A prediction rule to stratify mortality risk of patients with pulmonary tuberculosis

Tuberculosis imposes high human and economic tolls, including in Europe. This study was conducted to develop a severity assessment tool for stratifying mortality risk in pulmonary tuberculosis (PTB) patients. A derivation cohort of 681 PTB cases was retrospectively reviewed to generate a model based on multiple logistic regression analysis of prognostic variables with 6-month mortality as the outcome measure. A clinical scoring system was developed and tested against a validation cohort of 103 patients. Five risk features were selected for the prediction model: hypoxemic respiratory failure (OR 4.7, 95% CI 2.8-7.9), age >= 50 years (OR 2.9, 95% CI 1.7-4.8), bilateral lung involvement (OR 2.5, 95% CI 1.44.4), >= 1 significant comorbidity-HIV infection, diabetes mellitus, liver failure or cirrhosis, congestive heart failure and chronic respiratory disease-(OR 2.3, 95% CI 1.3-3.8), and hemoglobin = 6) mortality risk. The mortality associated with each group was 2.9%, 22.9% and 53.9%, respectively. The model performed equally well in the validation cohort. We provide a new, easy-to-use clinical scoring system to identify PTB patients with high-mortality risk in settings with good healthcare access, helping clinicians to decide which patients are in need of closer medical care during treatment.This work was supported by Fundacao Amelia de Mello/Jose de Mello Saude and Sociedade Portuguesa de Pneumologia (SPP). This work was developed under the scope of the project NORTE-01-0145-FEDER-000013, supported by the Northern Portugal Regional Operational Programme (NORTE 2020), under the Portugal 2020 Partnership Agreement, through the European Regional Development Fund (FEDER). NSO is a FCT (Fundacao para a Ciencia e Tecnologia) investigator. MS is an Associate FCT Investigator. The fundershad no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript

Activity of DNA-targeted C8-linked pyrrolobenzodiazepine(PBD)-heterocyclic polyamide conjugates against aerobically and hypoxically grown Mycobacterium tuberculosis under acidic and neutral conditions

The file attached to this record is the author's final peer reviewed version. The Publisher's final version can be found by following the DOI link.Mycobacterium tuberculosis (Mtb) is the aetiological agent of tuberculosis, the leading cause of death worldwide from a single infectious agent. Mtb is a highly-adaptable human pathogen that might enter a dormant non-replicating (NR), drug-tolerant stage. Reactivation of dormant Mtb can lead to active disease. Antibiotic treatments of active and latent tuberculosis are long, complex and may fail to fully eradicate the infection. Therefore, it is imperative to identify novel compounds with new mechanism of actions active against NR-bacilli. Dormant Mtb habitat is mostly thought to be the pH-neutral and hypoxic caseous granuloma. We have used the Wayne culture model to reproduce this environment and tested the activities of two DNA-targeted agents, C8-linked-pyrrolobenzodiazepine(PBD)-polyamide-conjugates 1 and 2, against Mtb grown in aerobic and hypoxic conditions in both acidic and pH-neutral media. PBD 2 showed growth inhibitory activity at 5.1 µg/ml against 19-day old hypoxic NR Mtb cultures with 1.8 log10-CFU reduction on day 21 at pH 7.3. PBD 2 was particularly effective against 5-day old aerobic cells at pH 7.3, with CFU reduction (6.8 log10) on day 21 at 5.1 µg/ml being identical to that of rifampin at 8 µg/ml. PBD 2 qualifies as a promising lead against aerobic and NR Mtb

Disrupted cell adhesion but not proliferation mediates cyst formation in polycystic liver disease.

Contains fulltext : 70486.pdf (publisher's version ) (Closed access)The pathogenesis of polycystic liver disease is not well understood. The putative function of the associated proteins, hepatocystin and Sec63p, do not give insight in their role in cystogenesis and their tissue-wide expression does not fit with the liver-specific phenotype of the disease. We designed this study with the specific aim to dissect whether pathways involved in polycystic kidney diseases are also implicated in polycystic liver disease. Therefore, we immunohistochemically stained cyst tissue specimen with antibodies directed against markers for apoptosis, proliferation, growth receptors, signaling and adhesion. We analyzed genotyped polycystic liver disease cyst tissue (n=21) compared with normal liver tissue (n=13). None of the cysts showed proliferation of epithelial cells. In addition, anti-apoptosis marker Bcl-2 revealed slight increase in expression, with variable increase of apoptosis marker active caspase 3. Growth factor receptors, EGFR and c-erbB-2, were overexpressed and mislocalized. We found EGFR staining in the nuclei of cyst epithelial cells regardless of mutational state of the patient. Further, in hepatocystin-mutant polycystic liver disease patients, apical membranous staining of c-erbB-2 and adhesion markers, MUC1 and CEA, was lost and the proteins appeared to be retained in cytoplasm of cyst epithelia. Finally, we found loss of adhesion molecules E-cadherin and Ep-CAM in cyst epithelium of all patients. Nevertheless, we observed normal beta-catenin expression. Our results show that polycystic liver disease cystogenesis is different from renal cystogenesis. Polycystic liver disease involves overexpression of growth factor receptors and loss of adhesion. In contrast, proliferation or deregulated apoptosis do not seem to be implicated. Moreover differential findings for PRKCSH- and SEC63-associated polycystic liver disease suggest a divergent mechanism for cystogenesis in these two groups