Damien Portevin
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Explore the profile of Damien Portevin including associated specialties, affiliations and a list of published articles.
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29
Citations
764
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Recent Articles
1.
Tschan Y, Sasamalo M, Hiza H, Fellay J, Gagneux S, Reither K, et al.
Microbiol Spectr
. 2024 May;
12(6):e0042624.
PMID: 38717151
Importance: There is an urgent need for a non-sputum-based diagnostic tool allowing sensitive and specific detection of all forms of tuberculosis (TB) infections. In that context, we performed a case-control...
2.
Hiza H, Zwyer M, Hella J, Arbues A, Sasamalo M, Borrell S, et al.
Sci Rep
. 2024 Apr;
14(1):9287.
PMID: 38653771
The Mycobacterium tuberculosis complex (MTBC) comprises nine human-adapted lineages that differ in their geographical distribution. Local adaptation of specific MTBC genotypes to the respective human host population has been invoked...
3.
Osei-Wusu S, Tetteh J, Musah A, Ntiamoah D, Arthur N, Adjei A, et al.
Front Cell Infect Microbiol
. 2023 Aug;
13:1163993.
PMID: 37645380
Background: The epidemiology of complex (MTBC) lineage 5 (L5) infections in Ghana revealed a significantly increased prevalence in Ewes compared to other self-reported ethnic groups. In that context, we sought...
4.
Zwyer M, Rutaihwa L, Windels E, Hella J, Menardo F, Sasamalo M, et al.
PLoS Pathog
. 2023 Apr;
19(4):e1010893.
PMID: 37014917
In settings with high tuberculosis (TB) endemicity, distinct genotypes of the Mycobacterium tuberculosis complex (MTBC) often differ in prevalence. However, the factors leading to these differences remain poorly understood. Here...
5.
Hiza H, Hella J, Arbues A, Sasamalo M, Misana V, Fellay J, et al.
Front Med (Lausanne)
. 2022 May;
9:821776.
PMID: 35492319
T cell activation markers (TAM) expressed by antigen-specific T cells constitute promising candidates to attest the presence of an active infection by (). Reciprocally, their modulation may be used to...
6.
Vaezipour N, Fritschi N, Brasier N, Belard S, Dominguez J, Tebruegge M, et al.
Pathogens
. 2022 Mar;
11(3).
PMID: 35335651
In childhood tuberculosis (TB), with an estimated 69% of missed cases in children under 5 years of age, the case detection gap is larger than in other age groups, mainly...
7.
Xu Z, Rueger S, Zwyer M, Brites D, Hiza H, Reinhard M, et al.
PLoS Comput Biol
. 2022 Jan;
18(1):e1009628.
PMID: 35025869
Genome-wide association studies rely on the statistical inference of untyped variants, called imputation, to increase the coverage of genotyping arrays. However, the results are often suboptimal in populations underrepresented in...
8.
Arbues A, Schmidiger S, Kammuller M, Portevin D
Front Immunol
. 2021 Oct;
12:727508.
PMID: 34603299
Several cellular models have been developed with the aim to reproduce and dissect human granulomatous responses, the hallmark of tuberculosis (TB) immunopathogenesis. In that context, we compared two- (2D) three-dimensional...
9.
Hiza H, Hella J, Arbues A, Magani B, Sasamalo M, Gagneux S, et al.
Sci Rep
. 2021 Jun;
11(1):13190.
PMID: 34162973
CD4 T cell phenotyping-based blood assays have the potential to meet WHO target product profiles (TPP) of non-sputum-biomarker-based tests to diagnose tuberculosis (TB). Yet, substantial refinements are required to allow...
10.
Arbues A, Kammuller M, Portevin D
Bio Protoc
. 2021 Mar;
10(22):e3820.
PMID: 33659472
Granulomas are organized multicellular structures that constitute the hallmark of an infection by the human pathogen A better understanding of the complex host- interactions within the granuloma's environment may lead...