The mechanisms by which the airborne pathogen Mycobacterium tuberculosis spreads within the lung and leaves its primary niche to colonize other organs, thus inducing extrapulmonary forms of tuberculosis (TB) in humans, remains poorly understood. Herein, we used a transcriptomic approach to investigate the host cell gene expression profile in M. tuberculosis–infected human macrophages (ΜΦ). We identified 33 genes, encoding proteins involved in angiogenesis, for which the expression was significantly modified during infection, and we show that the potent angiogenic factor VEGF is secreted by M. tuberculosis-infected ΜΦ, in an RD1-dependent manner. In vivo these factors promote the formation of blood vessels in murine models of the disease. Inhibiting angiogenesis, via VEGF inactivation, abolished mycobacterial spread from the infection site. In accordance with our in vitro and in vivo results, we show that the level of VEGF in TB patients is elevated and that endothelial progenitor cells are mobilized from the bone marrow. These results strongly strengthen the most recent data suggesting that mycobacteria take advantage of the formation of new blood vessels to disseminate.
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Identifying those Mycobacterium tuberculosis latent-infected individuals most at risk of developing active tuberculosis (TB) using routine clinical and laboratory tests remains a huge challenge in TB control efforts. We conducted a prospective longitudinal study of clinical and laboratory markers associated with the risk of developing active TB in contacts with latent M. tuberculosis infection.HIV-negative household contacts (n=296) of pulmonary TB patients underwent monitoring of clinical features, full blood cell counts, tuberculin skin text (TST) and chest radiography performed regularly during 18 months of follow-up. Paired statistical tests, a Kaplan-Meier analysis and Cox proportional hazard modelling were performed on variables between contacts progressing or not progressing to active TB.The appearance of TB disease symptoms in contacts was significantly associated with an elevated peripheral percentage of blood monocytes (adjusted hazard ratio (aHR) 6.25, 95% CI 1.63-23.95; p<0.01), a ⩾14 mm TST response (aHR 5.72, 95% CI 1.22-26.80; p=0.03) and an increased monocyte:lymphocyte ratio (aHR 4.97, 95% CI 1.3-18.99; p=0.03). Among contacts having TST ⩾14 mm, a strong association with risk of progression to TB was found with an elevated blood monocyte percentage (aHR 8.46, p<0.01).Elevated percentage of peripheral blood monocytes plus an elevated TST response are potential biomarkers for identifying contacts of TB patients at highest risk of developing active TB. @ERSpublications Tuberculin skin tests combined with monocyte count improve evaluation of disease progression risk among TB contacts
Drones are increasingly being used globally for the support of healthcare programmes. Madagascar, Malawi and Senegal are among a group of early adopters piloting the use of bi-directional transport drones for health systems in sub-Saharan Africa. This article presents the experiences as well as the strengths, weaknesses, opportunities and threats (SWOT analysis) of these country projects. Methods for addressing regulatory, feasibility, acceptability, and monitoring and evaluation issues are presented to guide future implementations. Main recommendations for governments, implementers, drone providers and funders include (1) developing more reliable technologies, (2) thorough vetting of drone providers’ capabilities during the selection process, (3) using and strengthening local capacity, (4) building in-country markets and businesses to maintain drone operations locally, (5) coordinating efforts among all stakeholders under government leadership, (6) implementing and identifying funding for long-term projects beyond pilots, and (7) evaluating impacts via standardised indicators. Sharing experiences and evidence from ongoing projects is needed to advance the use of drones for healthcare.
The majority of healthy individuals exposed to Mycobacterium tuberculosis will not develop tuberculosis (TB), though many may become latently infected. More precise measurement of the human immune response to M. tuberculosis infection may help us understand this difference and potentially identify those subjects most at risk of developing active disease. Gamma interferon (IFN-␥) production has been widely used as a proxy marker to study infection and to examine the human immune response to specific M. tuberculosis antigens. It has been suggested that genetically distinct M. tuberculosis strains may invoke different immune responses, although how these differences influence the immune responses and clinical outcome in human tuberculosis is still poorly understood. We therefore evaluated the antigen-specific IFN-␥ production responses in peripheral blood mononuclear cells from two cohorts of subjects recruited in Antananarivo Tuberculosis (TB), caused by Mycobacterium tuberculosis, is a major cause of global morbidity and mortality throughout the world. It is estimated that there are in excess of new 8 million cases of TB each year, and this represents just the tip of the iceberg. Infection with M. tuberculosis leads to clinically active TB in about 5 to 10% of exposed individuals. A much higher proportion of exposed individuals apparently become latently infected, and these individuals may remain noninfectious and symptom free for years. Approximately one-third of the world population is thought to be latently infected with M. tuberculosis. However, under some circumstances (in about 5% of the latently infected people), the host immune response is perturbed and latent M. tuberculosis infection may develop into clinically active TB (52). This process is most prominent in individuals coinfected with human immunodeficiency virus (HIV), but it can also occur with impairment of the immune system associated with old age, malnutrition, anti-inflammatory drug treatment, etc. Reactivation of latent disease is thought to contribute roughly half of all TB cases, and thus, understanding the factors controlling the development of acute primary TB or latent infection is crucial to TB control (64).Gamma interferon (IFN-␥) production has been widely used to study infection and to examine the human immune response to specific M. tuberculosis antigens. The 6-kDa early secreted antigenic target (ESAT-6) antigen, encoded by genes located within region of difference 1 (RD1) of the M. tuberculosis genome, is much more specific for M. tuberculosis than purified protein derivative (PPD), as these genes were deleted from M. bovis in the development of BCG substrains or are not found in most environmental mycobacteria (29,53). Some studies showed that the level of IFN-␥ release in response to ESAT-6 could identify TB contacts at risk of developing active disease after recent infection (3,18,30). CFP7 or TB10.4 is an immunodominant antigen recognized by TB patients and M. bovis BCG-vaccinated subjects, while ESAT-6 is specific to TB pa-
Objectives: Tuberculosis (TB) is the leading infectious cause of death in the world. Cheaper and more accessible TB treatment monitoring methods are needed. Here, we evaluated white blood cell (WBC) absolute counts, lymphocyte, and monocyte proportions during TB treatment, and characterized their association with treatment failure. Methods: This multicentered prospective cohort study was based in Bangladesh, Georgia, Lebanon, Madagascar, and Paraguay. Adult, non-immunocompromised patients with culture-confirmed pulmonary TB were included and followed up after two months of treatment and at the end of therapy. Blood counts were compared to treatment outcome using descriptive statistics, logistic regression, and Receiver Operating Characteristic (ROC) analyses. Results: Between December 2017 and August 2020, 198 participants were enrolled, and 152 completed treatment, including 28 (18.5%) drug-resistant patients. The rate of cure at the end of treatment was 90.8% (138/152). WBC absolute counts decreased, and lymphocyte proportions increased throughout treatment. In multivariate analyses, baseline high WBC counts and low lymphocyte proportions were associated with positive sputum culture results at the end of treatment (WBC > 11,450 cells/mm 3 : p = 0.048; lymphocytes <16.0%: p = 0.039; WBC > 11,450 cells/mm 3 and lymphocytes <16.0%: p = 0.024). Conclusion: High WBC counts and low lymphocyte proportions at baseline are significantly associated with the risk of TB treatment failure.
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