Impact of immunopathology on the antituberculous activity of pyrazinamide

10.1084/jem.20180518

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Main Authors:	Blanc, L, Sarathy, J.P, Cabrera, N.A, O’Brien, P, Dias Freedman, I, Mina, M, Sacchettini, J, Savic, R.M, Gengenbacher, M, Podell, B.K, Prideaux, B, Ioerger, T, Dick, T, Dartois, V
Other Authors:	MEDICINE
Format:	Article
Published:	Rockefeller University Press 2020
Subjects:	pyrazinamide tuberculostatic agent animal cell animal experiment animal model animal tissue area under the curve Article bacterial load bactericidal activity blood sampling chronic disease colony forming unit controlled study DNA extraction drug blood level drug efficacy drug potency genetic heterogeneity human immune response immunocompetent cell immunopathology limit of detection lung lesion lung parenchyma matrix-assisted laser desorption-ionization mass spectrometry maximum concentration maximum plasma concentration minimum inhibitory concentration Mycobacterium tuberculosis nonhuman priority journal rabbit model tandem mass spectrometry treatment duration tuberculosis whole genome sequencing animal disease model drug effect female immunology Leporidae metabolism microbial viability microbiology necrosis neutrophil pathology physiology Animals Antitubercular Agents Disease Models, Animal Female Humans Microbial Viability Necrosis Neutrophils Pyrazinamide Rabbits Tuberculosis
Online Access:	https://scholarbank.nus.edu.sg/handle/10635/179024
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Institution:	National University of Singapore

id	sg-nus-scholar.10635-179024
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spelling	sg-nus-scholar.10635-1790242024-04-24T05:54:02Z Impact of immunopathology on the antituberculous activity of pyrazinamide Blanc, L Sarathy, J.P Cabrera, N.A O’Brien, P Dias Freedman, I Mina, M Sacchettini, J Savic, R.M Gengenbacher, M Podell, B.K Prideaux, B Ioerger, T Dick, T Dartois, V MEDICINE MICROBIOLOGY AND IMMUNOLOGY pyrazinamide pyrazinamide tuberculostatic agent animal cell animal experiment animal model animal tissue area under the curve Article bacterial load bactericidal activity blood sampling chronic disease colony forming unit controlled study DNA extraction drug blood level drug efficacy drug potency genetic heterogeneity human immune response immunocompetent cell immunopathology limit of detection lung lesion lung parenchyma matrix-assisted laser desorption-ionization mass spectrometry maximum concentration maximum plasma concentration minimum inhibitory concentration Mycobacterium tuberculosis nonhuman priority journal rabbit model tandem mass spectrometry treatment duration tuberculosis whole genome sequencing animal disease model drug effect female immunology Leporidae metabolism microbial viability microbiology necrosis neutrophil pathology physiology tuberculosis Animals Antitubercular Agents Disease Models, Animal Female Humans Microbial Viability Mycobacterium tuberculosis Necrosis Neutrophils Pyrazinamide Rabbits Tuberculosis 10.1084/jem.20180518 Journal of Experimental Medicine 215 8 1975-1986 2020-10-22T07:21:06Z 2020-10-22T07:21:06Z 2018 Article Blanc, L, Sarathy, J.P, Cabrera, N.A, O’Brien, P, Dias Freedman, I, Mina, M, Sacchettini, J, Savic, R.M, Gengenbacher, M, Podell, B.K, Prideaux, B, Ioerger, T, Dick, T, Dartois, V (2018). Impact of immunopathology on the antituberculous activity of pyrazinamide. Journal of Experimental Medicine 215 (8) : 1975-1986. ScholarBank@NUS Repository. https://doi.org/10.1084/jem.20180518 00221007 https://scholarbank.nus.edu.sg/handle/10635/179024 Attribution 4.0 International http://creativecommons.org/licenses/by/4.0/ Rockefeller University Press Unpaywall 20201031
institution	National University of Singapore
building	NUS Library
continent	Asia
country	Singapore Singapore
content_provider	NUS Library
collection	ScholarBank@NUS
topic	pyrazinamide pyrazinamide tuberculostatic agent animal cell animal experiment animal model animal tissue area under the curve Article bacterial load bactericidal activity blood sampling chronic disease colony forming unit controlled study DNA extraction drug blood level drug efficacy drug potency genetic heterogeneity human immune response immunocompetent cell immunopathology limit of detection lung lesion lung parenchyma matrix-assisted laser desorption-ionization mass spectrometry maximum concentration maximum plasma concentration minimum inhibitory concentration Mycobacterium tuberculosis nonhuman priority journal rabbit model tandem mass spectrometry treatment duration tuberculosis whole genome sequencing animal disease model drug effect female immunology Leporidae metabolism microbial viability microbiology necrosis neutrophil pathology physiology tuberculosis Animals Antitubercular Agents Disease Models, Animal Female Humans Microbial Viability Mycobacterium tuberculosis Necrosis Neutrophils Pyrazinamide Rabbits Tuberculosis
spellingShingle	pyrazinamide pyrazinamide tuberculostatic agent animal cell animal experiment animal model animal tissue area under the curve Article bacterial load bactericidal activity blood sampling chronic disease colony forming unit controlled study DNA extraction drug blood level drug efficacy drug potency genetic heterogeneity human immune response immunocompetent cell immunopathology limit of detection lung lesion lung parenchyma matrix-assisted laser desorption-ionization mass spectrometry maximum concentration maximum plasma concentration minimum inhibitory concentration Mycobacterium tuberculosis nonhuman priority journal rabbit model tandem mass spectrometry treatment duration tuberculosis whole genome sequencing animal disease model drug effect female immunology Leporidae metabolism microbial viability microbiology necrosis neutrophil pathology physiology tuberculosis Animals Antitubercular Agents Disease Models, Animal Female Humans Microbial Viability Mycobacterium tuberculosis Necrosis Neutrophils Pyrazinamide Rabbits Tuberculosis Blanc, L Sarathy, J.P Cabrera, N.A O’Brien, P Dias Freedman, I Mina, M Sacchettini, J Savic, R.M Gengenbacher, M Podell, B.K Prideaux, B Ioerger, T Dick, T Dartois, V Impact of immunopathology on the antituberculous activity of pyrazinamide
description	10.1084/jem.20180518
author2	MEDICINE
author_facet	MEDICINE Blanc, L Sarathy, J.P Cabrera, N.A O’Brien, P Dias Freedman, I Mina, M Sacchettini, J Savic, R.M Gengenbacher, M Podell, B.K Prideaux, B Ioerger, T Dick, T Dartois, V
format	Article
author	Blanc, L Sarathy, J.P Cabrera, N.A O’Brien, P Dias Freedman, I Mina, M Sacchettini, J Savic, R.M Gengenbacher, M Podell, B.K Prideaux, B Ioerger, T Dick, T Dartois, V
author_sort	Blanc, L
title	Impact of immunopathology on the antituberculous activity of pyrazinamide
title_short	Impact of immunopathology on the antituberculous activity of pyrazinamide
title_full	Impact of immunopathology on the antituberculous activity of pyrazinamide
title_fullStr	Impact of immunopathology on the antituberculous activity of pyrazinamide
title_full_unstemmed	Impact of immunopathology on the antituberculous activity of pyrazinamide
title_sort	impact of immunopathology on the antituberculous activity of pyrazinamide
publisher	Rockefeller University Press
publishDate	2020
url	https://scholarbank.nus.edu.sg/handle/10635/179024
_version_	1800914532447551488

Impact of immunopathology on the antituberculous activity of pyrazinamide

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