Noze Inc. is hot on the trail of tuberculosis with its Diagnoze hand-held system that can detect the disease by its smell. The company, formerly known as Stratuscent, received additional support from the Bill & Melinda Gates Foundation to fund a study evaluating a breathalyzer designed to detect tuberculosis in high-burden countries.
Researchers from the University of Stellenbosch in South Africa are seeking protection for a simple and user-friendly point-of-care device for diagnosing tuberculosis. Their electrochemical lateral flow device merges lateral flow device technology and electrochemical device technology by using porous electrodes that are capable of transporting electrolytic liquid and fluid sample.
Cukurova University and the University of Alicante have synthesized new 2-(pyrrolidin-1-yl)thiazole compounds reported to be useful for the treatment of bacterial infections and tuberculosis.
The current standard treatment for tuberculosis (TB) consists of a combination of four antibiotics administered for 6 to 12 months. There is hence a clear need for new strategies both for shorter treatment periods and that may address the emergence of multi- and extensive drug-resistant TB. Researchers from Scripps Research Institute have reported on the synthesis and preclinical characterization of a series of novel aryl fluorosulfate derivatives designed to be used for the treatment of TB.
Proteinlogic Ltd. and Stellenbosch University have received a $1.35 million grant from the Bill & Melinda Gates Foundation to develop a blood test to monitor treatment responses to tuberculosis (TB) antimicrobial chemotherapy.
Benzothiozinone (BTZ) compounds are among the new entities under development for their antimycobacterial activity, but information on their efficacy in acute tuberculosis (TB) infection models is still lacking.
The Novo Nordisk Foundation is committing up to DKK1.8 billion (US$260 million) to establish a research and vaccine development initiative that aims to create new or improved vaccines for respiratory diseases, including tuberculosis (TB) and influenza.
Tuberculosis still kills a lot of people worldwide (1.6 million deaths per year). Previous findings demonstrated that induced myeloid leukemia cell differentiation protein Mcl-1 inhibitors reduced the growth of Mycobacterium tuberculosis in human macrophages, but when inhibiting multiple proteins from the Mcl-1/Bcl-2 family, the result was more effective and in a more complex human in vitro granuloma environment.
Tuberculosis (TB) is the second leading infectious disease killer. According to the World Health Organization, every year, more than 10 million people fall ill with TB, and 1.5 million people die from the disease. The thing is, though, that it could be worse. Not nearly everyone who is infected has TB disease. “Tuberculosis is a disease that targets a small number of infected people,” Igor Kramnik, of Boston University, told BioWorld.
The U.S. FDA recently convened an advisory hearing to discuss whether three in vitro diagnostics should be reclassified from class III to class II, including tests for the pathogens responsible for Hepatitis B and tuberculosis. The panel agreed that all three of the test types should be reshuffled to the lower-risk class II category, suggesting that test developers now have an opportunity to jump into a market with lower-cost tests that won’t need expensive and drawn-out clinical studies to obtain the FDA’s seal of approval.