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1.
Front Microbiol ; 9: 911, 2018.
Article in English | MEDLINE | ID: mdl-29867822

ABSTRACT

Sepsis is the leading cause of death among patients in intensive care units (ICUs) requiring an early diagnosis to introduce efficient therapeutic intervention. Rapid identification (ID) of a causative pathogen is key to guide directed antimicrobial selection and was recently shown to reduce hospitalization length in ICUs. Direct processing of positive blood cultures by MALDI-TOF MS technology is one of the several currently available tools used to generate rapid microbial ID. However, all recently published protocols are still manual and time consuming, requiring dedicated technician availability and specific strategies for batch processing. We present here a new prototype instrument for automated preparation of Vitek®MS slides directly from positive blood culture broth based on an "all-in-one" extraction strip. This bench top instrument was evaluated on 111 and 22 organisms processed using artificially inoculated blood culture bottles in the BacT/ALERT® 3D (SA/SN blood culture bottles) or the BacT/ALERT VirtuoTM system (FA/FN Plus bottles), respectively. Overall, this new preparation station provided reliable and accurate Vitek MS species-level identification of 87% (Gram-negative bacteria = 85%, Gram-positive bacteria = 88%, and yeast = 100%) when used with BacT/ALERT® 3D and of 84% (Gram-negative bacteria = 86%, Gram-positive bacteria = 86%, and yeast = 75%) with Virtuo® instruments, respectively. The prototype was then evaluated in a clinical microbiology laboratory on 102 clinical blood culture bottles and compared to routine laboratory ID procedures. Overall, the correlation of ID on monomicrobial bottles was 83% (Gram-negative bacteria = 89%, Gram-positive bacteria = 79%, and yeast = 78%), demonstrating roughly equivalent performance between manual and automatized extraction methods. This prototype instrument exhibited a high level of performance regardless of bottle type or BacT/ALERT system. Furthermore, blood culture workflow could potentially be improved by converting direct ID of positive blood cultures from a batch-based to real-time and "on-demand" process.

2.
J Biomed Mater Res A ; 93(4): 1322-34, 2010 Jun 15.
Article in English | MEDLINE | ID: mdl-19859973

ABSTRACT

Using a strategy of macromolecular assembly, a colloidal vaccine delivery system was obtained from chitosan and dextran sulfate and loaded with an antigenic protein (p24, the capsid protein of HIV-1). The colloidal polyelectrolyte complexes (PECs) were obtained by charge neutralization of the polyanion and polycation at a charge ratio (n(+)/n(-)) of 2 (CHDS). The conditions of assembly were tuned to maintain the colloidal properties of the carrier in high salt environment. The relative molar masses of the two polyions and the degree of acetylation (DA) of chitosan were essential parameters to achieve this goal, and this could be related to the nanometric scale organization of the colloids observed by Small Angle X-rays Scattering experiments. The binding of p24 to the colloidal carrier was achieved and the release of the antigen was investigated. Antigen presenting cells [dendritic cells (DCs)], obtained from monocytes, could internalize the colloids. Immature DCs (iDCs) were not matured by the colloidal PECs either loaded or not loaded with p24, as proved by Fluorescent Activated Cell Sorting (FACS) analysis. Despite this lack of in vitro interaction, a specific immune response was observed in mice with a high production of antibodies, after subcutaneous injection. The analysis of the interleukin production shows that both the cellular and the humoral responses were stimulated. This work brings a physico-chemical insight on polysaccharide-based antigen delivery systems and opens up new perspectives for their use as vaccine carriers.


Subject(s)
Antigen-Presenting Cells/cytology , Macromolecular Substances/chemistry , Polysaccharides/chemistry , Vaccination/methods , AIDS Vaccines/chemistry , Animals , Chitosan/chemistry , Electrolytes , Female , Mice , Mice, Inbred BALB C , Nanoparticles/chemistry , Nanotechnology/methods , Particle Size , Scattering, Radiation
3.
Vaccine ; 25(43): 7491-501, 2007 Oct 23.
Article in English | MEDLINE | ID: mdl-17904700

ABSTRACT

Biodegradable nanoparticles coated with proteins represent a promising method for in vivo delivery of vaccines. Here we used a rabbit model to compare quantitatively and qualitatively the antibody responses induced by poly(D,L-lactide) nanoparticles (PLA) and by emulsion adjuvant MF59 using three HIV-1 antigens: p24gag, WT Tat and a mutated, detoxified form of Tat. We could show that all antigens and adjuvants lead to the induction of similar level of IgG titres in serum when injected subcutaneously. p24, but not Tat, could also induce faecal IgG in rabbits when formulated with PLA or MF59. The nature of the adjuvant had consequences on the spectrum of specificity induced, depending on the antigen: PLA adjuvant focussed the anti-p24 response to an immunodominant domain when compared to MF59. With wild-type Tat, no difference between adjuvants was observed in the spectrum of specificity induced. On the opposite, detoxified Tat coated on PLA increased the number of epitopes recognized by serum IgG compared to MF59 adjuvantation. The impact of these qualitative differences depending on the antigen/adjuvant associations will be important to take into account for further designs of vaccinal formulation using particulate adjuvants.


Subject(s)
Gene Products, tat/immunology , HIV Core Protein p24/immunology , HIV-1/immunology , Polyesters/chemistry , Polysorbates/chemistry , Squalene/chemistry , AIDS Vaccines/chemistry , AIDS Vaccines/immunology , Adjuvants, Immunologic/chemistry , Animals , Antibodies, Viral/analysis , Antibodies, Viral/blood , Antibody Formation/immunology , Enzyme-Linked Immunosorbent Assay , Feces/chemistry , HIV-1/metabolism , Nanoparticles/chemistry , Rabbits
5.
J Control Release ; 115(1): 57-67, 2006 Sep 28.
Article in English | MEDLINE | ID: mdl-16919350

ABSTRACT

Biodegradable micro- or nanoparticles with surface adsorbed antigens represent a promising method for in vivo delivery of vaccines. Most vaccines, licensed or under development, are based on combined delivery of multiple antigens. Thus, we investigated the feasibility of combining two vaccine antigens, HIV-1 p24 and gp120 proteins, on the surface of surfactant-free anionic PLA nanoparticles obtained by an improved solvent diffusion method. The analysis of adsorption isotherms has shown that both proteins had similar and high affinities for the nanoparticles. Coadsorption of p24 and gp120 onto the same PLA particle was evidenced by sandwich ELISA, using antibodies directed against one protein for particle capture and the other one for detection. To assess structural integrity, the antigenicity of free and PLA-adsorbed antigens was compared by competition ELISA, using a set of 6 anti-p24 and 7 anti-gp120 antibodies, as well as soluble CD4. The antigenicity of proteins on the nanoparticle surface was well preserved, adsorbed either individually or in combination. Furthermore, both antigens maintained their immunogenicity, since high antibody titres (10(6) for p24 and 10(5) for gp120) were elicited in mice with monovalent and divalent PLA formulations. Taken together our results show that development of multivalent vaccines based on anionic PLA nanoparticles is possible. Moreover, coadsorption of a ligand for cell-specific targeting or of an immunostimulatory molecule will further extend the field of application of delivery systems based on charged micro- and nanoparticles.


Subject(s)
AIDS Vaccines/administration & dosage , AIDS Vaccines/immunology , HIV Core Protein p24/administration & dosage , HIV Core Protein p24/immunology , HIV Envelope Protein gp120/administration & dosage , HIV Envelope Protein gp120/immunology , Adsorption , Animals , Anions , Antibody Specificity , Binding, Competitive , Enzyme-Linked Immunosorbent Assay , Epitopes/immunology , Escherichia coli/genetics , Female , Immunization , Lactic Acid , Mice , Mice, Inbred BALB C , Molecular Weight , Nanostructures , Particle Size , Polyglycolic Acid , Polylactic Acid-Polyglycolic Acid Copolymer , Polymers , Recombinant Proteins/administration & dosage , Recombinant Proteins/immunology , Thermodynamics
6.
J Control Release ; 112(2): 175-85, 2006 May 15.
Article in English | MEDLINE | ID: mdl-16563545

ABSTRACT

Microparticles and nanoparticles prepared with poly(D,L-lactide-co-glycolide) (PLGA) or poly(D,L-lactide) (PLA) polymers represent a promising method for in vivo delivery of encapsulated peptide, protein or DNA antigens. However, one major issue that limits the potential of these delivery systems is the instability or the degradation of the entrapped antigen. Charged microparticles carrying surface adsorbed antigen were developed to resolve this problem and appear more suitable for vaccine applications. We describe here new anionic PLA nanoparticles obtained by the dialysis method that are absolutely surfactant-free, which makes them more appropriate for use in humans. The potency of this delivery system as a vaccine carrier was tested in various animal models using HIV-1 p24 protein. p24-coated PLA nanoparticles (p24/PLA) induced high antibody titres (>10(6)) in mice, rabbits and macaques. Moreover, p24/PLA nanoparticles elicited strong CTL responses and a Th1-biased cytokine release (IFNgamma, IL-2) in mice. p24 protein seemed to generate a more Th1-oriented response when administered coated onto the surface of PLA nanoparticles than adjuvanted with Freund's adjuvant. Most importantly, the ability of p24/PLA particles to induce Th1 responses was also confirmed in the macaque model, since high levels of IFNgamma-producing CD4+ T cells and CD8+ T cells could be detected by the ELISPOT assay. This protein delivery system confirms the potential of charged nanoparticles in the field of vaccine development.


Subject(s)
Antibody Formation/drug effects , Drug Delivery Systems , HIV Core Protein p24 , Immunity, Cellular/drug effects , Nanostructures , Polyesters/chemistry , Animals , Anions , Cytokines/metabolism , Drug Stability , Female , HIV Core Protein p24/administration & dosage , HIV Core Protein p24/chemistry , HIV Core Protein p24/pharmacology , Macaca fascicularis , Male , Mice , Mice, Inbred BALB C , Rabbits , Recombinant Proteins/administration & dosage , Recombinant Proteins/chemistry , Recombinant Proteins/pharmacology , Surface-Active Agents/chemistry , T-Lymphocytes/drug effects , T-Lymphocytes/immunology , T-Lymphocytes/metabolism , Vaccination/methods
7.
Bioconjug Chem ; 17(1): 6-14, 2006.
Article in English | MEDLINE | ID: mdl-16417246

ABSTRACT

The synthesis of a series of water-soluble galactopyranose-functionalized polystyrene-polyvinyl ether dendrigrafts and their characterization (in solution and thin solid deposits) have been achieved. The presence of external galactopyranose groups on dendritic polymers has been exploited to prepare dendrigraft-oligonucleotide conjugates using a simple one-step coupling procedure with amino-ended oligonucleotides (ODNs). Several parameters such as the peripherical density of hydrophilic branches, the polymerization degree of polystyrene or poly(hydroxyethyl vinyl ether) blocks, and the number of galactopyranose groups were tuned. A capture test with short labeled complementary ODNs (25 bases) confirmed the presence of covalently bound ODNs on various kinds of dendrigrafts. The ability of the dendritic polymers to enhance the sensitivity of enzyme-linked oligosorbent assay (ELOSA) diagnostic tests (detection of hepatitis B virus, DNA target of 2400 bases) was then evaluated, especially the influence of the macromolecular architecture and the impact of the structural parameters. The dendrigraft-ODN conjugate with the lower saccharide external density was found to lead to a very significant amplification of the fluorescence signal, corresponding to a limit of sensitivity of 10(9) DNA copies per milliliter (instead of 10(11) DNA copies per milliliter without using dendrigrafts). Conversely, the dendrigrafts exhibiting a very high number of branches and galactopyranose groups at their periphery were not able to induce a better sensitivity due to steric hindrance generated by the peripheral congestion on these polymers.


Subject(s)
Dendrimers/chemical synthesis , Galactose/chemistry , Molecular Probe Techniques , Oligonucleotide Probes/chemical synthesis , Dendrimers/chemistry , Ethers/chemistry , Polystyrenes/chemistry , Solubility , Vinyl Compounds/chemistry , Water
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