Your search keyword '"Hanekom W"' showing total 7 results

1. Protein kinase C-delta (PKCδ), a marker of inflammation and tuberculosis disease progression in humans, is important for optimal macrophage killing effector functions and survival in mice.

Author

Parihar, S P, Ozturk, M, Marakalala, M J, Loots, D T, Hurdayal, R, Maasdorp, D Beukes, Van Reenen, M, Zak, D E, Darboe, F, Penn-Nicholson, A, Hanekom, W A, Leitges, M, Scriba, T J, Guler, R, and Brombacher, F

Published

2018

2. Innovative clinical trial designs to rationalize TB vaccine development.

Author

Ellis, R.D., Hatherill, M., Tait, D., Snowden, M., Churchyard, G., Hanekom, W., Evans, T., and Ginsberg, A.M.

Abstract

Summary A recent trial of a leading tuberculosis (TB) vaccine candidate in 3000 South African infants failed to show protection over that from BCG alone, and highlights the difficulties in clinical development of TB vaccines. Progression of vaccine candidates to efficacy trials against TB disease rests on demonstration of safety and immunogenicity in target populations and protection against challenge in preclinical models, but immunologic correlates of protection are unknown, and animal models may not be predictive of results in humans. Even in populations most heavily affected by TB the sample sizes required for Phase 2b efficacy trials using TB disease as an endpoint are in the thousands. Novel clinical trial models have been developed to evaluate candidate TB vaccines in selected populations using biologically relevant outcomes and innovative statistical approaches. Such proof of concept studies can be used to more rationally select vaccine candidates for advancement to large scale trials against TB disease. [ABSTRACT FROM AUTHOR]

Published

2015

3. Designing an adaptive phase II/III trial to evaluate efficacy, safety and immune correlates of new TB vaccines in young adults and adolescents.

Author

Rustomjee, R., McClain, B., Brennan, M.J., Mcleod, R., Chetty-Makkan, C.M., McShane, H., Hanekom, W., Steel, G., Mahomed, H., Ginsberg, A.M., Shea, J., Lockhart, S., Self, S., and Churchyard, G.J.

Subjects

TUBERCULOSIS vaccines, DRUG efficacy, MEDICATION safety, DRUG design, STAKEHOLDERS, SOUTH Africans, CLINICAL trials

Abstract

Summary: This article summarises the consensus arrived at a meeting of South African and international stakeholders on specific late phase clinical trial design issues integrating the investigation of immune correlates as an integral part of a phase III protocol for a preventative TB vaccine in an adolescent/adult population. The challenge ahead is to optimize the planning for phase 3 TB vaccine preventative trials, under resource constraints, given that there are no known correlates of protection to shorten and increase the efficiencies of efficacy trials. An adaptive, multi-arm, group sequentially designed trial protocol is proposed incorporating design features that address uncertainties arising from both advances in the field and dynamic study populations and disease states. Such a design allows modifications that protect research subjects, save time, and maximize the impact of scarce financial resources. Further, the protocol underwent joint review by regulators from several African nations at a meeting of the African Vaccine Regulatory Forum (AVAREF), a regional regulatory harmonization initiative, and recommendations are included. [ABSTRACT FROM AUTHOR]

Published

2013

4. Key issues in the clinical development and implementation of TB vaccines in South Africa.

Author

Rustomjee, R., Mcleod, R., Hanekom, W., Steel, G., Mahomed, H., Hawkridge, A., Welte, A., Sinanovic, E., Loots, G., Grobler, A., Mvusi, L., Gray, G., Hesseling, A., Ginsberg, A., Lienhardt, C., Shea, J., Tong, X., Lockhart, S., and Churchyard, G.J.

Subjects

IMMUNE response, TUBERCULOSIS vaccines, ANIMAL models in research, SENSITIVITY & specificity (Statistics)

Abstract

Summary: Significant progress has been made in advancing the development pipeline for a new and more effective TB vaccine with some candidate vaccines now in late stage clinical evaluation. However, progress has been hampered by an incomplete understanding of the components of a protective immune response and limited animal models, rendering the field unable to reliably predict vaccine efficacy earlier in preclinical development, including by evaluation in animal models, and limiting the predictive utility of comparing immunogenic effects across vaccine candidates in phase I/II studies. Consequently, new candidate vaccines have to be evaluated for efficacy in large-scale phase II/III trials using clinical endpoints. Apart from the technical challenges of characterising TB incidence in target populations at high risk of acquiring TB disease and standardising case definitions in order to improve both the sensitivity and more importantly the specificity of trial endpoints, there is an urgency in expanding and supporting the considerable trial infrastructure that will be required to evaluate and ultimately license a new TB vaccine. In the longer term, implementation strategies are dependent on what policy makers most value. Economic analyses will be essential to guide policy and implementation. This paper outlines the gaps and challenges and identifies solutions for effectively developing and efficiently introducing a new TB vaccine. [ABSTRACT FROM AUTHOR]

Published

2012

5. Tuberculosis vaccines.

Author

Hanekom, W.

Subjects

*TUBERCULOSIS vaccines, *MYCOBACTERIUM tuberculosis, *LUNG disease prevention, *BCG vaccines, *TUBERCULOSIS in children, *CELLULAR immunity, *PREVENTION, *INFECTIOUS disease transmission

Published

2014

6. 453 Population pharmacokinetics (PK) and exposure/response relationships of the receptor tyrosine kinase inhibitor E7080 in phase I studies.

Author

Gupta, A., Koetz, B., Hanekom, W., O'Brien, J.P., Wanders, J., and Jansen, M.

Published

2010

7. Differential gene expression of activating Fcγ receptor classifies active tuberculosis regardless of human immunodeficiency virus status or ethnicity.

Author

Sutherland, J. S., Loxton, A. G., Haks, M. C., Kassa, D., Ambrose, L., Lee, J.-S., Ran, L., Baarle, D., Maertzdorf, J., Howe, R., Mayanja-Kizza, H., Boom, W. H., Thiel, B. A., Crampin, A. C., Hanekom, W., Ota, M. O. C., Dockrell, H., Walzl, G., Kaufmann, S. H. E., and Ottenhoff, T. H. M.

Subjects

*GENE expression, *GENETICS of tuberculosis, *TUBERCULOSIS treatment, *HIV, *REVERSE transcriptase, *GENETICS

Abstract

New diagnostics and vaccines for tuberculosis ( TB) are urgently needed, but require an understanding of the requirements for protection from/susceptibility to TB. Previous studies have used unbiased approaches to determine gene signatures in single-site populations. The present study utilized a targeted approach, reverse transcriptase multiplex ligation-dependent probe amplification ( RT- MLPA), to validate these genes in a multisite study. We analysed ex vivo whole blood RNA from a total of 523 participants across four sub- Saharan countries ( Ethiopia, Malawi, South Africa, and The Gambia) with differences in TB and human immunodeficiency virus ( HIV) status. We found a number of genes that were expressed at significantly lower levels in participants with active disease than in those with latent TB infection ( LTBI), with restoration following successful TB treatment. The most consistent classifier of active disease was FCGR1A (high-affinity Ig G Fc receptor 1 ( CD64)), which was the only marker expressed at significantly higher levels in participants with active TB than in those with LTBI before treatment regardless of HIV status or genetic background. This is the first study to identify a biomarker for TB that is not affected by HIV status or geo-genetic differences. These data provide valuable clues for understanding TB pathogenesis, and also provide a proof-of-concept for the use of RT- MLPA in rapid and inexpensive validation of unbiased gene expression findings. [ABSTRACT FROM AUTHOR]

Published

2014