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Richard J Wallace - One of the best experts on this subject based on the ideXlab platform.
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correction for vasireddy et al Mycobacterium arupense Mycobacterium heraklionense and a newly proposed species Mycobacterium virginiense sp nov but not Mycobacterium nonchromogenicum as species of the Mycobacterium terrae complex causing tenosynovitis and osteomyelitis
2017Co-Authors: Ravikiran Vasireddy, Sruthi Vasireddy, Barbara A Brownelliott, Nancy L Wengenack, Uzoamaka A Eke, Jeana L Benwill, Christine Turenne, Richard J WallaceAbstract:Volume 54, no. 5, p. [1340–1351][1], 2016, . Page 1349, column 1: The last three paragraphs preceding the Acknowledgments section should be replaced with the following. Mycobacterium virginiense (vir.gi.ni.en′se. N.L. neut. adj. virginiense, of or
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Mycobacterium arupense Mycobacterium heraklionense and a newly proposed species Mycobacterium virginiense sp nov but not Mycobacterium nonchromogenicum as species of the Mycobacterium terrae complex causing tenosynovitis and osteomyelitis
2016Co-Authors: Ravikiran Vasireddy, Sruthi Vasireddy, Barbara A Brownelliott, Nancy L Wengenack, Uzoamaka A Eke, Jeana L Benwill, Christine Turenne, Richard J WallaceAbstract:Mycobacterium terrae complex has been recognized as a cause of tenosynovitis, with M. terrae and Mycobacterium nonchromogenicum reported as the primary etiologic pathogens. The molecular taxonomy of the M. terrae complex causing tenosynovitis has not been established despite approximately 50 previously reported cases. We evaluated 26 isolates of the M. terrae complex associated with tenosynovitis or osteomyelitis recovered between 1984 and 2014 from 13 states, including 5 isolates reported in 1991 as M. nonchromogenicum by nonmolecular methods. The isolates belonged to three validated species, one new proposed species, and two novel related strains. The majority of isolates (20/26, or 77%) belonged to two recently described species: Mycobacterium arupense (10 isolates, or 38%) and Mycobacterium heraklionense (10 isolates, or 38%). Three isolates (12%) had 100% sequence identity to each other by 16S rRNA and 99.3 to 100% identity by rpoB gene region V sequencing and represent a previously undescribed species within the M. terrae complex. There were no isolates of M. terrae or M. nonchromogenicum, including among the five isolates reported in 1991. The 26 isolates were susceptible to clarithromycin (100%), rifabutin (100%), ethambutol (92%), and sulfamethoxazole or trimethoprim-sulfamethoxazole (70%). The current study suggests that M. arupense, M. heraklionense, and a newly proposed species ("M. virginiense" sp. nov.; proposed type strain MO-233 [DSM 100883, CIP 110918]) within the M. terrae complex are the major causes of tenosynovitis and osteomyelitis in the United States, with little change over 20 years. Species identification within this complex requires sequencing methods.
Ravikiran Vasireddy - One of the best experts on this subject based on the ideXlab platform.
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correction for vasireddy et al Mycobacterium arupense Mycobacterium heraklionense and a newly proposed species Mycobacterium virginiense sp nov but not Mycobacterium nonchromogenicum as species of the Mycobacterium terrae complex causing tenosynovitis and osteomyelitis
2017Co-Authors: Ravikiran Vasireddy, Sruthi Vasireddy, Barbara A Brownelliott, Nancy L Wengenack, Uzoamaka A Eke, Jeana L Benwill, Christine Turenne, Richard J WallaceAbstract:Volume 54, no. 5, p. [1340–1351][1], 2016, . Page 1349, column 1: The last three paragraphs preceding the Acknowledgments section should be replaced with the following. Mycobacterium virginiense (vir.gi.ni.en′se. N.L. neut. adj. virginiense, of or
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Mycobacterium arupense Mycobacterium heraklionense and a newly proposed species Mycobacterium virginiense sp nov but not Mycobacterium nonchromogenicum as species of the Mycobacterium terrae complex causing tenosynovitis and osteomyelitis
2016Co-Authors: Ravikiran Vasireddy, Sruthi Vasireddy, Barbara A Brownelliott, Nancy L Wengenack, Uzoamaka A Eke, Jeana L Benwill, Christine Turenne, Richard J WallaceAbstract:Mycobacterium terrae complex has been recognized as a cause of tenosynovitis, with M. terrae and Mycobacterium nonchromogenicum reported as the primary etiologic pathogens. The molecular taxonomy of the M. terrae complex causing tenosynovitis has not been established despite approximately 50 previously reported cases. We evaluated 26 isolates of the M. terrae complex associated with tenosynovitis or osteomyelitis recovered between 1984 and 2014 from 13 states, including 5 isolates reported in 1991 as M. nonchromogenicum by nonmolecular methods. The isolates belonged to three validated species, one new proposed species, and two novel related strains. The majority of isolates (20/26, or 77%) belonged to two recently described species: Mycobacterium arupense (10 isolates, or 38%) and Mycobacterium heraklionense (10 isolates, or 38%). Three isolates (12%) had 100% sequence identity to each other by 16S rRNA and 99.3 to 100% identity by rpoB gene region V sequencing and represent a previously undescribed species within the M. terrae complex. There were no isolates of M. terrae or M. nonchromogenicum, including among the five isolates reported in 1991. The 26 isolates were susceptible to clarithromycin (100%), rifabutin (100%), ethambutol (92%), and sulfamethoxazole or trimethoprim-sulfamethoxazole (70%). The current study suggests that M. arupense, M. heraklionense, and a newly proposed species ("M. virginiense" sp. nov.; proposed type strain MO-233 [DSM 100883, CIP 110918]) within the M. terrae complex are the major causes of tenosynovitis and osteomyelitis in the United States, with little change over 20 years. Species identification within this complex requires sequencing methods.
Uzoamaka A Eke - One of the best experts on this subject based on the ideXlab platform.
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correction for vasireddy et al Mycobacterium arupense Mycobacterium heraklionense and a newly proposed species Mycobacterium virginiense sp nov but not Mycobacterium nonchromogenicum as species of the Mycobacterium terrae complex causing tenosynovitis and osteomyelitis
2017Co-Authors: Ravikiran Vasireddy, Sruthi Vasireddy, Barbara A Brownelliott, Nancy L Wengenack, Uzoamaka A Eke, Jeana L Benwill, Christine Turenne, Richard J WallaceAbstract:Volume 54, no. 5, p. [1340–1351][1], 2016, . Page 1349, column 1: The last three paragraphs preceding the Acknowledgments section should be replaced with the following. Mycobacterium virginiense (vir.gi.ni.en′se. N.L. neut. adj. virginiense, of or
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Mycobacterium arupense Mycobacterium heraklionense and a newly proposed species Mycobacterium virginiense sp nov but not Mycobacterium nonchromogenicum as species of the Mycobacterium terrae complex causing tenosynovitis and osteomyelitis
2016Co-Authors: Ravikiran Vasireddy, Sruthi Vasireddy, Barbara A Brownelliott, Nancy L Wengenack, Uzoamaka A Eke, Jeana L Benwill, Christine Turenne, Richard J WallaceAbstract:Mycobacterium terrae complex has been recognized as a cause of tenosynovitis, with M. terrae and Mycobacterium nonchromogenicum reported as the primary etiologic pathogens. The molecular taxonomy of the M. terrae complex causing tenosynovitis has not been established despite approximately 50 previously reported cases. We evaluated 26 isolates of the M. terrae complex associated with tenosynovitis or osteomyelitis recovered between 1984 and 2014 from 13 states, including 5 isolates reported in 1991 as M. nonchromogenicum by nonmolecular methods. The isolates belonged to three validated species, one new proposed species, and two novel related strains. The majority of isolates (20/26, or 77%) belonged to two recently described species: Mycobacterium arupense (10 isolates, or 38%) and Mycobacterium heraklionense (10 isolates, or 38%). Three isolates (12%) had 100% sequence identity to each other by 16S rRNA and 99.3 to 100% identity by rpoB gene region V sequencing and represent a previously undescribed species within the M. terrae complex. There were no isolates of M. terrae or M. nonchromogenicum, including among the five isolates reported in 1991. The 26 isolates were susceptible to clarithromycin (100%), rifabutin (100%), ethambutol (92%), and sulfamethoxazole or trimethoprim-sulfamethoxazole (70%). The current study suggests that M. arupense, M. heraklionense, and a newly proposed species ("M. virginiense" sp. nov.; proposed type strain MO-233 [DSM 100883, CIP 110918]) within the M. terrae complex are the major causes of tenosynovitis and osteomyelitis in the United States, with little change over 20 years. Species identification within this complex requires sequencing methods.
Christine Turenne - One of the best experts on this subject based on the ideXlab platform.
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correction for vasireddy et al Mycobacterium arupense Mycobacterium heraklionense and a newly proposed species Mycobacterium virginiense sp nov but not Mycobacterium nonchromogenicum as species of the Mycobacterium terrae complex causing tenosynovitis and osteomyelitis
2017Co-Authors: Ravikiran Vasireddy, Sruthi Vasireddy, Barbara A Brownelliott, Nancy L Wengenack, Uzoamaka A Eke, Jeana L Benwill, Christine Turenne, Richard J WallaceAbstract:Volume 54, no. 5, p. [1340–1351][1], 2016, . Page 1349, column 1: The last three paragraphs preceding the Acknowledgments section should be replaced with the following. Mycobacterium virginiense (vir.gi.ni.en′se. N.L. neut. adj. virginiense, of or
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Mycobacterium arupense Mycobacterium heraklionense and a newly proposed species Mycobacterium virginiense sp nov but not Mycobacterium nonchromogenicum as species of the Mycobacterium terrae complex causing tenosynovitis and osteomyelitis
2016Co-Authors: Ravikiran Vasireddy, Sruthi Vasireddy, Barbara A Brownelliott, Nancy L Wengenack, Uzoamaka A Eke, Jeana L Benwill, Christine Turenne, Richard J WallaceAbstract:Mycobacterium terrae complex has been recognized as a cause of tenosynovitis, with M. terrae and Mycobacterium nonchromogenicum reported as the primary etiologic pathogens. The molecular taxonomy of the M. terrae complex causing tenosynovitis has not been established despite approximately 50 previously reported cases. We evaluated 26 isolates of the M. terrae complex associated with tenosynovitis or osteomyelitis recovered between 1984 and 2014 from 13 states, including 5 isolates reported in 1991 as M. nonchromogenicum by nonmolecular methods. The isolates belonged to three validated species, one new proposed species, and two novel related strains. The majority of isolates (20/26, or 77%) belonged to two recently described species: Mycobacterium arupense (10 isolates, or 38%) and Mycobacterium heraklionense (10 isolates, or 38%). Three isolates (12%) had 100% sequence identity to each other by 16S rRNA and 99.3 to 100% identity by rpoB gene region V sequencing and represent a previously undescribed species within the M. terrae complex. There were no isolates of M. terrae or M. nonchromogenicum, including among the five isolates reported in 1991. The 26 isolates were susceptible to clarithromycin (100%), rifabutin (100%), ethambutol (92%), and sulfamethoxazole or trimethoprim-sulfamethoxazole (70%). The current study suggests that M. arupense, M. heraklionense, and a newly proposed species ("M. virginiense" sp. nov.; proposed type strain MO-233 [DSM 100883, CIP 110918]) within the M. terrae complex are the major causes of tenosynovitis and osteomyelitis in the United States, with little change over 20 years. Species identification within this complex requires sequencing methods.
Jeana L Benwill - One of the best experts on this subject based on the ideXlab platform.
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correction for vasireddy et al Mycobacterium arupense Mycobacterium heraklionense and a newly proposed species Mycobacterium virginiense sp nov but not Mycobacterium nonchromogenicum as species of the Mycobacterium terrae complex causing tenosynovitis and osteomyelitis
2017Co-Authors: Ravikiran Vasireddy, Sruthi Vasireddy, Barbara A Brownelliott, Nancy L Wengenack, Uzoamaka A Eke, Jeana L Benwill, Christine Turenne, Richard J WallaceAbstract:Volume 54, no. 5, p. [1340–1351][1], 2016, . Page 1349, column 1: The last three paragraphs preceding the Acknowledgments section should be replaced with the following. Mycobacterium virginiense (vir.gi.ni.en′se. N.L. neut. adj. virginiense, of or
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Mycobacterium arupense Mycobacterium heraklionense and a newly proposed species Mycobacterium virginiense sp nov but not Mycobacterium nonchromogenicum as species of the Mycobacterium terrae complex causing tenosynovitis and osteomyelitis
2016Co-Authors: Ravikiran Vasireddy, Sruthi Vasireddy, Barbara A Brownelliott, Nancy L Wengenack, Uzoamaka A Eke, Jeana L Benwill, Christine Turenne, Richard J WallaceAbstract:Mycobacterium terrae complex has been recognized as a cause of tenosynovitis, with M. terrae and Mycobacterium nonchromogenicum reported as the primary etiologic pathogens. The molecular taxonomy of the M. terrae complex causing tenosynovitis has not been established despite approximately 50 previously reported cases. We evaluated 26 isolates of the M. terrae complex associated with tenosynovitis or osteomyelitis recovered between 1984 and 2014 from 13 states, including 5 isolates reported in 1991 as M. nonchromogenicum by nonmolecular methods. The isolates belonged to three validated species, one new proposed species, and two novel related strains. The majority of isolates (20/26, or 77%) belonged to two recently described species: Mycobacterium arupense (10 isolates, or 38%) and Mycobacterium heraklionense (10 isolates, or 38%). Three isolates (12%) had 100% sequence identity to each other by 16S rRNA and 99.3 to 100% identity by rpoB gene region V sequencing and represent a previously undescribed species within the M. terrae complex. There were no isolates of M. terrae or M. nonchromogenicum, including among the five isolates reported in 1991. The 26 isolates were susceptible to clarithromycin (100%), rifabutin (100%), ethambutol (92%), and sulfamethoxazole or trimethoprim-sulfamethoxazole (70%). The current study suggests that M. arupense, M. heraklionense, and a newly proposed species ("M. virginiense" sp. nov.; proposed type strain MO-233 [DSM 100883, CIP 110918]) within the M. terrae complex are the major causes of tenosynovitis and osteomyelitis in the United States, with little change over 20 years. Species identification within this complex requires sequencing methods.
