SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4311855695> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W4311855695 endingPage "8677" @default.
W4311855695 startingPage "8677" @default.
W4311855695 abstract "Leishmaniasis is the 3rd most challenging vector-borne disease after malaria and lymphatic filariasis. Currently, no vaccine candidate is approved or marketed against leishmaniasis due to difficulties in eliciting broad immune responses when using sub-unit vaccines. The aim of this work was the design of a particulate sub-unit vaccine for vaccination against leishmaniasis. The poly (D,L-lactide) nanoparticles (PLA-NPs) were developed in order to efficiently adsorb a recombinant L. major histone H2B (L. major H2B) and to boost its immunogenicity. Firstly, a study was focused on the production of well-formed nanoparticles by the nanoprecipitation method without using a surfactant and on the antigen adsorption process under mild conditions. The set-up preparation method permitted to obtain H2B-adsorbed nanoparticles H2B/PLA (adsorption capacity of about 2.8% (w/w)) with a narrow size distribution (287 nm) and a positive zeta potential (30.9 mV). Secondly, an in vitro release assay performed at 37 °C, pH 7.4, showed a continuous release of the adsorbed H2B for almost 21 days (30%) from day 7. The immune response of H2B/PLA was investigated and compared to H2B + CpG7909 as a standard adjuvant. The humoral response intensity (IgG) was substantially similar between both formulations. Interestingly, when challenged with the standard parasite strain (GLC94) isolated from a human lesion of cutaneous leishmaniasis, mice showed a significant reduction in footpad swelling compared to unvaccinated ones, and no deaths occurred until week 17th. Taken together, these results demonstrate that PLA-NPs represent a stable, cost-effective delivery system adjuvant for use in vaccination against leishmaniasis." @default.
W4311855695 created "2023-01-01" @default.
W4311855695 creator A5011347135 @default.
W4311855695 creator A5024041797 @default.
W4311855695 creator A5032870880 @default.
W4311855695 creator A5047017020 @default.
W4311855695 creator A5051701002 @default.
W4311855695 creator A5064631913 @default.
W4311855695 creator A5073088630 @default.
W4311855695 creator A5088291854 @default.
W4311855695 date "2022-12-08" @default.
W4311855695 modified "2023-09-26" @default.
W4311855695 title "Polylactide Nanoparticles as a Biodegradable Vaccine Adjuvant: A Study on Safety, Protective Immunity and Efficacy against Human Leishmaniasis Caused by Leishmania Major" @default.
W4311855695 cites W1158657002 @default.
W4311855695 cites W160911776 @default.
W4311855695 cites W1931661673 @default.
W4311855695 cites W1975123569 @default.
W4311855695 cites W1976344112 @default.
W4311855695 cites W1985147655 @default.
W4311855695 cites W1997188673 @default.
W4311855695 cites W1998872967 @default.
W4311855695 cites W2010312818 @default.
W4311855695 cites W2011892753 @default.
W4311855695 cites W2012813469 @default.
W4311855695 cites W2014050422 @default.
W4311855695 cites W2017725241 @default.
W4311855695 cites W2026833879 @default.
W4311855695 cites W2028615233 @default.
W4311855695 cites W2036744888 @default.
W4311855695 cites W2037381306 @default.
W4311855695 cites W2039112881 @default.
W4311855695 cites W2039151245 @default.
W4311855695 cites W2042984381 @default.
W4311855695 cites W2053183118 @default.
W4311855695 cites W2055881663 @default.
W4311855695 cites W2063569303 @default.
W4311855695 cites W2072263732 @default.
W4311855695 cites W2082522242 @default.
W4311855695 cites W2087032263 @default.
W4311855695 cites W2089716915 @default.
W4311855695 cites W2095233225 @default.
W4311855695 cites W2097727405 @default.
W4311855695 cites W2101817951 @default.
W4311855695 cites W2119703555 @default.
W4311855695 cites W2121496050 @default.
W4311855695 cites W2136173522 @default.
W4311855695 cites W2141360780 @default.
W4311855695 cites W2141696784 @default.
W4311855695 cites W2151545331 @default.
W4311855695 cites W2156852056 @default.
W4311855695 cites W2159187898 @default.
W4311855695 cites W2168930459 @default.
W4311855695 cites W2174626854 @default.
W4311855695 cites W2239959788 @default.
W4311855695 cites W2283047170 @default.
W4311855695 cites W2293820371 @default.
W4311855695 cites W2327261562 @default.
W4311855695 cites W2385321340 @default.
W4311855695 cites W2405642566 @default.
W4311855695 cites W2590360720 @default.
W4311855695 cites W2756541028 @default.
W4311855695 cites W2766652629 @default.
W4311855695 cites W2797802090 @default.
W4311855695 cites W2911146898 @default.
W4311855695 cites W2962115187 @default.
W4311855695 cites W3034515859 @default.
W4311855695 cites W3123698687 @default.
W4311855695 cites W4211073781 @default.
W4311855695 cites W4254554242 @default.
W4311855695 cites W4255943186 @default.
W4311855695 cites W4313343474 @default.
W4311855695 doi "https://doi.org/10.3390/molecules27248677" @default.
W4311855695 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36557812" @default.
W4311855695 hasPublicationYear "2022" @default.
W4311855695 type Work @default.
W4311855695 citedByCount "3" @default.
W4311855695 countsByYear W43118556952023 @default.
W4311855695 crossrefType "journal-article" @default.
W4311855695 hasAuthorship W4311855695A5011347135 @default.
W4311855695 hasAuthorship W4311855695A5024041797 @default.
W4311855695 hasAuthorship W4311855695A5032870880 @default.
W4311855695 hasAuthorship W4311855695A5047017020 @default.
W4311855695 hasAuthorship W4311855695A5051701002 @default.
W4311855695 hasAuthorship W4311855695A5064631913 @default.
W4311855695 hasAuthorship W4311855695A5073088630 @default.
W4311855695 hasAuthorship W4311855695A5088291854 @default.
W4311855695 hasBestOaLocation W43118556951 @default.
W4311855695 hasConcept C136764020 @default.
W4311855695 hasConcept C185592680 @default.
W4311855695 hasConcept C203014093 @default.
W4311855695 hasConcept C22070199 @default.
W4311855695 hasConcept C2776555147 @default.
W4311855695 hasConcept C2777863537 @default.
W4311855695 hasConcept C2778702967 @default.
W4311855695 hasConcept C2780868878 @default.
W4311855695 hasConcept C2781092759 @default.
W4311855695 hasConcept C41008148 @default.
W4311855695 hasConcept C71924100 @default.