Your search keyword '"Al Khoury H"' showing total 7 results

1. Prospective survey of acute osteoarticular infections in a French paediatric orthopedic surgery unit

Author

Ferroni, A., Al Khoury, H., Dana, C., Quesne, G., Berche, P., Glorion, C., and Péjin, Z.

Published

2013

2. Multiple sclerosis immunopathic trait and HLA-DR(2)15 as independent risk factors in multiple sclerosis

Author

Callander, Margarita, Haghighi, S., Landtblom, Anne-Marie, Ahlgren, C. E., Nilsson, S. I., Rydberg, L., Al Khoury, H., Rosengren, L., Andersen, O., Callander, Margarita, Haghighi, S., Landtblom, Anne-Marie, Ahlgren, C. E., Nilsson, S. I., Rydberg, L., Al Khoury, H., Rosengren, L., and Andersen, O.

Abstract

We analysed HLA haplotypes in pairs of 78 sporadic multiple sclerosis (MS) patients and 78 healthy siblings. The presence of 2 oligoclonal IgG bands, detected by immunoblotting of the cerebrospinal fluid in healthy siblings, has previously been defined as MS immunopathic trait (MSIT), based on a cut-off derived from healthy unrelated volunteers. The frequency of MSIT was 17.9% (n=14/78 siblings). The HLA-DR(15)2 allelle was present in 21.4% (n=3/14) of the siblings with MSIT, in 40.6% (n =26/64) of the siblings without MSIT, and in 59% (n =46/78) of the patients with clinically-definite (CD) MS. The distribution of zero, one or two HLA-DR(2)15 alleles was significantly skewed towards a lower allelle count in the siblings with MSIT compared with the group of unrelated siblings with MS (P=0.002), and also lower than their related siblings with MS (P=0.1). These results suggest that the MS susceptibility gene, HLA-DR(2)15 type, does not induce MSIT, and conceivably these are two separate risk factors in the development of MS. The effect of HLA-DR(2)15 and MSIT in sporadic MS appears to be synergistic.

Published

2007

3. Multiple sclerosis immunopathic trait and HLA-DR(2)15 as independent risk factors in multiple sclerosis

Author

Callander, M., primary, Haghighi, S., additional, Landtblom, A.-M., additional, Ahlgren, C.E., additional, Nilsson, S.I., additional, Rydberg, L., additional, Al Khoury, H., additional, Rosengren, L., additional, and Andersen, O., additional

Published

2007

4. Antimicrobial and Anti-inflammatory Gallium-Defensin Surface Coatings for Implantable Devices.

Author

Divakarla SK, Das T, Chatterjee C, Ionescu M, Pastuovic Z, Jang JH, Al-Khoury H, Loppnow H, Yamaguchi S, Groth T, and Chrzanowski W

Subjects

Anti-Bacterial Agents pharmacology, Anti-Inflammatory Agents pharmacology, Biofilms, Coated Materials, Biocompatible pharmacology, Defensins pharmacology, Surface Properties, Anti-Infective Agents pharmacology, Gallium pharmacology

Abstract

Emerging and re-emerging infections are a global threat driven by the development of antimicrobial resistance due to overuse of antimicrobial agents and poor infection control practices. Implantable devices are particularly susceptible to such infections due to the formation of microbial biofilms. Furthermore, the introduction of implants into the body often results in inflammation and foreign body reactions. The antimicrobial and anti-inflammatory properties of gallium (Ga) have been recognized but not yet utilized effectively to improve implantable device integration. Furthermore, defensin (De, hBD-1) has potent antimicrobial activity in vivo as part of the innate immune system; however, this has not been demonstrated as successfully when used in vitro. Here, we combined Ga and De to impart antimicrobial activity and anti-inflammatory properties to polymer-based implantable devices. We fabricated polylactic acid films, which were modified using Ga implantation and subsequently functionalized with De. Ga-ion implantation increased surface roughness and increased stiffness. Ga implantation and defensin immobilization both independently and synergistically introduced antimicrobial activity to the surfaces, significantly reducing total live bacterial biomass. We demonstrated, for the first time, that the antimicrobial effects of De were unlocked by its surface immobilization. Ga implantation of the surface also resulted in reduced foreign body giant cell formation and expression of proinflammatory cytokine IL-1β. Cumulatively, the treated surfaces were able to kill bacteria and reduce inflammation in comparison to the untreated control. These innovative surfaces have the potential to prevent biofilm formation without inducing cellular toxicity or inflammation, which is highly desired for implantable device integration.

Published

2022

5. Anti-inflammatory Surface Coatings Based on Polyelectrolyte Multilayers of Heparin and Polycationic Nanoparticles of Naproxen-Bearing Polymeric Drugs.

Author

Al-Khoury H, Espinosa-Cano E, Aguilar MR, Román JS, Syrowatka F, Schmidt G, and Groth T

Subjects

Anti-Inflammatory Agents pharmacology, Cell Adhesion drug effects, Cell Line, Chitosan chemistry, Coated Materials, Biocompatible chemistry, Heparin pharmacology, Humans, Inflammation drug therapy, Inflammation metabolism, Interleukin-1beta metabolism, Macrophages drug effects, Macrophages metabolism, Naproxen pharmacology, Polymers chemistry, Polystyrenes chemistry, Surface Properties drug effects, Anti-Inflammatory Agents chemistry, Heparin chemistry, Nanoparticles chemistry, Naproxen chemistry, Polyelectrolytes chemistry

Abstract

Immune response to biomaterials can produce chronic inflammation and fibrosis leading to implant failure, which is related to the surface properties of the biomaterials. This work describes the preparation and characterization of polyelectrolyte multilayer (PEM) coatings that combine the anti-inflammatory activity of heparin as polyanion with the potential release of Naproxen, a nonsteroidal anti-inflammatory drug from polymeric nanoparticles (NP) with cationic surface charge. The polyelectrolyte multilayers were characterized by physical methods to estimate multilayer growth, thickness, zeta potential, and topography. It was found that multilayers with NP had negative zeta potentials and expressed a viscoelastic behavior, while studies of topography showed that nanoparticles formed continuous surface coatings. THP-1-derived macrophages were used to study short-term anti-inflammatory activity (time scale 48 h), showing that PEM that contained heparin reduced cell adhesion and IL1-β secretion, when compared to those with polystyrenesulfonate, used as alternative polyanion in multilayer formation. On the other hand, the presence of NP in PEM was related to a reduced foreign body giant cell formation after 15 days, when compared to PEM that contained chitosan as alternative polycation, which suggests a long-term anti-inflammatory effect of Naproxen-containing nanoparticles. It was also shown that macrophages were able to take up NP from multilayers, which indicates a release of Naproxen by digestion of NP in the lysosomal compartment. These findings indicate that surface coatings composed of heparin and Naproxen-based NP on implants such as biosensors have the potential to attenuate foreign body reaction after implantation, which may improve the long-term functionality of implants.

Published

2019

6. Covalent immobilization of glycosaminoglycans to reduce the inflammatory effects of biomaterials.

Author

Zhou G, Al-Khoury H, and Groth T

Subjects

Artificial Organs adverse effects, Cells, Cultured, Equipment and Supplies adverse effects, Humans, Inflammation etiology, Macrophages drug effects, Macrophages metabolism, Materials Testing, Th1 Cells drug effects, Th1 Cells metabolism, Biocompatible Materials adverse effects, Glycosaminoglycans pharmacology, Inflammation prevention & control, Prostheses and Implants adverse effects, Surface Properties

Abstract

Background: The inflammatory responses evoked by artificial organs and implantation of devices like biosensors and guide wires can lead to acute and chronic inflammation, largely limiting the functionality and longevity of the devices with negative effects on patients., Aims: The present study aimed to reduce the inflammatory responses to biomaterials by covalent immobilization of glycosaminoglycans (GAGs) on amino-terminated surfaces used as model biomaterials here., Methods and Results: Water contact angle (WCA) and zeta potential measurements showed a significant increase in wettability and negative charges on the GAG-modified surfaces, respectively, confirming the successful immobilization of GAGs on the amino-terminated surfaces. THP-1-derived macrophages were used as a model cell type to investigate the efficacy of GAG-modified surfaces in modulating inflammatory responses. It was found that macrophage adhesion, macrophage spreading morphology, foreign body giant cell (FBGC) formation, as well as β1 integrin expression and interleukin-1β (IL-1β) production were all significantly decreased on GAG-modified surfaces compared to the initial amino-terminated surface., Conclusions: This study demonstrates the potential of covalent GAG immobilization to reduce the inflammatory potential of biomaterials in different clinical settings.

Published

2016

7. Multiple sclerosis immunopathic trait and HLA-DR(2)15 as independent risk factors in multiple sclerosis.

Author

Callander M, Haghighi S, Landtblom AM, Ahlgren CE, Nilsson SI, Rydberg L, Al Khoury H, Rosegren L, and Andersen O

Subjects

Adult, Female, HLA-DR Serological Subtypes, Humans, Male, Middle Aged, Multiple Sclerosis genetics, Reference Values, Risk Factors, Siblings, Genetic Predisposition to Disease, HLA-DR Antigens genetics, HLA-DR2 Antigen genetics, Multiple Sclerosis immunology

Abstract

We analysed HLA haplotypes in pairs of 78 sporadic multiple sclerosis (MS) patients and 78 healthy siblings. The presence of 2 oligoclonal IgG bands, detected by immunoblotting of the cerebrospinal fluid in healthy siblings, has previously been defined as MS immunopathic trait (MSIT), based on a cut-off derived from healthy unrelated volunteers. The frequency of MSIT was 17.9% (n=14/78 siblings). The HLA-DR(15)2 allelle was present in 21.4% (n=3/14) of the siblings with MSIT, in 40.6% (n =26/64) of the siblings without MSIT, and in 59% (n =46/78) of the patients with clinically-definite (CD) MS. The distribution of zero, one or two HLA-DR(2)15 alleles was significantly skewed towards a lower allelle count in the siblings with MSIT compared with the group of unrelated siblings with MS (P=0.002), and also lower than their related siblings with MS (P=0.1). These results suggest that the MS susceptibility gene, HLA-DR(2)15 type, does not induce MSIT, and conceivably these are two separate risk factors in the development of MS. The effect of HLA-DR(2)15 and MSIT in sporadic MS appears to be synergistic.

Published

2007