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1 obacteria that are thought to play a role in latent tuberculosis.
2 culosis than HIV-uninfected individuals with latent tuberculosis.
3 role in the establishment and maintenance of latent tuberculosis.
4 osis compared with ongoing treatment or with latent tuberculosis.
5 treatment, and compared to individuals with latent tuberculosis.
6 response in PBMCs of persons with active or latent tuberculosis.
7 , and accurate prediction of reactivation of latent tuberculosis.
8 vaccine and the detection/treatment rate of latent tuberculosis.
9 nterfere with the detection and treatment of latent tuberculosis.
10 t infection that provides insight into human latent tuberculosis.
11 tween vaccination and detection/treatment of latent tuberculosis.
12 nhance eradication of persistent bacilli and latent tuberculosis.
13 e that resembles the dormant state seen with latent tuberculosis.
14 markers to distinguish BCG vaccination from latent tuberculosis.
15 nflammatory diseases, is the reactivation of latent tuberculosis.
16 emotherapeutic targets for active as well as latent tuberculosis.
17 potential for identifying vaccines targeting latent tuberculosis.
18 ntensive efforts to ensure full treatment of latent tuberculosis.
19 berculosis replication rates in persons with latent tuberculosis.
20 Isoniazid is an efficacious treatment for latent tuberculosis.
21 infection or reinfection of individuals with latent tuberculosis.
22 in Phase III efficacy trials of treatment of latent tuberculosis.
23 preventing reactivation in a murine model of latent tuberculosis.
24 ation and contributing to the development of latent tuberculosis.
25 of stable granuloma, hallmark structures of latent tuberculosis.
26 ed the high impact of detecting and treating latent tuberculosis.
27 oring the safety of rifampin monotherapy for latent tuberculosis.
28 fection compromises CD8+ T-cell functions in latent tuberculosis.
29 he ROC curve (AUC) 0.90 [95% CI 0.85-0.95]), latent tuberculosis (0.88 [0.84-0.92]), and other diseas
30 practices also had increases in diagnosis of latent tuberculosis (11/59 [19%] vs 5/68 [9%], OR 3.00,
32 pregnant and postpartum women for active and latent tuberculosis; (4) the management of active and la
33 ll pose serious challenges for management of latent tuberculosis-a cornerstone of tuberculosis elimin
35 including 29 (1.15%) patients with untreated latent tuberculosis after 89 person-years of follow-up (
36 rculosis and 47.2% (95% CI, 30.0%-61.4%) for latent tuberculosis, although there was significant stat
37 Although guidelines on the management of latent tuberculosis and active tuberculosis are availabl
41 2% of the US population is estimated to have latent tuberculosis and there are only 11,000 cases annu
42 n derivative-negative controls, persons with latent tuberculosis, and BCG-vaccinated individuals.
43 been a considerable barrier to understanding latent tuberculosis, and efforts to develop new therapie
45 imilar among healthy controls, patients with latent tuberculosis, and patients with active tuberculos
46 n immunodeficiency virus (HIV) infection and latent tuberculosis are at substantial risk for the deve
48 s unlikely that a country detects and treats latent tuberculosis at a high enough rate to justify the
50 unted for 1.2% (95% UI 1.0-1.4) of the total latent tuberculosis burden overall, but for 2.9% (95% UI
51 viously described with isoniazid therapy for latent tuberculosis but resulted in a high completion ra
52 c population isoniazid is a safe therapy for latent tuberculosis, but its effectiveness is limited by
53 own a high yield of tuberculosis disease and latent tuberculosis, but the yield of such investigation
54 street-level pollution decreased the odds of latent tuberculosis by 36% (adjusted odds ratio, 0.64; 9
55 rted data on migrant screening for active or latent tuberculosis by any method before migration to a
56 f current trends continue, the proportion of latent tuberculosis caused by MDR strains will increase,
60 cidence included substance or alcohol abuse, latent tuberculosis, diabetes mellitus, atypical mycobac
62 en experienced a 2.56-fold increased odds of latent tuberculosis for each additional household member
63 es identified in all migrant groups included latent tuberculosis, found in 43% of migrants, eosinophi
68 nce between commercially available tests for latent tuberculosis in a low-prevalence population, incl
70 , our results suggest that the prevalence of latent tuberculosis in China might be overestimated by s
73 QuantiFERON-TB Gold test (QFT-GT) to detect latent tuberculosis in newly hired health care workers w
74 n a dormant state and may be responsible for latent tuberculosis in one-third of the world's populati
77 berculosis; (4) the management of active and latent tuberculosis in pregnancy and the postpartum peri
80 ornell model is a historical murine model of latent tuberculosis, in which mice infected with M. tube
81 n DC had a similar prevalence as refugees of latent tuberculosis infection (39% vs 38%, respectively,
82 ling approach, we show that individuals with latent tuberculosis infection (Ltb) and active tuberculo
83 dence of tuberculosis among individuals with latent tuberculosis infection (LTBI group) and without l
86 e used to evaluate new interventions against latent tuberculosis infection (LTBI) and predict reactiv
91 nale: Noninferiority trials of treatment for latent tuberculosis infection (LTBI) are challenging bec
94 s behind TB reactivation in individuals with latent tuberculosis infection (LTBI) coinfected with HIV
98 erium tuberculosis (Mtb) during asymptomatic latent tuberculosis infection (LTBI) in humans is curren
99 release assays (IGRAs) for the diagnosis of latent tuberculosis infection (LTBI) in individuals with
101 ates of noncompletion of treatment (NCT) for latent tuberculosis infection (LTBI) in the PREVENT TB t
103 Targeted testing and treatment (TTT) for latent tuberculosis infection (LTBI) is a recommended st
106 an association between cigarette smoking and latent tuberculosis infection (LTBI) is based on studies
112 ific inflammatory responses used to identify latent tuberculosis infection (LTBI) lose positivity dur
115 tuberculosis before entry to the UK and for latent tuberculosis infection (LTBI) post-entry for redu
118 ccurate detection and risk stratification of latent tuberculosis infection (LTBI) remains a major cli
119 ence of the association between diabetes and latent tuberculosis infection (LTBI) remains limited and
121 e assay (IGRA) is costly and not included as latent tuberculosis infection (LTBI) screening test stra
125 sease is the identification and treatment of latent tuberculosis infection (LTBI) to prevent progress
127 ha therapy is associated with progression of latent tuberculosis infection (LTBI) to tuberculosis (TB
128 HCW acceptance and compliance with available latent tuberculosis infection (LTBI) treatment regimens
129 tion, and adverse events associated with all latent tuberculosis infection (LTBI) treatments, there i
130 Among SIV adults, 14.4% were diagnosed with latent tuberculosis infection (LTBI), 63.5% were suscept
131 ly one-quarter of the global population have latent tuberculosis infection (LTBI), and tuberculosis (
132 ped with the aim to improve the detection of latent tuberculosis infection (LTBI), especially among r
133 ce of a scar or vaccination history, against latent tuberculosis infection (LTBI), measured via IGRA,
143 be implemented that identified persons with latent tuberculosis infection among jail inmates and pro
144 lack the specificity to distinguish between latent tuberculosis infection and active tuberculosis.
145 T for identification of individuals who have latent tuberculosis infection and could improve tubercul
147 lomic profiles compared to those who develop latent tuberculosis infection but prior to any signs of
149 1,128 children who were all investigated for latent tuberculosis infection by tuberculin skin test an
150 on mRNA biogenesis pathways are repressed in latent tuberculosis infection compared with cured diseas
152 demonstrate how effective therapy for early latent tuberculosis infection has to be to eliminate tub
153 elling underline the necessity of addressing latent tuberculosis infection if further progress is to
154 yrazinamide are recommended for treatment of latent tuberculosis infection in adults without HIV infe
155 r progress, scale-up of targeted testing for latent tuberculosis infection in at-risk populations, sc
156 urces were associated with increased odds of latent tuberculosis infection in child household contact
157 scuss the importance of strategies to target latent tuberculosis infection in high risk populations a
158 ive as daily isoniazid for 9 months (9H) for latent tuberculosis infection in high-risk persons, but
161 more sensitive than the TST for diagnosis of latent tuberculosis infection in patients on hemodialysi
162 ntify the effectiveness of therapy for early latent tuberculosis infection in reducing the prevalence
163 ard 9-month INH regimen for the treatment of latent tuberculosis infection in solid-organ transplant
164 ostic accuracy of these tests in determining latent tuberculosis infection in the hemodialysis popula
165 -G, and TSPOT.TB with regards to determining latent tuberculosis infection in the hemodialysis popula
166 e to that of the presumed background rate of latent tuberculosis infection in the state of Alabama.
167 ce-weekly isoniazid and rifapentine to treat latent tuberculosis infection in the United States, and
168 An alternative regimen for the treatment of latent tuberculosis infection is 2 months of rifampin an
169 active tuberculosis through the treatment of latent tuberculosis infection is a major element of the
170 f rifapentine and isoniazid for treatment of latent tuberculosis infection is safe and effective for
171 ronchoalveolar lavage cells from donors with latent tuberculosis infection limited the growth of viru
175 ated with one of three standard regimens for latent tuberculosis infection or tumor necrosis factor (
179 munodeficiency virus-induced reactivation of latent tuberculosis infection results in an increased ex
182 ate the global burden of multidrug-resistant latent tuberculosis infection to inform tuberculosis eli
183 indicate reactivation risk, and even shorter latent tuberculosis infection treatment regimens than cu
184 ious periods, and clinicians should consider latent tuberculosis infection treatment-tailored to the
185 y searched for and included studies in which latent tuberculosis infection was assessed in 2 groups:
189 ng antiretroviral therapy; participants with latent tuberculosis infection were eligible if they had
191 ng tuberculosis from other diseases and from latent tuberculosis infection were identified from genom
193 e detected in three healthy individuals with latent tuberculosis infection who also had strong anti-M
194 ately distinguished active tuberculosis from latent tuberculosis infection with an area under the cur
196 ations, a strategy of detecting and treating latent tuberculosis infection would lead to substantial
197 itis B, and 133 [51%] of 263 individuals for latent tuberculosis infection), mental health (eg, highe
198 cells and the ability to control infection (latent tuberculosis infection, 62%; posttuberculosis pat
199 r memory phenotype in active tuberculosis vs latent tuberculosis infection, accompanied by a reductio
200 disease can be missed during evaluations for latent tuberculosis infection, and can manifest with sym
202 of active tuberculosis, the reactivation of latent tuberculosis infection, and the induction of prot
203 persons with greatest need for treatment of latent tuberculosis infection, as new shorter and less t
205 cy, including: (1) preventing progression of latent tuberculosis infection, especially in women coinf
207 s potential applications in the diagnosis of latent tuberculosis infection, in monitoring response to
208 uberculosis for experimental chemotherapy of latent tuberculosis infection, mice were immunized with
210 recommendations about diagnostic testing for latent tuberculosis infection, pulmonary tuberculosis, a
211 Standard assessments of interaction between latent tuberculosis infection, the HIV serostatus of ind
212 ts with anergy and multiple risk factors for latent tuberculosis infection, the rate of development o
213 ity in subjects with active tuberculosis and latent tuberculosis infection, with and without human im
214 l growth associated with stress survival and latent tuberculosis infection, yet the activities and in
238 short-course rifapentine-based regimens for latent tuberculosis infection.Methods: Rifapentine pharm
239 plicated the choice of treatment regimen for latent tuberculosis infection.Objectives: To evaluate th
240 tests available to determine the presence of latent tuberculosis infection: the tuberculin skin test
242 is, and screening and preventive therapy for latent tuberculosis infections in individuals with diabe
243 on is thought to be involved in establishing latent tuberculosis infections in response to hypoxia an
245 ch may explain why isoniazid monotherapy for latent tuberculosis is a risk factor for the emergence o
246 ial to the etiology of Tuberculosis, because latent tuberculosis is estimated to affect one-third of
251 dations for treating persons having presumed latent tuberculosis (LTBI) after contact to infectious m
252 idance on the optimal screening strategy for latent tuberculosis (LTBI) in patients about to start an
253 led trials have demonstrated that the newest latent tuberculosis (LTBI) regimen, 12 weekly doses of d
255 ared gene expression in patients with either latent tuberculosis or other diseases versus patients wi
256 01), behcet's disease (p = 0.0001), presumed latent tuberculosis (p = 0.0001), presumed latent syphil
257 01), behcet's disease, (p = 0.0001) presumed latent tuberculosis (p = 0.001), presumed latent syphili
258 et's disease, presumed sarcoidosis, presumed latent tuberculosis, presumed latent syphilis, and contr
261 e infection with M. tuberculosis and contain latent tuberculosis, providing a rationale for the clini
262 ent used to aid diagnosis of both active and latent tuberculosis, purified protein derivative (PPD),
264 t of nonreplicating persistence, and thereby latent tuberculosis, resisted extensive attempts at crys
266 n test (TST) to IFN-gamma release assays for latent tuberculosis screening are reporting challenges w
267 e assay (QFT) is increasingly being used for latent tuberculosis screening in patients infected with
269 during latency, and experimental studies on latent tuberculosis suffer from a lack of appropriate an
272 a) therapy is associated with progression of latent tuberculosis (TB) infection (LTBI) to TB disease,
276 eveloping improved regimens for treatment of latent tuberculosis (TB) infection include (1) developin
277 between August 1, 2010 and July 31, 2011 for latent tuberculosis (TB) infection screening with an IGR
282 ew IFN-gamma release assays for diagnosis of latent tuberculosis (TB), but also provided evidence tha
287 blished prior to the widespread treatment of latent tuberculosis to estimate the incidence of tubercu
288 ion from previous estimates of the burden of latent tuberculosis to generate trends in the annual ris
289 tis B virus and hepatitis C virus status and latent tuberculosis], to assess the risk of adverse even
291 s chapter provides an overview of active and latent tuberculosis treatment in HIV-infected and -uninf
292 as new shorter and less toxic regimens make latent tuberculosis treatment in older adults more attra
297 al-therapy-naive, HIV-1-infected adults with latent tuberculosis, we identified ten individuals with
298 to persist is key for finding ways to limit latent tuberculosis, which affects one-third of the worl
299 ation of a robust immune response leading to latent tuberculosis, which is regarded as a spectrum rat