Comparing research investment to United Kingdom institutions and published outputs for tuberculosis, HIV and malaria: a systematic analysis across 1997–2013

Across 1997–2013, significant public and philanthropic investments of over £1.4 billion have been awarded to United Kingdom institutions for HIV-, tuberculosis- and malaria-related research, with the vast majority of investment (£1.1 billion; 80.2% of total) directed to preclinical science or public health research. There were 17,271 published outputs on these disease areas, which were cited on 503,752 occasions. The most published and cited disease was HIV, and publications and citations were most numerous in preclinical science for HIV and tuberculosis, but for malaria this was phase I–III trials. The ‘investment per publication’ and ‘investment per citation’ metrics show tuberculosis to be the most productive area of research investment. By type of science, the metrics suggest public health research to be the most productive area for HIV and tuberculosis and phase I–III trials for malaria. The publication trends show that publication numbers steadily increase over time, distinct from the annual volatility of research funding.

HIV, tuberculosis and malaria are infections of huge global burden, and priority areas for WHO [23] and as well as the Global Fund, which has an annual budget of around US$4 billion and collaborates with local, national and international entities from the public, private and philanthropic sector with the aim of addressing and greatly reducing the impact of these diseases in the countries of highest burden [24]. Given the burden and international focus, the significant level of research investment is important and the extent of the publications and resultant citations unsurprising. However, funders and policymakers need to know how well their investments are performing and quantifications of the numbers and usefulness of the published outputs are an important measure of the impact and quality of research. The metrics developed herein highlight the more efficient performance of tuberculosis investments and (more generally) public health research, and will be of interest to the funding agencies and academic and clinical institutions which seek to engage in the highest-quality and best-performing research. It is also important that the large volume of knowledge generated by the research and disseminated by the publications is made clearly available to those involved in decision making regarding future funding priorities and more immediate considerations for policy and implementation.

The approach described herein covers three important disease areas, but it would be useful for future work to consider other infectious diseases and to systematically analyse investments and publications in non-communicable disease research. The investment dataset does not consider private sector investments, which may particularly impact upon the metrics used here for phase I–III trials and for product development research in these infections.

As journal requirements and publication databases evolve, it will become increasingly possible to link individual investment and published outputs via grant reference numbers and name of the agency sponsoring the research. This will provide the ability to generate more precise metrics of the relationship between investment and publications and citations. There is also the possibility for future work to consider published outputs by individual journal and journal metrics. Other research has suggested that the infectious disease content of the Lancet and New England Journal of Medicine journals consists of up to 35% for HIV and tuberculosis combined and 65% for all other infections [6]; therefore, the relative importance of each disease area for funders and publishers would be important to assess. Alongside the ResIn study [15], other research has highlighted the importance of the United Kingdom infectious disease research portfolio [25], and also the publication record of United Kingdom authors [4]. Funders such as the Wellcome Trust also use bibliometric analyses to assess their portfolio of studies [26]. Whilst detailed and informative, the disadvantage of these reports is that they focus solely on a single funder and each funder uses different criteria to analyse their work; one strength of this paper, and the ResIn study as a whole, is the unified approach across funders and disease areas, allowing simultaneous comparison of multiple awarding bodies.

The analysis in this study used data from one comprehensive publications database (Scopus) and inclusion of data from other databases may have modified the results as the content of each database is slightly different [ 27]. Categorisation of both investments and publications is necessarily a pragmatic process and open to subjectivity, though the rigour of the process is strengthened by the cross-checks of random samples of data by a second author. We made pragmatic decisions when applying our methodology – (1) that investments across 1997–2010 would publish most of their papers during 1997–2013; (2) that only including first or last authors from a United Kingdom institution would be a suitable measure of significant United Kingdom involvement and therefore likely to have received research funding. It is difficult to estimate how many papers have been excluded, or included, in error via these methods. Due to small numbers, we do not anticipate a significant impact of any retrospective reclassification of the cross-disciplinary category by type of science in the 1997–2010 data. Individual publications were assumed to be of equal impact and not controlled for by journal impact factor or any other publication or journal metric or weighting.