Publication of primary results in the New England Journal of Medicine shows positive impact of innovative vaccine technology in clinical trial conducted in tuberculosis endemic regions
Recently, GSK and Aeras reported that GSK’s M72/AS01E candidate vaccine significantly reduced the incidence of pulmonary tuberculosis disease in HIV-negative adults with latent tuberculosis infection in an ongoing phase IIb clinical trial testing. These primary results published in the New England Journal of Medicine after two years of trial demonstrate an overall vaccine efficacy of 54 per cent, with varied response rates observed in different demographic sub-groups. The candidate vaccine had an acceptable safety and reactogenicity profile.
Tuberculosis is the leading cause of death through infectious disease worldwide and represents a significant public health threat with 1.6 million attributed deaths in 2017.
Dr Emmanuel Hanon, Senior Vice-President and Head of R&D, Global Vaccines GSK, said, “These initial findings represent a significant innovation in the development of a new and much-needed vaccine and advance the scientific understanding of tuberculosis. This scientific breakthrough – one of the very few in tuberculosis vaccine development for almost 100 years – has been made possible by our strategic partnership with Aeras, in which GSK is providing the innovation expertise and technology platforms, such as the proprietary AS01 adjuvant.”
The study assesses the safety and efficacy of M72/AS01E protecting adults with latent tuberculosis infection against developing pulmonary tuberculosis disease. The ongoing trial is conducted in tuberculosis endemic regions (Kenya, South Africa and Zambia) and involves 3,573 HIV-negative adults. For this analysis, participants who received two doses of either M72/AS01E or placebo 30 days apart have been followed up for at least two years to detect evidence of pulmonary tuberculosis disease.
Jacqui Shea, Chief Executive Officer of Aeras, which contributed to the partnership their decades long experience in tuberculosis vaccine clinical development, clinical operations capabilities and strong links with African clinical sites and patient communities, said, “This ground-breaking study shows – for the first time – that a subunit vaccine can significantly reduce the incidence of pulmonary tuberculosis in healthy, HIV-negative adults with latent tuberculosis infection, and that more effective vaccines against tuberculosis are achievable.”
He further added, “Given the overwhelming public health need, the importance of these promising results, which need to be confirmed through additional clinical research, cannot be overstated. An effective vaccine, able to reduce transmission, would be by far the most impactful new intervention to end the global tuberculosis epidemic”.
The study is still ongoing and a final analysis including all efficacy, safety, reactogenicity and immunogenicity data will be performed in 2019 after all participants have completed three years of follow up.