Background
Malnutrition is a major public health problem in sub-Saharan African countries including Uganda. Sub-Saharan Africa has the highest prevalence of undernourishment - inability to meet dietary energy requirements in the population estimated at 24.8 % [
1]. About 36 % of children under five are stunted and 26 % are underweight [
2].
While Uganda has registered an impressive economic growth rate averaging 7 % per annum in the last 10 years [
3], progress towards reducing malnutrition has remained disturbingly slow. In Uganda, 33 % of children under 5 are stunted, 14 % are underweight while 5 % are wasted [
4]. Anaemia affects half (50 %) of children 6–59 months old. About one in four women in the reproductive age (15–49 years) are anaemic [
4], while 35.8 % of children under five are deficient of vitamin A [
5].
Despite the high cost of malnutrition globally [
6,
7], there has been limited investment in nutrition. Studies indicate that the current global investment in nutrition have not matched the size of the nutrition challenge [
8,
9]. There is evidence that returns on investments in nutrition are high [
10,
11] and benefit future generations [
7]. Nutrition should be prioritised at national and subnational levels because of its importance in human, social and economic development [
12]. Furthermore, investment in nutrition is a necessary prerequisite towards the attainment of the Sustainable Development Goals (SDGs), especially the second goal on ending hunger, achieving food security and improving nutrition, and promoting sustainable agriculture by the year 2030 [
13].
In Uganda, nutrition research is mainly funded by the development partners (donors), international non - governmental organizations (NGO’s) and only to a limited extent by the government of Uganda. Most funding for nutrition research in African countries is obtained from international NGOs and donors. These external funders influence the agenda for nutrition research in accordance with their own interests [
14,
15].
A World Bank report recommends countries to take lead in their development agendas and strengthen the evidence base for investing in nutrition [
10]. Countries need to invest in locally appropriate, sustainable and effective, research based, interventions [
14]. It is acknowledged that countries have a reservoir of experience and expertise that should be tapped to address nutrition challenges [
12]. There are several interventions that can be effectively implemented locally including community based interventions [
11]. For instance, communities can be sensitised to make use of traditional foods which are locally available and cheaper. Additionally, there is need to develop the research capacity of local researchers to meet the current and future research needs of the country [
14]. This requires commitment and efforts from all stakeholders owing to the fact that nutrition programs are considered low priority for both governments and development partners [
10]. The objective of this study was to identify priority areas for nutrition research so as to design effective interventions to address malnutrition in Uganda.
Methods
Study design and setting
We conducted a cross section study between June and November 2011. Both qualitative and quantitative data were collected using the MCM technique [
16]. The qualitative data were gathered while quantitative scores were assigned and the qualitative data were in the form of reasons given for the scores assigned by the interviewees to each option under each criterion. A total of 16 stakeholders selected from six different stakeholder groups in Uganda were interviewed. The stakeholders comprised health professionals, food industry, government, civil society, academics and research funders. Each stakeholder appraised six types of research options namely; ecological nutrition, community nutrition interventions, nutritional epidemiology, behavioural nutrition, clinical/therapeutic nutrition and molecular nutrition (Table
1), for how they could best address malnutrition in Uganda. The six types of research options were chosen by the project consortium team members following extensive meetings held in 2011. The research team then selected the research options taking into consideration the current nutrition research domains and the relevance of those research domains in the national and regional contexts. The participants were asked what they would consider as measures of performance by which the six types of research options would be judged. Using the participant’s responses, a criterion was generated by the research team that included; cost effectiveness, practical feasibility, impact, social acceptability and research efficacy (Table
2).
Table 1
Types of research options and operational definitions
1. Ecological research | Nutrition research in Africa should include ecological approaches to focus on the environmental threats (climate change, food scarcity) that Africa will face and their impact on nutritional status. This will involve conducting integrated research with nutritionists, climate scientists and agricultural researchers to improve the way land is used and our understanding of how communities respond to various exposures. |
2. Community nutrition interventions | Nutrition research in Africa should prioritise improving the evidence base for effective interventions to improve the nutritional status of African populations using a participatory approach. This would require the implementation, monitoring and evaluation of nutrition interventions. |
3. Nutritional epidemiology | To investigate diet-disease relationships, studies could include: a) research synthesis such as systematic reviews, b) conducting longitudinal studies, c) using secondary data that are available in a country related to nutrition related deaths, hospital admissions and treatment to guide planned interventions. |
4. Behavioural nutrition | Nutrition research should give priority to conducting nutrition research that incorporates other disciplines, especially the social, anthropological and behavioural sciences, such as investigating attitudes to address current public health problems. |
5. Therapeutic/clinical nutrition | Nutrition research in Africa should focus on improving the ways that nutritional problems are managed. This involves treating/managing obesity, under nutrition, micronutrient deficiencies, other nutrition-related diseases and HIV. This may include the use of supplements and human feeding trials. |
6. Molecular nutrition (laboratory based) | Nutrition research in Africa should focus on investing in basic nutrition science using new molecular, genetic and biochemical approaches, such as nutrigenomics so that science in Africa can develop technological approaches to address Africa’s nutritional problems. |
Table 2
Criteria chosen to appraise six research options by participants in Uganda
1. Impact (on nutrition and society) | Impact on society: reduces poverty and increases equity; empowerment; participation; gives benefits to environment, food rights; Will it work to improve nutritional status? Time lag for impact of findings, sustainability, addresses an important issue/pertinence; reaches the right target groups, especially women and children and reaches minority and vulnerable sub-populations; broad reach of findings in population; findings can be scaled up or applied in reality. |
2. Research efficacy | Quality of research: rigour, representativeness, measurable; originality; multidisciplinary; applied research focus; availability of baseline data; relevance; uses existing evidence; can be evaluated/monitored; publication of results to academic audience; time that research takes to conduct; contribution to new knowledge. |
3. Cost | Cost of doing the research; cost-effectiveness; cost of applying the research findings. |
4. Practical feasibility | Can research be conducted politically, technically? Policy environment for supporting it. Cooperation of agencies, across departments and sectors; supported by government and at policy level. Technical feasibility, can be implemented, is practical- IT infrastructure, equipment, buildings, access to facilities. Is the human capacity available- in terms of skills/good management structures. |
5. Social acceptability | Social, cultural and individual acceptability; popularity; community participation and consultation both before and after research findings are known; culturally relevant; evidence it meets local needs; adapted to communicate with illiterate populations. |
Study population
We identified sixteen stakeholders from six stakeholder groups including civil society, food industry, government, health professionals, researchers/academics and research funders (Table
3). These stakeholders represented institutions that have a significant role to play in nutrition research.
Table 3
Stakeholder groups and categories of institutions (source of participants)
A) Health professionals 1. Clinicians-medical research council/public health association 2. Nutritionists via a nutrition society/association on the ground | |
B) Food industry 3) Small and medium size agro food industry 4) Large scale food industry | |
C) Government 5) Ministry of health/nutrition 6) Ministry of Agriculture/food production 7) Ministry of social development/community 8) Ministry of higher education/research | |
D) Civil society 9) Public interest NGO – health/food group 10) Citizens association/representing public food health and safety | |
E). Research/academic 11. Nutrition researcher 12. Agricultural researcher 13. Social sciences researcher | |
F) Research funders 14. World bank/WHO 15. NEPAD/USAID/Others 16. United Nations agencies | |
Selection of participants
We identified and selected high ranking individuals to represent their stakeholder groups, taking into consideration their positions in terms of conducting, utilising, funding, planning research and contributing to nutrition research policy development. This was done to enable generation of relevant, reliable, and comprehensive viewpoints on nutrition research policy. The research team consulted relevant literature and held discussions with potential participants to determine their suitability for the interview. After identifying participants for the six stakeholder groups, we asked them to refer us to other stakeholders within their stakeholder group until we generated a list of 16 stakeholders whom we identified and interviewed.
Data collection procedure
We used the
Multi Criteria Analyst software to assess stakeholder’s perspectives on how effectively the six types of research options or methodologies could address the problem of malnutrition in Uganda. Sixteen stakeholders comprising six stakeholder groups (Table
3) were interviewed. The interviews lasted approximately 2–3 h per stakeholder. We explained the MCM tool and the research options to each one of the 16 participants before inviting them to appraise the research options. The interviewees were free to add additional research options of their choice.
We conducted the interviews either at the place of work or at a convenient venue preferred by the participants. We used a laptop computer loaded with the
Multi Criteria Mapper software package to capture the interview proceedings. The interviews were conducted by two senior academics in Uganda. The researchers were trained for a week on the MCM methodology in Tanzania in March 2011 and in South Africa during April - May 2011. The training and use of senior academics ensured consistency in data collection and access to high level stakeholders through their professional networks. The stakeholder groups and the categories of institutions of the participants interviewed are shown in Table
3.
Appraisal of research options
The MCM technique permitted participants to select their own preferred criteria for appraising the six research options. The participants chose five criteria namely; impact, practical feasibility, cost, social acceptability and research efficacy to evaluate the research options as shown in Table
2. During the interview, participants were asked to use a given criteria to numerically score each research option. The scoring for the research options were based on a scale of one to ten chosen by the participant. The MCM software normalised these scores to make them comparable.
The interviewer used the MCM software to guide participants in assigning two performance scores to each research option under each criterion. One score was given to reflect the performance of a research option under the most pessimistic and the second score represented the performance under the most optimistic assumptions respectively. The MCM software (
http://www.multicriteria-mapping.org/mc-mapper) then generated bar charts that indicated the overall relative performance of each option as perceived by stakeholders.
Data analysis
Both quantitative and qualitative MCM data analyses were conducted in parallel as iterative and inductive processes. We used MCM analyst software [
17] to create a data base for examining data by stakeholder groups. In MCM analyst, the database containing all data relating to all participants was interlinked through Microsoft Access with text reports of the qualitative data and a spread sheet to process and present quantitative data in the form of charts. The charts were used to show the average of the pessimistic (left-hand end of bar) and optimistic (right –hand end of bar) ranks, i.e. combined weighted scores for all criteria given by all participants. Quantitative data were grouped for the six different stakeholder groups whereas qualitative data shed light on the factors influencing the performance of different research options.
Ethical consideration
The study was approved by the Makerere University School of Public Health, Higher Degrees, Research and Ethics Committee on 22nd July 2011(IRB00005876, HDREC137) and the Uganda National Council for Science and Technology. All participants provided either written or verbal informed consent.
Discussion
The study revealed that overall, stakeholders appraised community nutrition, behavioural nutrition and ecological nutrition as the three most highly ranked research options towards improving nutritional status while molecular nutrition research option was the lowest. The reasons community nutrition was ranked highest was possibly because it is considered to provide quick solutions to community based nutrition problems and for being relatively low cost and easy to conduct. This implies that in general, stakeholders perceive community nutrition interventions as the most appropriate research option towards addressing the problem of malnutrition in the country. A recent study by Lachat et al., 2014 also revealed that nutrition stakeholders in sub-Saharan Africa identified community nutrition interventions amongst the top priorities for nutrition research to improve nutrition status [
18].
The findings of our study are in agreement with the policy recommendations by the government of Uganda in the Nutrition Action Plan 2011–2016, which outline operational research as a priority investment area. The target research areas identified in the policy document includes improved community and household level food processing for value addition, improved post-harvest handling and storage of food crops, community based school feeding pilot programs and investigation and demonstration of labour-saving technologies for women with young children. Furthermore, emphasis is put on the scale up of cost-effective community-based initiatives for prevention and control of malnutrition through community-based management of acute malnutrition [
19].
Behavioural nutrition was the second most highly ranked research option. This may be because the technical experts to implement behavioural nutrition research are available in the country. A study by Holdsworth et al., 2014 reported that stakeholders in sub-Saharan Africa believe that the technical expertise to conduct behavioural nutrition is widely available in Africa [
20]. This implies that given the required resources, implementation of behavioural nutrition research is feasible in the setting.
Ecological nutrition was the third most highly ranked research option. Ecological research option is considered to be in line with the countries’ development priorities in agriculture and environment and thus has good political will towards its implementation. This intervention can also be implemented using readily available scientific technologies for instance planting drought resistant crops. Under pessimistic scenarios, ecological nutrition was ranked low, in the fifth position. One possible reason for the low ranking may be because of its inability to provide quick solutions to urgent problems of the day. Another possible reason is that it requires experts across disciplines for it to be implemented effectively. In terms of addressing malnutrition, some researchers contend that it’s beneficial in linking agriculture and ecology with human nutrition and health [
21], and that ecological nutrition has a significant role to play in directing agricultural interventions for improved nutrition [
22].
Nutritional epidemiology was ranked low in the fourth position. This is not surprising because the national health system, which is supposed to capture epidemiological data on nutrition, faces several challenges. For instance there are weaknesses in the health management information systems and the infrastructure to capture data at both the district and sub-district levels is poor. This therefore limits proper use of nutritional epidemiology research. However, nutrition epidemiology ranking improved to second position under pessimistic conditions. This is attributed to the fact that it has less political interference compared to other research options like community nutrition research. Although it’s recognised for providing evidence for community nutrition interventions, some African nutrition stakeholders doubt its importance in addressing malnutrition in its own right [
20]. However, nutritional epidemiology can provide nutritional surveillance information which is useful in nutrition planning and programming.
The study revealed that therapeutic/clinical nutrition enjoys good political will, public trust and support. However, it was surprisingly ranked low in the second last position. The poor ranking may be attributed to the fact that therapeutic/clinical nutrition studies are usually facility based and the infrastructure to conduct this type of research is inadequate hence limiting its contribution to address nutrition problems in the Ugandan setting.
Molecular nutrition research was the lowest ranked option under both optimistic and pessimistic scenarios in the settings. Molecular nutrition was perceived to have several shortcomings including limited laboratory equipment and technical personnel, the ethical dilemmas associated with its conduct, its high cost of implementation as well as the long period it takes to realise its impact. However, in the developed setting, it can make major contribution to the development of important nutrition interventions [
23].
Study limitations
The study findings should be interpreted with caution. The participants are not representative of all the nutrition stakeholders in Uganda. The study was part of a large multi-country study undertaken in Benin, South Africa, Tanzania and Uganda. Comparatively, a small number of stakeholders contributed their views towards research options to improve nutrition status in the respective countries. However, being a largely qualitative study, the findings provide useful insights that could contribute to addressing the challenges of malnutrition in Uganda.
The participants were selected from amongst those at the highest levels in their organisations. However, their views did not represent the official positions of their organisations. The selection of the participants was done in order to obtain individuals with considerable knowledge and expertise on nutrition research activities and policy issues in their respective organizations. We might have, omitted individuals at lower levels within their organisations with valuable views about nutrition research interventions.
We used purposive sampling to identify stakeholders within their stakeholder groups and thereafter, the selected stakeholders referred the team members to other stakeholders within in their respective stakeholder groups. This may have led to selection of respondents with similar interests in the topic being addressed, while omitting other respondents presumed to have different interests.
We limited the selection of participants to few individuals due to the fact that we had a small sample size to work with. This limited the variety of potential participants. As a result other key stakeholders for instance plant breeders/biotechnologists/plant pathologists in the agricultural sector were not included. However, we think that the respondents we interviewed gave valuable insights given their extensive experience and expertise in their fields.