Nevirapine versus atazanavir/ritonavir, each combined with tenofovir disoproxil fumarate/emtricitabine, in antiretroviral-naive HIV-1 patients: the ARTEN Trial.

BACKGROUND: Selection of first-line antiretroviral therapy requires consideration of efficacy as well as effects on lipids given the increased concern about cardiovascular risk in HIV-1 patients. METHODS: ARTEN is a randomized, open-label, non-inferiority trial that compares nevirapine (NVP) 200 mg twice daily or 400 mg once daily to atazanavir/ritonavir (ATZ/r) 300 mg/100 mg once daily, each combined with fixed-dose tenofovir disoproxil fumarate (TDF) 300 mg/emtricitabine (FTC) 200 mg once daily, in antiretroviral-naive HIV-1 patients with CD4(+) T-cell counts <400 (men) and <250 cells/mm(3) (women). The primary end point was plasma HIV RNA<50 copies/ml at two consecutive visits prior to week 48. RESULTS: A total of 569 patients were randomized and treated. Overall, 66.8% of NVP and 65.3% of ATZ/r patients achieved the primary end point (difference 1.9%, 95% CI -5.9-9.8%). Similar rates of serious adverse events were observed (9.6% on NVP versus 8.8% on ATZ/r), although discontinuations due to adverse events were more frequent with NVP than ATZ/r (13.6% versus 3.6%, respectively). None of the 28 patients virologically failing ATZ/r selected resistance mutations, while they were selected in 29/44 patients virologically failing NVP. NVP induced a significantly greater increase in high-density lipoprotein cholesterol (HDL-c) and apolipoprotein A1 from baseline than ATZ/r, whereas triglycerides increased significantly more with ATZ/r than NVP. Mean change from baseline in TC:HDL-c ratio was -0.24 for NVP and 0.13 for ATZ/r (P=0.0001). CONCLUSIONS: NVP demonstrated at week 48 non-inferior antiviral efficacy compared with ATZ/r when given along with TDF/FTC, despite more drug-related discontinuations with NVP than ATZ/r. NVP was associated with a lower atherogenic lipid profile than ATZ/r although resistance mutations were more frequently selected with NVP than ATZ/r.

Phase I study of the angiogenesis inhibitor BIBF 1120 in patients with advanced solid tumors.

PURPOSE: BIBF 1120 is an oral, potent angiokinase inhibitor targeting receptors of the vascular endothelial growth factors, platelet-derived growth factors, and fibroblast growth factors. This phase I, accelerated titration study assessed the maximum tolerated dose, safety, pharmacokinetics, and pharmacodynamic effects of BIBF 1120. PATIENTS AND METHODS: Sixty-one patients with advanced cancers received BIBF 1120 in successive cohorts. Twenty-five received 50 to 450 mg once daily and 36 received 150 to 300 mg twice daily in 4-week treatment courses interspersed by 1 week of washout. Dynamic contrast-enhanced magnetic resonance imaging assessed antiangiogenic effect in 42 patients. RESULTS: Most frequent BIBF 1120-related adverse events were mostly mild to moderate (Common Toxicity Criteria grade 1-2) nausea (68.9%), vomiting (45.9%), and diarrhea (44.3%). The majority of dose-limiting adverse events of Common Toxicity Criteria grade 3 or 4 were reversible liver enzyme elevations. The maximum tolerated dose was 250 mg of BIBF 1120 for once and twice daily dosing. BIBF 1120 was absorbed moderately fast (t(max) = 1-3 hours at steady state), with no deviation from dose linearity and no decrease of exposure over time. The gMean terminal half-life was from 13 to 19 hours. One complete and two partial responses occurred in patients with renal cell cancer (n = 2) and colorectal cancer (n = 1). Dynamic contrast-enhanced magnetic resonance imaging showed a significant reduction in tumor blood flow in 55% of evaluable patients. CONCLUSIONS: BIBF 1120 dosed continuously displayed a favorable safety and pharmacokinetics profile, and first efficacy signals were observed. Twice daily dosing permitted increased drug exposure without additional toxicity. Two hundred milligrams BIBF 1120 twice daily is the recommended dose for phase II monotherapy studies.

Normothermic beating heart surgery with assistance of miniaturized bypass systems: the effects on intraoperative hemodynamics and inflammatory response.

The use of miniaturized cardiopulmonary bypass (CPB) circuits and avoidance of cardioplegic arrest are attempts to reduce the inflammatory response to cardiac surgery. We studied the effects of beating heart surgery (BHS) with assistance of simplified bypass systems (SBS) on global hemodynamics, myocardial function and the inflammatory response to CPB. We hypothesized that the use of SBS was associated with less hemodynamic instability after CPB resulting from attenuation of the inflammatory response when compared with surgery performed with a conventional CPB (cCPB) circuit. Forty-five patients undergoing coronary artery bypass grafting were prospectively studied. Fifteen patients were randomized to the use of a cCPB circuit, cold crystalloid cardioplegia, and moderate hypothermia. Two groups of 15 patients underwent BHS during normothermia with assistance of two different SBS consisting of only blood pump and oxygenator. Hemodynamic variables were assessed with transpulmonary thermodilution and transesophageal echocardiography. Plasma levels of proinflammatory and antiinflammatory mediators were measured perioperatively. After CPB, variables of global hemodynamics and systolic ventricular function did not differ among groups. Left ventricular diastolic function was impaired after CPB equally in all groups (P < 0.01 versus pre-CPB). At the end of surgery, there was more need for vasopressor (norepinephrine) support in both SBS groups than in the cCPB group (P < 0.01). After CPB, the release of interleukin (IL)-6 did not differ significantly among groups, whereas plasma levels of IL-10 were higher in the cCPB group (P < 0.01 versus SBS). The extent of myocardial necrosis (Troponin T) was comparable in all groups. We conclude that in our study, miniaturizing bypass systems and avoidance of cardioplegic arrest were not effective in improving hemodynamic performance and in attenuating the proinflammatory immune response after CPB.

Activated protein C inhibits the release of macrophage inflammatory protein-1-alpha from THP-1 cells and from human monocytes.

Several lines of evidence have implicated activated protein C (APC) to be an endogenous inhibitor of the inflammatory septic cascade. APC may exhibit direct anti-inflammatory properties, independent of its antithrombotic effects. Chemokines influence the interaction of monocytes at the endothelium during infection and sepsis and are involved in the molecular events leading to an adverse and lethal outcome of sepsis. Defining regulatory mechanisms on the monocytic release profile of the proinflammatory C-C chemokines macrophage inflammatory protein-1-alpha (MIP-1-alpha) and monocyte chemoattractant protein-1 (MCP-1) might have therapeutic implications for the treatment of sepsis. We established a monocytic cell model of inflammation by the addition of lipopolysaccharide (LPS) and examined the effect of human APC on LPS-stimulated chemokine release from the monocytic cell line THP-1. We found that human APC in supra-physiological concentrations of 2.5-10 microg/ml inhibited the LPS-induced release of the chemokines MIP-1-alpha and MCP-1, as measured by enzyme-linked immunosorbent assays (ELISA) at 6 up to 24 h. In addition to experiments on THP-1 cells, recombinant human APC in concentrations of 50 ng/ml was found to have an inhibiting effect on the release of MIP-1-alpha from freshly isolated mononuclear cells of septic patients. The ability of APC to decrease the release of the C-C chemokine MIP-1-alpha from the monocytic cell line THP-1 and from human monocytes may identify a novel immunomodulatory pathway by which APC exerts its anti-inflammatory action and may contribute to control the inflammatory response in sepsis.

Xenon and isoflurane differentially modulate lipopolysaccharide-induced activation of the nuclear transcription factor KB and production of tumor necrosis factor-alpha and interleukin-6 in monocytes.

UNLABELLED: Anesthetics are known to interfere with the production of inflammatory cytokines. In this study, we investigated the effect of xenon and isoflurane on the lipopolysaccharide (LPS)-induced activation of the nuclear transcription factor (NF)-kappaB and production of tumor necrosis factor (TNF)-alpha and interleukin (IL)-6 in vitro. Whole blood was incubated with LPS in the absence or presence of the either xenon (30 and 60 Vol%) and isoflurane (1 and 2 minimum alveolar anesthetic concentration [MAC]). After 4 h, TNF-alpha and IL-6 were assayed in the supernatant. Involvement of NF-kappaB was investigated using isolated monocytes from the blood samples. Whole-cell lysates were prepared, and binding of the NF-kappaB p50 and p65 subunit to its target DNA were measured with an enzyme-linked immunosorbent assay-based NF-kappaB kit. LPS-induced production of TNF-alpha and IL-6 as well as activation of NF-kappaB were significantly increased in the presence of xenon compared with controls. In contrast, isoflurane inhibited the activation of NF-kappaB, which was associated with a decreased production of TNF-alpha and IL-6. Our results demonstrate that xenon and isoflurane have opposite effects on the LPS-induced production of TNF-alpha and IL-6. Furthermore, xenon increases, whereas isoflurane inhibits the activation of NF-kappaB, providing a possible molecular mechanism for the different effects on monocyte TNF-alpha and IL-6 production. IMPLICATIONS: This study has shown that monocytes respond to lipopolysaccharide (LPS) in the presence of xenon with an increased activation of nuclear transcription factor (NF)-kappaB, whereas isoflurane inhibits LPS-induced activation of NF-kappaB. These findings suggest a possible molecular mechanism for the different effects of both anesthetics on monocyte tumor necrosis factor-alpha and interleukin-6 production.

Effect of propofol on adhesion of activated platelets to leukocytes in human whole blood.

OBJECTIVE: To investigate the effect of propofol and its solvent Intralipid on the adhesion of activated platelets to leukocytes in vitro. DESIGN AND SETTING: Prospective study in an experimental laboratory. PARTICIPANTS: Sixteen healthy volunteers. INTERVENTIONS: Whole blood was incubated for 60 min with propofol (4, 40 micro g/ml), an equal volume of Intralipid 10% or phosphate-buffered saline (PBS). After stimulation with adenosine-5-diphosphate (ADP) platelet-leukocyte adhesion and platelet surface expression of P-selectin, GPIb and fibrinogen-binding to platelets were evaluated by flow cytometry. MEASUREMENTS AND RESULTS: The 4 micro g/ml concentration of propofol did not alter binding of platelets to leukocytes, expression of P-selectin, GPIb and fibrinogen binding to platelets. The 40 micro g/ml concentration of propofol reduced spontaneous and ADP-induced formation of platelet-neutrophil conjugates compared with PBS and the equal volume of Intralipid. In addition, binding of ADP-activated platelets to monocytes were also inhibited by 40 micro g/ml propofol. Following incubation with propofol, platelets showed reduced binding of fibrinogen in the unstimulated and ADP-stimulated blood samples as well as a lower percentage of platelets with bound fibrinogen. Effects dependent on the solvent Intralipid were enhanced adhesion of platelets to monocytes in comparison with propofol (40 micro g/ml) and PBS. CONCLUSION: In clinically used concentrations, propofol does not alter the adhesion of platelets to leukocytes in vitro. At ten-fold anesthetic concentration propofol reduced the formation of platelet-neutrophil and platelet-monocyte conjugates. We suggest that this effect is due to an inhibition of fibrinogen-binding to platelets by propofol. These effects were all independent of the propofol carrier Intralipid.

Xenon preserves neutrophil and monocyte function in human whole blood.

PURPOSE: Most volatile anesthetics are known to inhibit the oxidative and phagocytic function of neutrophils. In the present study, we investigated the effect of xenon on phagocytosis and respiratory burst activity of neutrophils and monocytes in human whole blood. METHODS: Heparinized whole blood from 22 healthy volunteers was incubated for 60 min in the presence of 65% xenon. Sixty-five percent nitrous oxide was used as a positive control to prove the reliability of our in vitro system. Phagocytosis of fluorescein isothiocyanate labelled, opsonized Escherichia coli (E. coli) by neutrophils and monocytes was measured using flow cytometry. After induction with either N-formyl-methionyl-leucyl-phenylalanine (FMLP), phorbol-12-myristate-13-acetate or opsonized E. coli, respiratory burst activity was assessed by measuring the oxidation of dihydrorhodamine 123 to rhodamine 123 with a flow cytometer. RESULTS: Exposure of human whole blood to xenon increased the percentage of neutrophils showing phagocytosis (94 +/- 3% vs 92 +/- 4%; P < 0.01), and the amount of ingested bacteria (P < 0.01). Respiratory burst activity in neutrophils and monocytes was not affected by xenon. Nitrous oxide significantly reduced the percentage of neutrophils showing respiratory burst after FMLP stimulation. Furthermore, E. coli-induced stimulation resulted in a decreased number of reacting neutrophils (84 +/- 15% vs 95 +/- 5%; P < 0.05) and monocytes (70 +/- 22% vs 83 +/- 11%; P < 0.05) as well as a reduced production of hydrogen peroxide in both cell lines compared to control. CONCLUSION: In contrast to nitrous oxide, xenon preserves neutrophil and monocyte antibacterial capacity in vitro.

The effect of isoflurane on neutrophil selectin and beta(2)-integrin activation in vitro.

UNLABELLED: Isoflurane is reported to reduce ischemia-reperfusion injury. Lower expression of CD11b may be responsible for attenuated postischemic neutrophil adhesion to vascular endothelium. However, neutrophil adhesion to vascular endothelium is a multistep process involving several selectins and beta(2)-integrins. Therefore, we assessed whether isoflurane affects the activation of the selectins P-selectin glycoprotein ligand-1 (PSGL-1) and L-selectin and the beta(2)-integrins CD11a and CD11b. Whole blood was incubated for 60 min with 0.5 or 1 minimum alveolar anesthetic concentration (MAC) isoflurane. After incubation, neutrophils were activated with N-formyl-methionyl-leucyl-phenylalanine (FMLP) or phorbol-12-myristate-13-acetate (PMA). Activation of adhesion molecules was evaluated via flow cytometry, and 1 MAC isoflurane reduced the expression of CD11a in the unstimulated samples. After stimulation with FMLP and PMA, shedding of L-selectin was lower in the presence of isoflurane. Furthermore, 1 MAC isoflurane reduced FMLP-induced activation of CD11a and CD11b compared with unexposed blood samples. These results demonstrate that isoflurane affects the activation of three adhesion molecules involved in the multistep process of neutrophil recruitment. First, isoflurane inhibits the activation of L-selectin, which mediates the neutrophil tethering and rolling on the vascular endothelium. Second, isoflurane attenuates the activation of both beta(2)-integrins-CD11a and CD11b-which mediate firm adhesion and transendothelial migration. IMPLICATIONS: Adhesion of neutrophils to endothelial cells in reperfusion injury is mediated by different adhesion molecules. This study indicates that the inhibiting effect of isoflurane on neutrophil recruitment may be mediated by a decreased activation of the L-selectin and by attenuation of the activation of the beta(2)-integrins CD11a and CD11b.

Effect of halothane and isoflurane on binding of ADP- and TRAP-6- activated platelets to leukocytes in Whole blood.

BACKGROUND: Adhesion of activated platelets to neutrophils and monocytes has an important role in the regulation of inflammatory processes. This study investigates whether halothane and isoflurane affect binding of activated platelets to leukocytes in human whole blood. METHODS: Citrated whole blood was incubated for 60 min with either 1 or 2 minimum alveolar concentration (MAC) halothane or isoflurane. After stimulation with adenosine-5-diphosphate (ADP) or the thrombin receptor agonist protein TRAP-6, platelet-leukocyte adhesion and surface expression of CD62P on platelets were evaluated by flow cytometry. RESULTS: Halothane led to an inhibition of agonist-induced adhesion of activated platelets to neutrophils and monocytes. One MAC halothane reduced the formation of TRAP-6-induced platelet-monocyte conjugates. After exposure to 2 MAC halothane, agonist-induced platelet-monocyte and platelet-neutrophil adhesion were inhibited. Surface expression of CD62P on ADP- and TRAP-6-stimulated platelets were significantly reduced after 1 and 2 MAC halothane. After 2 MAC isoflurane, the authors observed an increase of the percentage of lymphocytes with bound platelets after activation with ADP. The percentage of neutrophils with bound platelets after activation with ADP or TRAP-6 was also increased in this group. Two MAC isoflurane led to an increase of the percentage of platelets expressing CD62P in the unstimulated and TRAP-6 stimulated samples, and of the amount of CD62P epitopes on the surface of platelets in the ADP-stimulated samples. CONCLUSION: This study indicates that halothane inhibits, whereas isoflurane enhances, adhesion of agonist-activated platelets to leukocytes. Interaction of both anesthetics with the expression of CD62P on platelets contribute to theses effects.