Metallographic evaluation of the weldability of high strength aluminium alloys using friction spot welding

Friction spot welding is a recent solid-state welding technique well suited for spot-joining lightweight materials in overlap condition. Aerospace and transport industries show great interest in this technique to join high-strength aluminium alloys, but published research is still limited. In this project, the link between process parameters and weld quality is investigated for EN AW-7075-T6 material. Techniques used are metallographic qualification, measurement of hardness reduction and lap shear strength. This paper focusses on the metallographic investigation of the weld region and its imperfections. Increasing joining time and heat input creates an easier material flow resulting in fewer imperfections. Limited plunge depths lead to typical interface imperfections. Variation in the rotational speed shows distinctive stir zone shapes as a consequence of severe stirring and frictional heat

Chronic intestinal pseudo-obstruction in a Bernese Mountain Dog

Chronic Intestinal Pseudo-Obstruction (CIPO) is a rare syndrome characterized by chronic intestinal dilation and dysmotility in the absence of mechanical obstruction. A definite diagnosis of CIPO can only be made after histological examination of intestinal tissues. The present case describes a CIPO in a 2.5-year-old Bernese Mountain dog with a history of recurrent gastro-intestinal complaints suggestive for pseudo-obstruction. Histological lesions of small intestinal samples consisted of severe loss of smooth muscle cells of the tunica muscularis and diffuse infiltration of mononuclear cells. In addition, a hypertrophy of the lamina muscularis mucosa of the small intestinal tract was present. On the basis of these findings and the results of immunohistochemistry, a myopathic form of CIPO was diagnosed

Preanalytical classical and alternative complement pathway activity loss

Introduction: Complement functional analyses provide insight into the integrity of the entire complement reaction cascade. These tests are suitable for investigating suspected complement deficiencies. Falsely reduced test outcomes may result from preanalytical instabilities of individual complement components. To generate rationale for this or potential alternative practices, this study aimed to extend the knowledge on the preanalytical stability of widely used tests to screen the complement system. We assessed the influence of time, temperature and EDTA on classical (CH50) and alternative pathway (AP50) functional assay test results. Materials and methods: We used nephelometric (C3d) and immunofixation (C3c) techniques to support the investigation of the preanalytical phase of basic complement system activity tests. Quantitative determination of classical and alternative pathway function was performed with a haemolytic activity assay and a C5b-9 neo-epitope ELISA-based assay respectively. Blood of five healthy volunteers was sampled and complement components allowed to degrade under different conditions. Results: CH50 and AP50 remain stable for approximately one week in serum samples incubated on ice. CH50 activity decreased almost twice as fast in EDTA plasma compared to serum at room temperature. AP50 activity contrastingly, decreased twice as slow in EDTA plasma compared to serum at room temperature. Conclusion: Serum on ice remains the preferred specimen for functional complement analyses. In the absence of serum transported on ice, serum kept at room temperature (not exceeding 24h) is suitable for classical and alternative pathway analyses. For alternative pathway analyses specifically, the C3-stabilising effect of EDTA allows for the extended use of EDTA plasma (not over 4 days). In these conditions, at least 85% of baseline complement activity remains

Neonatal foal death due to infection with equine arteritis virus in Belgium

This case report describes a small outbreak of neonatal foal death in Belgium due to infection with equine arteritis virus (EAV). The outbreak started with one foal suffering from acute dyspnea four days after birth. Despite intensive treatment, this foal died within a few hours. Three weeks later, another foal was born on the same farm in a healthy condition, although placental edema was found. At the age of 10 days, the foal showed acute respiratory distress and severe dyspnea and died shortly after. Post-mortem examination of both foals revealed consolidated diaphragmatic lung lobes with compensatory emphysema. Histologic lesions consisted of a mild acute interstitial pneumonia. Microscopic examination of the allantochorion from the second foal showed a focal necrotizing vasculitis, and immunolabeling demonstrated the presence of EAV antigens in chorionic vascular endothelial cells and macrophages. Upon inoculation of rabbit kidney (RK13) cell culture with a suspension of lung tissue, a cytopathic effect was observed. The agent was identified as equine arteritis virus by means of immunostainings

Impact of lipids and lipoproteins on hepatitis C virus infection and virus neutralization

Hepatitis C virus (HCV) infections represent a major global health problem. End-stage liver disease caused by chronic HCV infection is a major indication for liver transplantation. However, after transplantation the engrafted liver inevitably becomes infected by the circulating virus. Direct acting antivirals are not yet approved for use in liver transplant patients, and limited efficacy and severe side effects hamper the use of pegylated interferon combined with ribavirin in a post-transplant setting. Therefore, alternative therapeutic options need to be explored. Viral entry represents an attractive target for such therapeutic intervention. Understanding the mechanisms of viral entry is essential to define the viral and cellular factors involved. The HCV life cycle is dependent of and associated with lipoprotein physiology and the presence of lipoproteins has been correlated with altered antiviral efficacy of entry inhibitors. In this review, we summarise the current knowledge on how lipoprotein physiology influences the HCV life cycle. We focus especially on the influence of lipoproteins on antibodies that target HCV envelope proteins or antibodies that target the cellular receptors of the virus. This information can be particularly relevant for the prevention of HCV re-infection after liver transplantation

Development and characterization of a human monoclonal antibody for prevention of HCV recurrence in liver transplant patients

More than 170 million people worldwide are chronically infected with hepatitis C virus (HCV) and are at risk of developing liver fibrosis, cirrhosis and hepatocellular carcinoma. Liver transplantation is the only option for patients with HCV-induced end-stage liver diseases. Nevertheless, infection of the newly grafted liver occurs immediately and universally after transplantation. Despite the recent progress in HCV therapy, a prophylactic vaccine is still not available. The role of neutralizing monoclonal antibodies (mAbs) in protection from different viral infections including HCV, HIV and Ebola has been reported. In the last few years, several mAbs with neutralizing activity have been described but only few mAbs have been evaluated in vivo. In the present study, we describe the development of a mAb, designated 2A5, isolated from HCV genotype 1b chronic patient. ELISA results indicated high affinity of mAb 2A5 towards HCV envelope glycoprotein (E1E2). The binding activity was completely lost against denatured E1E2 protein indicating that it targets a conformational epitope within the envelope region. Epitope mapping using alanine mutants of E1E2 proteins defined critical binding residues within the regions 419-447 and 612-617. Results of pseudoparticles (HCVpp) and cell culture produced virus (HCVcc) neutralization showed broad neutralizing activity of mAb 2A5 against all HCV genotypes. The efficacy study of mAb 2A5 in immune-deficient mice of which the liver is repopulated with human hepatocytes (humanized mice) showed complete protection from HCV challenge for genotypes 1a and 4a, while partial protection was achieved for genotypes 1b and 6a. Sequence analysis of E1E2 protein from non-protected mice did not revealed resistance mutations at interaction residues of mAb 2A5. In conclusion, mAb 2A5 shows potent anti-HCV neutralizing activity both in vitro and in vivo and could hence provide an effective strategy to prevent HCV recurrence in chronically infected HCV liver transplant patients. In addition, the broad neutralizing activity of this mAb presents a valuable epitope for the design of HCV vaccine with cross-protection activity

Tracking HCV protease population diversity during transmission and susceptibility of founder populations to antiviral therapy

Due to the highly restricted species-tropism of Hepatitis C virus (HCV) a limited number of animal models exist for pre-clinical evaluation of vaccines and antiviral compounds. The human-liver chimeric mouse model allows heterologous challenge with clinically relevant strains derived from patients. However, to date, the transmission and longitudinal evolution of founder viral populations in this model have not been characterized in-depth using state-of-the-art sequencing technologies. Focusing on NS3 protease encoding region of the viral genome, mutant spectra in a donor inoculum and individual recipient mice were determined via Illumina sequencing and compared, to determine the effects of transmission on founder viral population complexity. In all transmissions, a genetic bottleneck was observed, although diverse viral populations were transmitted in each case. A low frequency cloud of mutations ( 1% restricted to a subset of nucleotides. The population of SNVs >1% was reduced upon transmission while the low frequency SNV cloud remained stable. Fixation of multiple identical synonymous substitutions was apparent in independent transmissions, and no evidence for reversion of T-cell epitopes was observed. In addition, susceptibility of founder populations to antiviral therapy was assessed. Animals were treated with protease inhibitor (PI) monotherapy to track resistance associated substitution (RAS) emergence. Longitudinal analyses revealed a decline in population diversity under therapy, with no detectable RAS >1% prior to therapy commencement. Despite inoculation from a common source and identical therapeutic regimens, unique RAS emergence profiles were identified in different hosts prior to and during therapeutic failure, with complex mutational signatures at protease residues 155, 156 and 168 detected. Together these analyses track viral population complexity at high-resolution in the human-liver chimeric mouse model post-transmission and under therapeutic intervention, revealing novel insights into the evolutionary processes which shape viral protease population composition at various critical stages of the viral life-cycle

The incidence of multidrug and full class resistance in HIV-1 infected patients is decreasing over time (2001–2006) in Portugal

Despite improvements in HIV treatment, the prevalence of multidrug resistance and full class resistance is still reported to be increasing. However, to investigate whether current treatment strategies are still selecting for multidrug and full class resistance, the incidence, instead of the prevalence, is more informative. Temporal trends in multidrug resistance (MDR defined as at most 1 drug fully susceptible) and full class resistance (FCR defined as no drug in this class fully susceptible) in Portugal based on 3394 viral isolates genotyped from 2000 to 2006 were examined using the Rega 6.4.1 interpretation system. From July 2001 to July 2006 there was a significant decreasing trend of MDR with 5.7%, 5.2%, 3.8%, 3.4% and 2.7% for the consecutive years (P = 0.003). Multivariate analysis showed that for every consecutive year the odds of having a new MDR case decreased with 20% (P = 0.003). Furthermore, a decline was observed for NRTI- and PI-FCR (both P < 0.001), whereas for NNRTI-FCR a parabolic trend over time was seen (P < 0.001), with a maximum incidence in 2003–'04. Similar trends were obtained when scoring resistance for only one drug within a class or by using another interpretation system. In conclusion, the incidence of multidrug and full class resistance is decreasing over time in Portugal, with the exception of NNRTI full class resistance which showed an initial rise, but subsequently also a decline. This is most probably reflecting the changing drug prescription, the increasing efficiency of HAART and the improved management of HIV drug resistance. This work was presented in part at the Eighth International Congress on Drug Therapy in HIV Infection, Glasgow (UK), 12-16 November 2006 (PL5.5); and at the Fifth European HIV Drug Resistance Workshop, Cascais (Portugal), 28-30 March 2007 (Abstract 1)