins C, S, C4bBP and of inhibitors of tissue factor. 783 58

Short-term preexposure of mononuclear cells to epinephrine inhibits LPS-induced production of TNF, whereas preexposure for 24 h results in increased TNF production. To assess the effects of epinephrine infusions of varying duration on in vivo responses to LPS, the following experiments were performed: (a) Blood obtained from eight subjects at 4-24 h after the start of a 24-h infusion of epinephrine (30 ng/kg per min) produced less TNF after ex vivo stimulation with LPS compared with blood drawn before the start of the infusion, and (b) 17 healthy men who were receiving a continuous infusion of epinephrine (30 ng/kg per min) started either 3 h (EPI-3; n = 5) or 24 h (EPI-24; n = 6) were studied after intravenous injection of LPS (2 ng/kg, lot EC-5). EPI-3 inhibited LPS-induced in vivo TNF appearance and also increased IL-10 release (both P < 0.005 versus LPS), whereas EPI-24 only attenuated TNF secretion (P = 0.05). In separate in vitro experiments in whole blood, epinephrine increased LPS-induced IL-10 release by a combined effect on alpha and beta adrenergic receptors. Further, in LPS-stimulated blood, the increase on IL-10 levels caused by epinephrine only marginally contributed to concurrent inhibition of TNF production. Epinephrine, either endogenously produced or administered as a component of sepsis treatment, may have a net antiinflammatory effect on the cytokine network early in the course of systemic infection.
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PMID:Epinephrine inhibits tumor necrosis factor-alpha and potentiates interleukin 10 production during human endotoxemia. 860 27

This study was designed to determine the effect of a delayed infusion (T+120 min) of alanyl tissue factor pathway inhibitor (ala-TFPI) on the response to LD100 E. coli. We hypothesized that baboons treated with a low dose of TFPI (5 mg/kg) which did not survive would exhibit thrombosis, infarction and hemorrhage of target tissues such as that seen in untreated animals infused with LD100 E. coli. Eight baboons were infused with 5 mg/kg of ala-TFPI over a 10 h period beginning immediately after a 2 h infusion of LD100 E. coli (experimental group). Four baboons were infused with E. coli followed by a 10 h infusion of saline (control group). Of the 12 baboons, the 11 non-survivors (TFPI = 7 out of 8; controls = 4 out of 4) were evaluated for the extent of thrombosis, necrosis, hemorrhage, and congestion of target tissues and for changes in clinical chemical parameters. We expected that failure to protect would correlate with failure to inhibit thrombosis of target tissue (8). Surprisingly ala-TFPI significantly inhibited thrombosis, hemorrhage and necrosis of adrenal and renal tissues and attenuated the rise in creatinine in the 7 treated non-survivors. The lungs of these non-survivors, however, exhibited intra-alveolar fibrin and a mild degree of hemorrhage and edema. We concluded that low doses of ala-TFPI begun as late as T+120 in minutes failed to protect against the lethal effects of LD100 E. coli in spite of completely preventing thrombosis and hemorrhage in target organs, and that thrombosis, infarction and hemorrhage of adrenal and renal tissue are not part of the lethal chain of events in this IV model of E. coli sepsis.
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PMID:Attenuation of tissue thrombosis and hemorrhage by ala-TFPI does not account for its protection against E. coli--a comparative study of treated and untreated non-surviving baboons challenged with LD100 E. coli. 960 45

TF (tissue factor) is a physiological inhibitor of blood coagulation in normal hemostasis and is a major initiator of clotting in thrombotic disease. TF functions as a protein cofactor for FVIIa. Coagulation at a site of injury is initiated by exposure of blood to cell-surface formation of TF/VIIa complex. The TF/VIIa complex then activates both factors IX and X leading to thrombin generation and fibrin formation. TFPI (tissue factor pathway inhibitor) appears to play a primary role in regulating TF-induced coagulation. Abnormal coagulation may contribute to the pathogenesis of many serious illnesses. In particular, induced expression of TF and TF-mediated coagulation occurs in atherosclerotic plaques, sepsis, malignancy, ARDS and glomerulonephritis. Several observations support the need for exogenous TFPI administration to effectively turn off the TF/VIIa complex in several clinical conditions with TF-induced coagulopathy. There are some reports about successful administration of rTFPI for antithrombotic therapy in humans.
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PMID:[The role of tissue factor and its inhibitor in hemostasis]. 969 46

Advanced non-small cell lung cancer (NSCLC) denotes those of TNM stage III and IV. NSCLC has its specific characteristics in respect of oncological behaviour, molecular biology, sensitivity to chemotherapy (CT) and radiotherapy (RT), and requires different therapeutic strategies in comparison with small cell lung cancer. The therapies include: (1) surgery in combination with new effective drugs is resulted in improved RR from 15% a decade ago to 40-60% today. Cisplatin (C-DDP) is the most attractive drug in the treatment of NSCLC, in lengthening the life-span of Stage IV NSCLC patients and as an indispensable sensitizer in RT. Taxinol, Gemcitabine (GEM), Navelbine (NVB), Edatrexate (ETX), CPT-11 and high dose Epirubicin (EPI HD) are recommended as new effective drugs. Response rates recently reported for the combination CT with the drugs mentioned above for NSCLC are from 30-65%, and with 8-42 weeks of MST. Induction or neoadjuvant therapies for advanced NSCLC, with 40-69% of RR, 25-29% of complete resection rate, 8-34% of CR and 17-45% of one year SR are reviewed. Eight random studies comparing MST between CT with C-DDP and best supportive care for NSCLC are statistically significant. (2) RT for Stage III NSCLC with 2 year and 5 year survivals of 20 and 5% respectively. Although such outcome is hardly acceptable, RT sensitizer, modified RT techniques and chemoradiotherapy (CRT) are imperative to improve the effect of RT in advanced NSCLC. Clinical literature suggest that CRT is better than RT, though without marked difference. Further studies and sufficient follow-up are necessary to judge the efficacy in terms of long-term survival and toxic reaction. (3) Biological therapy: gene therapy of NSCLC is still in the experimental and developmental stage. Of biological response modifier (BRM), alpha IFN in 11 cases of NSCLC with RR of 9% and MST of 14 months, IL-2 and LAK cell treatment in 11 cases with RR of 9% and MST of 18 months are reported. Instillation of BRM such as IL-2 or alpha-IFN into the pleura after drainage of cancerous effusion has been reported as the most effective for those whose RR is of 80-90% and the clinical response time is fairly long. Hematological cytokine as a protective adjuvant therapy against CT/RT toxicity makes high dose of CT possible and raises the response and patient tolerance. In multimodality therapy, it plays an important role to reduce post CT infection and septicemia.
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PMID:Non-surgical therapy for patients with advanced non-small cell lung cancer. 976 13

Pregnancy after the fifth delivery is viewed with anxiety, especially by obstetricians in developing countries working with inadequate facilities. High parity is still common with serious consequences to the fetus, the mother, the family and society. In the last 40 years, non-governmental, national and international efforts have been made to reduce fertility rates. We therefore intended to determine the trend in the grandmultiparity rates from 1 January 1987 to 31 December 1994 in the South Western part of Nigeria. The obstetric performance of these grandmultiparae in two different settings were to be compared. This was a retrospective, case-note analysis of all the grandmultiparae delivered at the University College Hospital (UCH) (Group A) and the Oluyoro Catholic Hospital (OCH) (Group B), both in Ibadan city. The former is a tertiary health care centre while the latter is a secondary centre. The socio-clinico-demographic characteristics of these patients were collated and analysis and comparison performed using EPI-INFO software. In Group A, 828 grandmultiparae were seen among 9215 deliveries, a rate of 8.99% (10.90% in 1987 to 3.36% in 1994). In Group B, there were 1940 cases among 22 587 deliveries, i.e. 8.59% (12.75% to 6.07%), respectively. The modal age group was 31-35 years, and women above 35 years formed one-third of cases. The parity group 5-7 was the most frequent in both groups (91.6% vs. 94.9%). Only two mothers (both in group B) had parity above 10. Booked patients formed a larger percentage in Group B than in Group A (85.8% vs. 69.7%, respectively). In Group B 85.9% had spontaneous vertex delivery as opposed to 66.3% in Group A. Caesarean section was the mode of delivery in 9.0% and 24.2% in Groups B and A, respectively. Equal percentages had breech delivery. The modal birth weight was 2.51-3.00 kg in both groups. Macrosomic babies formed 3.7% in Group A and 2.4% in Group B, while low birth weight babies formed 17.7% and 11.7% in Groups A and B, respectively. The crude perinatal death ratio was 123/1000 in Group A and 68/1000 in Group B. Antepartum haemorrhage, anaemia and premature rupture of membranes in Group A and anaemia, hypertension and antepartum haemorrhage in Group B were the most common pregnancy complications noted. In labour, abnormal lie/presentation, prolonged labour and premature labour in Group A and abnormal lie/presentation, antepartum haemorrhage and birth asphyxia in Group B formed the majority of the complications. The most common puerperal complications were primary postpartum haemorrhage, wound/genital sepsis in Group A and anaemia and primary postpartum haemorrhage in Group B, respectively. Maternal death ratio was 10.85/100 000 total deliveries in Group A and 35.42/100 000 in Group B. High parity is still common in developing countries, although the incidence is declining, with rates of 3.4% and 6.1% of total deliveries in Groups A and B, respectively. More patients are delivered per abdomen at UCH compared to OCH. The perinatal mortality rate is higher at UCH than OCH but the maternal mortality rates follow the reverse. Recommendations are made concerning the reduction in high parity rates and its associated complications.
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PMID:Grandmultiparity--trends and complications: a study in two hospital settings. 1252 27

Disseminated intravascular coagulation (DIC) is a systemic thrombohemorrhagic disorder seen in association with many clinical situations, e.g. sepsis, malignancy, obstetrical complications and intravascular hemolysis. In our model, disseminated intravascular coagulation was induced in rabbits by two consecutive intravenous bolus injections of endotoxin from Escherichia coli, 80 and 40 microg/kg. The control group was treated with 0.9% saline. The activity of thioglycosides was compared to unfractionated heparin (UFH) and efegatran with and without administration of endotoxin. Drugs were administered in the following doses: heparin 50 and 100 IU/kg/h i.v. infusion; efegatran 0.25 and 0.5 mg/kg/h i.v. infusion; GYKI 39521 (RGH-1875) as well as GYKI 39541 (RGH-1962) 12.5 and 25 mg/kg per os. Thioglycosides did not modify coagulation parameters in this model [prothrombin time (PT), activated partial thromboplastin time (APTT), thrombin time (TT)] as compared with endotoxin/vehicle group. The changes in TFPI level after administration of thioglycosides and heparin were similar in the mentioned model to those without endotoxin. Endotoxin-induced changes of leukocyte count were not affected by GYKI 39521 and GYKI 39541 treatment in our model. Diminution of fibrinogen level and platelet count was prevented by GYKI 39521 and GYKI 39541. Fibrin degradation products and fibrinolysis were significantly decreased by GYKI 39521 and GYKI 39541. The thioglycosides may have a lower risk of bleeding in the treatment of disseminated intravascular coagulation than heparin.
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PMID:Effect of some new thioglycosides on endotoxin-induced disseminated intravascular coagulation in rabbits. 1256 24

Tifacogin is a recombinant tissue factor pathway inhibitor (rTFPI) under development by Pharmacia Corp (formerly GD Searle) and Chiron as a potential treatment for sepsis. The product is in phase III trials [406208]. In July 2000, Pharmacia anticipated regulatory filings in 2002 [374505]. Chiron and Searle conducted research on TFPI independently in the early 1990s and entered an agreement to collaborate on the development, manufacturing and marketing of the compound in 1994, granting each other licenses on the patents concerned with TFPI [224098]. Searle (Monsanto Co) first disclosed recombinant TFPI in the associated patent, US-05212091. Unlike natural TFPI, however, it possessed an N-terminal alanine and the expression method using E coli did not always yield entirely homologous protein. A method for expressing genuine TFPI in yeast is disclosed in Chiron's patent WO-09604377. Patents for methods of treating sepsis with TFPI were claimed independently in two patents from Cetus Oncology (Chiron; WO-09324143) and Searle (WO-09325230). The discovery research of TFPI was conducted by Searle in collaboration with Washington University [224098]. Washington University holds two patents, EP-00563023 and WO-09604378, which claim the use of TFPI for the inhibition of microvascular thrombosis and reperfusion injury, respectively. Analysts at Lehman Brothers predicted in December 2001, that there was a 50% probability of the drug making it to market, with peak sales potential of 500 million US dollars in 2003 [434768].
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PMID:Tifacogin (Chiron Corp/Pharmacia Corp). 1286 83

The last few years have clarified the tight link between inflammation and coagulation. In addition to the identification of new regulatory mechanisms of the coagulation system and of an explosive number of mediators of inflammation, it is now clear that the existence of a positive feed-back between inflammation and coagulation leads to reciprocal activation of both pathways. Plasma levels of acute phase proteins involved in coagulation and fibrinolysis are elevated during inflammation, while natural anticoagulant mechanisms are depressed. Pro-inflammatory cytokines "activate" cell membranes exposed to flowing blood (endothelium, platelets, monocytes, neutrophils) which from physiologically inert or anticoagulant become procoagulant. Increased tissue factor expression results in increased thrombin formation within the microcirculation. Thrombin is central to fibrin deposition but it also plays a key role in cell-mediated mechanisms involving inflammation, cell proliferation and activation of the natural anticoagulant protein C. Depression of natural anticoagulant mechanisms, occurring in severe sepsis, results in uncontrolled thrombin formation, with pro-inflammatory activity prevailing, and the feed-back loop of inflammation and coagulation ultimately leading to multi-organ failure. However, both in the clinical setting and in animal experiments, heparin or direct anticoagulants have shown no effect on survival even if blocking fibrin deposition. Organ failure is only partially due to the thrombotic occlusion of the microcirculation, while other mechanisms of endothelial damage are probably more relevant in the development of ischemia. The endothelium is central to the maintenance of the natural anticoagulant mechanisms (TFPI, antithrombin, protein C). The protein C system, in addition to dumping thrombin formation, specifically modulates inflammation by cell signaling. This system is markedly depressed in severe sepsis. The infusion of activated protein C, or restoring normal levels of protein C within the circulation - depending on the individual bleeding risk are powerful tools to treat the endothelitis responsible for the clinical sequelae of severe sepsis.
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PMID:[Protein C and coagulation in sepsis]. 1518 14

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