Your search keyword '"Edward J. M. Joy"' showing total 100 results

1. Differences in the nutritional quality of improved finger millet genotypes in Ethiopia

Author

Demeke Teklu, Dawd Gashu, Edward J. M. Joy, Elizabeth H. Bailey, Lolita Wilson, Tilahun Amede, and Martin R. Broadley

Subjects

Medicine, Science

Abstract

Abstract Improved crop genotypes are constantly introduced. However, information on their nutritional quality is generally limited. The present study reports the proximate composition and the concentration and relative bioavailability of minerals of improved finger millets of different genotypes. Grains of finger millet genotypes (n = 15) grown in research station during 2019 and 2020 in Ethiopia, and replicated three times in a randomized complete block design, were analysed for proximate composition, mineral concentration (iron, zinc, calcium, selenium), and antinutritional factors (phytate, tannin and oxalate). Moreover, the antinutritional factors to mineral molar ratio method was used to estimate mineral bioavailability. The result shows a significant genotypic variation in protein, fat and fibre level, ranging from 10% to 14.6%, 1.0 to 3.8%, and 1.4 to 4.6%, respectively. Similarly, different finger millets genotypes had significantly different mineral concentrations ranging from 3762 ± 332 to 5893 ± 353 mg kg−1 for Ca, 19.9 ± 1.6 to 26.2 ± 2.7 mg kg−1 for Zn, 36.3 ± 4.6 to 52.9 ± 9.1 mg kg−1 for Fe and 36.6 ± 11 to 60.9 ± 22 µg kg−1 for Se. Phytate (308–360 µg g−1), tannin (0.15–0.51 mg g−1) and oxalate (1.26–4.41 mg g−1) concentrations were also influenced by genotype. Antinutritional factors to minerals molar ratio were also significantly different by genotypes but were below the threshold for low mineral bioavailability. Genotype significantly influenced mineral and antinutritional concentrations of finger millet grains. In addition, all finger millet genotypes possess good mineral bioavailability. Especially, the high Ca concentration in finger millet, compared to in other cereals, could play a vital role to combating Ca deficiency. The result suggests the different finger millet genotypes possess good nutrient content and may contribute to the nutrition security of the local people.

Published

2024

2. Urine Se concentration poorly predicts plasma Se concentration at sub-district scales in Zimbabwe, limiting its value as a biomarker of population Se status

Author

Beaula Mutonhodza, Mavis P. Dembedza, Edward J. M. Joy, Muneta G. Manzeke-Kangara, Handrea Njovo, Tasiana K. Nyadzayo, R. Murray Lark, Alexander A. Kalimbira, Elizabeth H. Bailey, Martin R. Broadley, Tonderayi M. Matsungo, and Prosper Chopera

Subjects

biomarkers, selenium deficiency, dietary selenium intake, estimated average requirement, iodothyronine deiodinase, micronutrient surveillance, Nutrition. Foods and food supply, TX341-641

Abstract

IntroductionThe current study investigated the value of urine selenium (Se) concentration as a biomarker of population Se status in rural sub-Saharan Africa.MethodUrine and plasma Se concentrations were measured among children aged 6–59 months (n = 608) and women of reproductive age (WRA, n = 781) living in rural Zimbabwe (Murehwa, Shamva, and Mutasa districts) and participating in a pilot national micronutrient survey. Selenium concentrations were measured by inductively coupled plasma-mass spectrometry (ICP-MS), and urine concentrations were corrected for hydration status.ResultsThe median (Q1, Q3) urine Se concentrations were 8.4 μg/L (5.3, 13.5) and 10.5 μg/L (6.5, 15.2) in children and WRA, respectively. There was moderate evidence for a relationship between urine Se concentration and plasma Se concentration in children (p = 0.0236) and WRA (p = < 0.0001), but the relationship had poor predictive value. Using previously defined thresholds for optimal activity of iodothyronine deiodinase (IDI), there was an association between deficiency when indicated by plasma Se concentrations and urine Se concentrations among WRA, but not among children.DiscussionUrine Se concentration poorly predicted plasma Se concentration at sub-district scales in Zimbabwe, limiting its value as a biomarker of population Se status in this context. Further research is warranted at wider spatial scales to determine the value of urine Se as a biomarker when there is greater heterogeneity in Se exposure.

Published

2024

3. Farmers’ and millers’ experiences and attitudes towards the production and processing of zinc biofortified wheat in Pakistan: a mixed methods study

Author

Marena Ceballos-Rasgado, Subhan Ajmal, Usman Mahboob, E. Louise Ander, Munir Zia, Victoria Hall Moran, Edward J. M. Joy, Mukhtiar Zaman, Heather Ohly, and Nicola M. Lowe

Subjects

biofortification, farmers, millers, staple crops, producers, acceptability, Nutrition. Foods and food supply, TX341-641

Abstract

BackgroundZinc biofortified wheat may be a sustainable strategy to increase zinc intake in areas where fortification and dietary diversification are not feasible or are limited by household purchasing power. This convergent mixed methods study aimed to explore the farmers’ and millers’ experiences and attitudes towards the production and processing of zinc biofortified wheat in Pakistan.MethodsA telephone survey was conducted with farmers (n = 418) who were provided with Zincol-2016 biofortified wheat seed for the 2019–2020 growing season, as part of a wheat grain micronutrient mapping study across Punjab Province. The survey explored the farmers’ experiences of growing Zincol-2016 and whether they opted to grow it again in the subsequent season. Semi-structured focus group discussions were undertaken in a separate group of farmers in Khyber Pakhtunkhwa (KP) province (n = 12) who grew Zincol-2016 for the BiZiFED2 RCT. Millers were also interviewed in KP, both those who had processed Zincol-2016 for the trial (n = 12) and those who had no experience of processing biofortified wheat (n = 12). Survey data were analyzed using descriptive statistics and transcripts of focus groups were analyzed using thematic analysis.ResultsNearly half of farmers who responded to the survey (47%) re-cultivated Zincol-2016 in the following season. The drivers for Zincol-2016 re-cultivation were seed availability (100%), grain yield and growth resistance (98%), quality of the flour from the previous harvest (97%) and nutritional benefit (94.5%). Discussions with farmers suggested that the main motivators for potential scale-up of biofortified wheat were the perceived quality of the grain, wheat, and flour. Millers saw it as an opportunity to expand their business. Farmers and millers valued the health benefits of the wheat. Challenges for scale-up include the need of additional support to produce it, unfamiliarity with the biofortification process, production costs, and external threats to the supply chain.ConclusionFarmers and millers showed a strong implicit preference for Zincol-2016 over alternative varieties. Crop performance and product yield were the most cited motivators for growing Zincol-2016. Farmers and millers are willing to produce and process biofortified wheat if financial and educational support is provided.

Published

2023

4. Dietary selenium intake among Ethiopian children in areas known for selenium spatial variability

Author

Kaleab Hailu, Edward J. M. Joy, Elaine L. Ferguson, Elizabeth H. Bailey, Lolita Wilson, Kenneth Davis, Martin R. Broadley, and Dawd Gashu

Subjects

selenium, mineral spatial variability, food mineral concentration, breast milk selenium, dietary mineral intake, Nutrition. Foods and food supply, TX341-641

Abstract

IntroductionThere is spatial variability of selenium (Se) in soil and crops in Ethiopia. We assessed the Se content of food items, breast milk, and urine among infants in Ethiopia from two areas with contrasting Se concentrations in soils.MethodsDietary Se intakes among children (6–23 months) were evaluated using a weighed food record on two non-consecutive days. Also, spot urine samples from children and breast milk samples from their mothers were collected to determine Se concentration. Selenium concentrations in the samples were analyzed using an inductively coupled plasma mass spectrometer (ICP-MS).ResultsInjera (prepared from teff and mixtures of other cereals) with a legume-based stew were the most frequently consumed foods by the children in both areas, followed by pasta. Overall, the Se concentration (mean ± SD) of food items, breast milk (12.2 ± 3.9 μg/L vs. 3.39 ± 1.5 μg/L), and urine samples (22.5 ± 11.5 μg/L vs. 3.0 ± 1.9 μg/L) from East Amhara were significantly higher than the corresponding samples from West Amhara (p < 0.001). The total Se intakes by the study children from East Amhara and West Amhara were 30.2 [IQ 25%, 14.2; IQ 75%, 54.1] and 7.4 [IQR 25%, 4.2; IQ 75%, 10.6] μg day–1, respectively; 31.5% of children from East Amhara and 92% of children from West Amhara were at risk of inadequate Se intakes. Urinary Se excretion accounted for 53 and 39% of daily dietary Se intake in East Amhara and West Amhara, respectively. Dietary Se intake was positively correlated with urinary Se excretion in East Amhara (r = 0.56; p < 0.001) but not among samples from West Amhara (r = 0.16; p ≥ 0.05), suggesting greater physiological Se conservation in a state of deficiency.ConclusionThere is spatial variability of Se in foods, breast milk, and urine in Ethiopia, suggesting the need for implementation of targeted agronomic interventions that enhance Se concentrations in the edible portion of plant foods.

Published

2023

5. Do agronomic approaches aligned to regenerative agriculture improve the micronutrient concentrations of edible portions of crops? A scoping review of evidence

Author

Muneta Grace Manzeke-Kangara, Edward J. M. Joy, R. Murray Lark, Sally Redfern, Ans Eilander, and Martin R. Broadley

Subjects

alliums, beta-carotene, iron, rice, tomato, vitamin C, Nutrition. Foods and food supply, TX341-641

Abstract

Regenerative Agriculture (RA) is used to describe nature-based agronomic approaches that aim to build soil health and crop resilience, minimize negative environmental outcomes, and improve farmer livelihoods. A benefit that is increasingly attributed to crops grown under RA practices is improved nutritional content. However, we do not know the extent to which RA influences crop nutritional quality and under what management approaches and context, can such effects be realized. A scoping review of recent literature (Web of Science, 2000–2021) was carried out to assess the evidence that RA approaches improve crop micronutrient quality. Papers included combinations of agronomic approaches that could be defined as Regenerative: “Organic Inputs” including composts and manures, cover crops, crop rotations, crop residues and biochars; “Reduced Tillage”, “Intercropping”, “Biostimulants” e.g. arbuscular mycorrhizal fungi; plant growth promoting bacteria, and “Irrigation”, typically deficit-irrigation and alternate wetting and drying. The crop types reviewed were predetermined covering common sources of food and included: Tomato (Solanum lycopersicum L.), Wheat (Triticum aestivum L.), Rice (Oryza sativa L.), Maize (Zea mays L.), Pulses (Fabaceae), Alliums (Allium spp.), and “other” crop types (30 types). This scoping review supports a potential role for RA approaches in increasing the concentrations of micronutrients in the edible portions of several crop types under specific practices, although this was context specific. For example, rice grown under increased organic inputs showed significant increases in grain zinc (Zn) concentration in 15 out of 16 studies. The vitamin C concentration of tomato fruit increased in ~50% of studies when plants were grown under increased organic inputs, and in 76% of studies when plants were grown under deficit irrigation. Overall, the magnitude and reproducibility of the effects of RA practices on most crop nutritional profiles were difficult to assess due to the diversity of RA approaches, geographical conditions, and the limited number of studies for most crops in each of these categories. Future research with appropriate designs, improved on-farm surveillance and nutritional diagnostics are needed for better understanding the potential role of RA in improving the quality of food, human nutrition, and health.

Published

2023

6. A pilot survey of selenium status and its geospatial variation among children and women in three rural districts of Zimbabwe

Author

Beaula Mutonhodza, Christopher Chagumaira, Mavis P. Dembedza, Edward J. M. Joy, Muneta G. Manzeke-Kangara, Handrea Njovo, Tasiana K. Nyadzayo, R. Murray Lark, Alexander A. Kalimbira, Elizabeth H. Bailey, Martin R. Broadley, Tonderayi M. Matsungo, and Prosper Chopera

Subjects

selenium deficiency, conditional kriging, geospatial patterns, micronutrients, glutathione peroxidase 3, iodothyronine deiodinase, Nutrition. Foods and food supply, TX341-641

Abstract

IntroductionSelenium (Se) deficiency is increasingly recognized as a public health problem in sub-Saharan Africa.MethodsThe current cross-sectional study assessed the prevalence and geospatial patterns of Se deficiency among children aged 6–59 months (n = 741) and women of 15–49 years old (n = 831) selected by simple random sampling in rural Zimbabwe (Murewa, Shamva, and Mutasa districts). Venous blood samples were collected and stored according to World Health Organization guidelines. Plasma Se concentration was determined by inductively coupled plasma-mass spectrometry.ResultsMedian, Q1, and Q3 plasma Se concentrations were 61.2, 48.7, and 73.3 μg/L for women and 40.5, 31.3, and 49.5 μg/L for children, respectively. Low plasma Se concentrations (9.41 μg/L in children and 10.20 μg/L in women) indicative of severe Se deficiency risk was observed. Overall, 94.6% of children and 69.8% of women had sub-optimal Se status defined by plasma Se concentrations of

Published

2023

7. Impact of zinc and iron agronomic biofortification on grain mineral concentration of finger millet varieties as affected by location and slope

Author

Demeke Teklu, Dawd Gashu, Edward J. M. Joy, R. Murray Lark, Elizabeth H. Bailey, Lolita Wilson, Tilahun Amede, and Martin R. Broadley

Subjects

agronomic biofortification, Iron, fertilizer, finger millet, micronutrient deficiencies, Zinc, Nutrition. Foods and food supply, TX341-641

Abstract

BackgroundFood crop micronutrient concentrations can be enhanced through agronomic biofortification, with the potential to reduce micronutrient deficiencies among rural population if they have access to fertilizers. Here we reported the impact of agronomic biofortification on finger millet grain zinc (Zn) and iron (Fe) concentration.MethodsA field experiment was conducted in farmers’ fields in Ethiopia in two locations; over two seasons in one district (2019 and 2020), and over a single season (2019) in a second district. The experimental design had 15 treatment combinations comprising 3 finger millet varieties and 5 soil-applied fertilizer treatments: (T1) 20 kg ha−1 FeSO4 + 25 kg ha−1 ZnSO4 + NPKS; (T2) 25 kg ha−1 ZnSO4 + NPKS; (T3) NPKS; (T4) 30% NPKS; (T5) 20 kg ha−1 FeSO4 + NPKS. The treatments were studied at two slope positions (foot and hill), replicated four times in a randomized complete block design.ResultsGrain Zn concentration increased by 20% in response to Fe and Zn and by 18.9% due to Zn addition. Similarly, grain Fe concentration increased by 21.4% in T1 and 17.8% in T5 (Fe). Zinc fertilizer application (p

Published

2023

8. Good soil management can reduce dietary zinc deficiency in Zimbabwe

Author

Muneta G. Manzeke-Kangara, Edward J. M. Joy, Florence Mtambanengwe, Prosper Chopera, Michael J. Watts, Martin R. Broadley, and Paul Mapfumo

Subjects

Agro-fortification, Cattle manure, Disability Adjusted Life Years (DALYs), Maize-based cropping systems, Mineral NPK, Soil Zn fertilizers, Agriculture (General), S1-972

Abstract

Abstract Background Dietary zinc (Zn) deficiency is widespread in sub-Saharan Africa (SSA) with adverse impacts on human health. Agronomic biofortification with Zn fertilizers and improved soil fertility management, using mineral and organic nutrient resources, has previously been shown to increase Zn concentration of staple grain crops, including maize. Here, we show the potential of different soil fertility management options on maize crops to reduce dietary Zn deficiency in Zimbabwe using secondary data from a set of surveys and field experiments. Methods An ex-ante approach was used, informed by published evidence from studies in three contrasting smallholder production systems in Zimbabwe. To estimate current Zn deficiency in Zimbabwe, data on dietary Zn supply from non-maize sources from the Global Expanded Nutrient Supply (GENuS) data set were linked to maize grain Zn composition observed under typical current soil fertility management scenarios. Results A baseline dietary Zn deficiency prevalence of 68% was estimated from a reference maize grain Zn composition value of 16.6 mg kg−1 and an estimated dietary Zn intake of 9.3 mg capita−1 day−1 from all food sources. The potential health benefits of reducing Zn deficiency using different soil fertility management scenarios were quantified within a Disability Adjusted Life Years (DALYs) framework. A scenario using optimal mineral NPK fertilizers and locally available organic nutrient resources (i.e. cattle manure and woodland leaf litter), but without additional soil Zn fertilizer applications, is estimated to increase maize grain Zn concentration to 19.3 mg kg−1. This would reduce the estimated prevalence of dietary Zn deficiency to 55%, potentially saving 2238 DALYs year−1. Universal adoption of optimal fertilizers, to include soil Zn applications and locally available organic leaf litter, is estimated to increase maize grain Zn concentration to 32.4 mg kg−1 and reduce dietary Zn deficiency to 16.7%, potentially saving 9119 DALYs year−1. Potential monetized yield gains from adopting improved soil fertility management range from 49- to 158-fold larger than the potential reduction in DALYs, if the latter are monetized using standard methods. Conclusion Farmers should be incentivized to adopt improved soil fertility management to improve both crop yield and quality.

Published

2021

9. Zinc agronomic biofortification of staple crops may be a cost-effective strategy to alleviate zinc deficiency in Ethiopia

Author

Abdu Oumer Abdu, Hugo De Groote, Edward J. M. Joy, Diriba B. Kumssa, Martin R. Broadley, and Dawd Gashu

Subjects

biofortification, DALYs, zinc, Zn-enriched fertilizers, Ethiopia, Nutrition. Foods and food supply, TX341-641

Abstract

BackgroundInadequate dietary zinc (Zn) supplies and Zn deficiency (ZnD) are prevalent in Ethiopia, where cereals are major dietary sources, yet low in bioavailable Zn. Zinc agronomic biofortification (ZAB) of staple crops through application of Zn fertilizers may contribute to alleviating ZnD. However, large-scale promotion and adoption of ZAB requires evidence of the feasibility and public health benefits. This paper aimed to quantify the potential cost-effectiveness of ZAB of staple crops for alleviating ZnD in Ethiopia.MethodsCurrent burden of ZnD among children in Ethiopia was quantified using a disability-adjusted life years (DALYs) framework. Evidence on baseline dietary Zn intake, cereal consumption, and fertilizer response ratio was compiled from existing literature and secondary data sources. Reduction in the burden of ZnD attributable to ZAB of three staple cereals (maize, teff, and wheat) via granular and foliar Zn fertilizer applications was calculated under optimistic and pessimistic scenarios. The associated costs for fertilizer, labor, and equipment were estimated in proportion to the cropping area and compared against DALYs saved and the national Gross Domestic Product capita–1.ResultsAn estimated 0.55 million DALYs are lost annually due to ZnD, mainly due to ZnD-related mortality (91%). The ZAB of staple cereals via granular Zn fertilizer could reduce the burden of ZnD by 29 and 38% under pessimistic and optimistic scenarios, respectively; the respective values for ZAB via foliar application were 32 and 40%. The ZAB of staple cereals via granular fertilizer costs US$502 and US$505 to avert each DALY lost under optimistic and pessimistic scenarios, respectively; the respective values for ZAB via foliar application were US$226 and US$ 496. Foliar Zn application in combination with existing pesticide use could reduce costs to US$260–353 for each DALY saved. Overall, ZAB of teff and wheat were found to be more cost-effective in addressing ZnD compared to maize, which is less responsive to Zn fertilizer.ConclusionZAB of staple crops via granular or foliar applications could be a cost-effective strategy to address ZnD, which can be integrated with the existing fertilizer scheme and pesticide use to minimize the associated costs.

Published

2022

10. Effectiveness of Agronomic Biofortification Strategy in Fighting against Hidden Hunger

Author

Demeke Teklu, Dawd Gashu, Edward J. M. Joy, Tilahun Amede, and Martin R. Broadley

Subjects

agronomic biofortification, dietary intake, effectiveness, fertilizers, micronutrient deficiencies, Agriculture

Abstract

Micronutrient deficiencies (MNDs), also known as hidden hunger, affect more than a quarter of the global population. Agronomic biofortification helps to increase the concentration of a target mineral in food crops and improve human mineral dietary intake. It is a means of providing nutrient-dense foods to a larger population, especially among rural resource-poor settings, providing that they have access to mineral fertilizers. However, the feasibility of agronomic biofortification in combating hidden hunger depends on several factors in addition to fertilizer access, including crop type, genotype, climate, soils, and soil mineral interactions. Consideration of its effectiveness in increasing human mineral intake to the daily requirements and the improvement of human health and the cost-effectiveness of the program is also important. In this paper, we review the available literature regarding the potential effectiveness and challenges of agronomic biofortification to improve crop micronutrient concentrations and reduce hidden hunger.

Published

2023

11. Preparing for a community-based agriculture-to-nutrition trial in rural Malawi: formative research to assess feasibility and inform design and implementation decisions

Author

Gabriella Chiutsi-Phiri, Alexander A. Kalimbira, Leonard Banda, Patson C. Nalivata, Marion Sanuka, Zione Kalumikiza, Limbanazo Matandika, Joseph Mfutso-Bengo, Elizabeth Allen, Elaine Ferguson, Joanna Sturgess, Martin R. Broadley, Simon Langley-Evans, Kate Millar, Dawd Gashu, and Edward J. M. Joy

Subjects

Biofortification, Community-based trials, Formative research, Community sensitisation, Medicine (General), R5-920

Abstract

Abstract Background This study reports findings from formative research conducted to assess the feasibility and inform the design and implementation of the Addressing Hidden Hunger with Agronomy (AHHA) trial. The AHHA trial was a randomised, controlled trial conducted in rural Malawi, in which participants were given maize flour biofortified with selenium or control flour not biofortified with selenium for a period of 10 weeks, after which blood samples were taken to measure selenium status. Methods Formative research was conducted in villages near to the AHHA trial study site 1 year before the planned intervention. A short questionnaire with adult women (n = 50), focus group discussions with male (n groups = 3) and female (n groups = 3) community members, and in-depth key informant interviews (n = 7) were conducted to understand community practices and perceptions. Findings Meals were typically cooked and eaten at home in this community, while participants reported that maize flour would be less readily sold than maize grain – important considerations for the design of the trial. Regarding intervention delivery, we identified potential concerns around effects on fertility, links between blood sampling and witchcraft, and the potential for social stigma if community members considered participants lazy for receiving free flour. Participants reported that involvement of the Malawi government partners including health extension workers would increase trust. Interpretation Following the formative research, the AHHA trial appeared feasible. However, community sensitisation would be essential to address potential fears and concerns; effective sensitisation would support recruitment and treatment adherence, and would protect the safety and wellbeing of participants and researchers. People in positions of authority and trust including village headmen, religious leaders, health and agriculture extension workers, and community care groups should be involved in community sensitisation.

Published

2021

12. Zinc deficiency is highly prevalent and spatially dependent over short distances in Ethiopia

Author

Adamu Belay, Dawd Gashu, Edward J. M. Joy, R. Murray Lark, Christopher Chagumaira, Blessings H. Likoswe, Dilnesaw Zerfu, E. Louise Ander, Scott D. Young, Elizabeth H. Bailey, and Martin R. Broadley

Subjects

Medicine, Science

Abstract

Abstract Zinc (Zn) is an essential nutrient for human health. In Ethiopia, a high prevalence of Zn deficiency has been reported. To explore demographic variation and spatial dependencies in the Zn status of the Ethiopian population, we analyzed archived serum samples (n = 3373) from the 2015 Ethiopian National Micronutrient Survey (ENMS), a cross-sectional survey of young children, school-age children, women of reproductive age (WRA) and men conducted in all 9 regions and two city administration of Ethiopia. Serum Zn concentrations, measured using inductively coupled plasma-mass spectrometry (ICPMS), were compared to thresholds based on age, sex, fasting status, and time of blood collection, after adjusting for inflammation status. Median serum Zn concentration of the population was 57.5 μg dL−1. Overall, it is estimated that 72% of the population was Zn deficient, with high prevalence in all demographic groups. Spatial statistical analysis showed that there was spatial dependence in Zn status of WRA at distances of up to 45 km. Zinc deficiency is spatially dependent over short distances. Although WRA in most areas are likely to be Zn deficient, prevalence of deficiency varies at regional scale and between rural and urban inhabitants, suggesting there is scope to explore drivers of this variation, prioritize nutritional interventions, and to design more representative surveillance programs.

Published

2021

13. Genotypic Response of Finger Millet to Zinc and Iron Agronomic Biofortification, Location and Slope Position towards Yield

Author

Demeke Teklu, Dawd Gashu, Edward J. M. Joy, R. Murray Lark, Elizabeth H. Bailey, Lolita Wilson, Tilahun Amede, and Martin R. Broadley

Subjects

agronomic biofortification, finger millet, genotype, iron, yield, zinc, Agriculture

Abstract

The present study aimed to investigate the influence of genotypic differences on responses to zinc and iron agronomic biofortification among yields of finger millet. A field experiment was conducted over two seasons in farmers’ fields in Ethiopia (2019, 2020). The experimental design had 15 treatment combinations comprising three finger millet genotypes and the applications of different combinations of zinc and iron mineral fertilizers. Five soil-applied fertilizer treatments (20 kg h−1 FeSO4 + 25 kg h−1 ZnSO4 + NPKS, 25 kg ha−1 ZnSO4 + NPKS, 20 kg ha−1 FeSO4 + NPKS, NPKS, and 30% NPKS) at two locations (Gojjam and Arsi Negelle, Ethiopia) and using two slope positions (foot and hill) were replicated four times in a randomized complete block design. Grain yield and biomass were evaluated on a plot basis. Plant height, total and productive tiller number, finger length of the longest spike and number of fingers per main ear were measured at the maturity stage. The combined soil application of FeSO47H2O and ZnSO47H2O increased the yield of the Meba genotype by 51.6%. Additionally, ZnSO47H2O fertilizer application increased the yield of the Urji genotype by 27.6%. A yield enhancement of about 18.3% of the Diga-01 genotype was achieved due to the FeSO47H2O fertilizers’ application. The findings of the present study suggest that the influence of Zn and Fe agronomic biofortification on the yield of finger millet could be affected by genotype differences and environmental conditions.

Published

2023

14. Exploring community perceptions in preparation for a randomised controlled trial of biofortified flour in Pakistan

Author

Usman Mahboob, Heather Ohly, Edward J. M. Joy, Victoria Moran, Mukhtiar Zaman, and Nicola M. Lowe

Subjects

Biofortification, Zinc, Iron, Deficiency, Community, Pakistan, Medicine (General), R5-920

Abstract

Abstract Background Biofortification of staple food crops may be a cost-effective and sustainable approach to reducing micronutrient deficiencies in resource-poor settings with low dietary diversity. However, its success depends on uptake by the local population. This paper presents formative research conducted in a remote, rural community in North West Pakistan, prior to commencing a randomised controlled trial to test the effectiveness of consuming zinc-biofortified wheat flour for alleviating zinc deficiency. It explored local community members’ knowledge, understanding and attitudes towards biofortification and views on members of their community taking part in the trial. Methods Four focus group discussions were conducted with male and female community members (separately for cultural reasons) and four in-depth interviews were conducted with Jirga members—respected male elders. Participation was limited to households that were ineligible for the trial so that we could explore the perspectives of community members who were not influenced by the incentives of the trial. Focus group participants were selected at community events for transparency. Data collection took place at the local school and homes of Jirga members. Thematic analysis was undertaken, using a combination of deductive and inductive approaches to identify key themes. Results A total of 47 men and women participated in this study. Participants reported clear motivation to access and consume more nutritious flour, believing this would bring health benefits, particularly to women and children. Trusted members of the local community, including Jirga members and female health workers, should be involved in providing information on biofortified flour (and the trial) to increase levels of awareness and acceptance. Without their involvement, there is a risk that biofortified flour would be mistrusted. The cost of flour is the main factor affecting purchasing decisions, and biofortified flour will need to be cost-competitive to achieve widespread uptake in marginalised, rural communities. Conclusion This formative study generated rich, qualitative data from a range of community stakeholders to improve the understanding of important barriers and facilitators to the widespread acceptability and adoption of biofortified wheat. Implementation research such as this will inform future decision-making in relation to scaling up biofortified wheat in Pakistan.

Published

2020

15. Biofortified Maize Improves Selenium Status of Women and Children in a Rural Community in Malawi: Results of the Addressing Hidden Hunger With Agronomy Randomized Controlled Trial

Author

Edward J. M. Joy, Alexander A. Kalimbira, Joanna Sturgess, Leonard Banda, Gabriella Chiutsi-Phiri, Hastings Manase, Jellita Gondwe, Elaine L. Ferguson, Zione Kalumikiza, Elizabeth H. Bailey, Scott D. Young, Limbanazo Matandika, Joseph Mfutso-Bengo, Kate Millar, Maja Niksic, Lucia Segovia de la Revilla, Blessings H. Likoswe, John C. Phuka, Felix P. Phiri, R. Murray Lark, Dawd Gashu, Simon C. Langley-Evans, E. Louise Ander, Nicola M. Lowe, Alan D. Dangour, Patson C. Nalivata, Martin R. Broadley, and Elizabeth Allen

Subjects

selenium, fertilizer, nutrition, agriculture, biofortification, Nutrition. Foods and food supply, TX341-641

Abstract

Background: Selenium deficiency is widespread in the Malawi population. The selenium concentration in maize, the staple food crop of Malawi, can be increased by applying selenium-enriched fertilizers. It is unknown whether this strategy, called agronomic biofortification, is effective at alleviating selenium deficiency.Objectives: The aim of the Addressing Hidden Hunger with Agronomy (AHHA) trial was to determine whether consumption of maize flour, agronomically-biofortified with selenium, affected the serum selenium concentrations of women, and children in a rural community setting.Design: An individually-randomized, double-blind placebo-controlled trial was conducted in rural Malawi. Participants were randomly allocated in a 1:1 ratio to receive either intervention maize flour biofortified with selenium through application of selenium fertilizer, or control maize flour not biofortified with selenium. Participant households received enough flour to meet the typical consumption of all household members (330 g capita−1 day−1) for a period of 8 weeks. Baseline and endline serum selenium concentration (the primary outcome) was measured by inductively coupled plasma mass spectrometry (ICP-MS).Results: One woman of reproductive age (WRA) and one school-aged child (SAC) from each of 180 households were recruited and households were randomized to each group. The baseline demographic and socioeconomic status of participants were well-balanced between arms. No serious adverse events were reported. In the intervention arm, mean (standard deviation) serum selenium concentration increased over the intervention period from 57.6 (17.0) μg L−1 (n = 88) to 107.9 (16.4) μg L−1 (n = 88) among WRA and from 46.4 (14.8) μg L−1 (n = 86) to 97.1 (16.0) μg L−1 (n = 88) among SAC. There was no evidence of change in serum selenium concentration in the control groups.Conclusion: Consumption of maize flour biofortified through application of selenium-enriched fertilizer increased selenium status in this community providing strong proof of principle that agronomic biofortification could be an effective approach to address selenium deficiency in Malawi and similar settings.Clinical Trial Registration:http://www.isrctn.com/ISRCTN85899451, identifier: ISRCTN85899451.

Published

2022

16. Biofortified Wheat Increases Dietary Zinc Intake: A Randomised Controlled Efficacy Study of Zincol-2016 in Rural Pakistan

Author

Nicola M. Lowe, Mukhtiar Zaman, Muhammad Jaffar Khan, Anna K. M. Brazier, Babar Shahzad, Ubaid Ullah, Gul Khobana, Heather Ohly, Martin R. Broadley, Munir H. Zia, Harry J. McArdle, Edward J. M. Joy, Elizabeth H. Bailey, Scott D. Young, Jung Suh, Janet C. King, Jonathan Sinclair, and Svetlana Tishkovskaya

Subjects

zinc, biofortified wheat, rural Pakistan, zinc status, micronutrient intake, fatty acid, Nutrition. Foods and food supply, TX341-641

Abstract

A new variety of zinc biofortified wheat (Zincol-2016) was released in Pakistan in 2016. The primary aim of this study was to examine the effects of consuming Zincol-2016 wheat flour on biochemical and functional markers of zinc status in a population with widespread zinc deficiency. An individually-randomised, double-blind, placebo-controlled cross over design was used. Fifty households were recruited to participate in the study, with each household included at least one woman of reproductive age (16–49 years) who was neither pregnant nor breast feeding or currently taking nutritional supplements. All households were provided with control flour for an initial 2-week baseline period, followed by the intervention period where households were randomly allocated in a 1:1 ratio to receive biofortified flour (group A; n = 25) and control flour (group B; n = 25) for 8-weeks, then switched to the alternate flour for 8-weeks. The trial has been registered with the ISRCTN (https://www.isrctn.com), ID ISRCTN83678069. The primary outcome measure was plasma zinc concentration, and the secondary outcome measures were plasma selenium and copper concentrations, plasma copper:zinc ratio and fatty acid desaturase and elongase activity indices. Nutrient intake was assessed using 24-h dietary recall interviews. Mineral concentrations in plasma were measured using inductively coupled plasma mass spectrometry and free fatty acids and sphingolipids by mass spectrometry. Linear Mixed Model regression and General Linear Model with repeated measures were used to analyse the outcomes. Based on an average flour consumption of 224 g/day, Zincol-2016 flour provided an additional daily zinc intake of between 3.0 and 6.0 mg for white and whole grain flour, respectively. No serious adverse events were reported. This resulted in significant, increase in plasma zinc concentration after 4 weeks [mean difference 41.5 μg/L, 95% CI (6.9–76.1), p = 0.02]. This was not present after 8 weeks (p = 0.6). There were no consistent significant effects of the intervention on fatty acid desaturase and elongase activity indices. Regular consumption of Zincol-2016 flour increased the daily zinc intake of women of reproductive age by 30–60%, however this was not associated with a sustained improvement in indices of zinc status.

Published

2022

17. Can selenium deficiency in Malawi be alleviated through consumption of agro-biofortified maize flour? Study protocol for a randomised, double-blind, controlled trial

Author

Edward J. M. Joy, Alexander A. Kalimbira, Dawd Gashu, Elaine L. Ferguson, Joanna Sturgess, Alan D. Dangour, Leonard Banda, Gabriella Chiutsi-Phiri, Elizabeth H. Bailey, Simon C. Langley-Evans, R. Murray Lark, Kate Millar, Scott D. Young, Limbanazo Matandika, Joseph Mfutso-Bengo, John C. Phuka, Felix P. Phiri, Jellita Gondwe, E. Louise Ander, Nicola M. Lowe, Patson C. Nalivata, Martin R. Broadley, and Elizabeth Allen

Subjects

Biofortification, Fertilisers, Malawi, Micronutrients, Nutrition, Selenium, Medicine (General), R5-920

Abstract

Abstract Background Micronutrient deficiencies including selenium (Se) are widespread in Malawi and potentially underlie a substantial disease burden, particularly among poorer and marginalised populations. Concentrations of Se in staple cereal crops can be increased through application of Se fertilisers – a process known as agronomic biofortification (agro-biofortification) – and this may contribute to alleviating deficiencies. The Addressing Hidden Hunger with Agronomy (AHHA) trial aims to establish the efficacy of this approach for improving Se status in rural Malawi. Methods A double-blind, randomised, controlled trial will be conducted in a rural community in Kasungu District, Central Region, Malawi. The hypothesis is that consumption of maize flour agro-biofortified with Se will increase serum Se concentration. We will recruit 180 women of reproductive age (WRA) (20–45 years) and 180 school-age children (SAC) (5–10 years) randomly assigned in a 1:1 ratio to receive either maize flour enriched through agro-biofortification with Se or a control flour not enriched with Se. Households will receive flour (330 g per capita per day) for 12 weeks. The primary outcome is Se concentration in serum (μg/L). Serum will be extracted from venous blood samples drawn at baseline (prior to flour distribution) and end-line. Selenium concentration will be measured by using inductively coupled plasma mass spectrometry. Discussion Findings will be communicated to policy stakeholders and participating communities and reported in peer-reviewed journals. Trial registration The Addressing Hidden Hunger with Agronomy (Malawi) trial is registered (5th March 2019; ISCRTN85899451).

Published

2019

18. The risk of selenium deficiency in Malawi is large and varies over multiple spatial scales

Author

Felix P. Phiri, E. Louise Ander, Elizabeth H. Bailey, Benson Chilima, Allan D. C. Chilimba, Jellita Gondwe, Edward J. M. Joy, Alexander A. Kalimbira, Diriba B. Kumssa, R. Murray Lark, John C. Phuka, Andrew Salter, Parminder S. Suchdev, Michael J. Watts, Scott D. Young, and Martin R. Broadley

Subjects

Medicine, Science

Abstract

Abstract Selenium (Se) is an essential human micronutrient. Deficiency of Se decreases the activity of selenoproteins and can compromise immune and thyroid function and cognitive development, and increase risks from non-communicable diseases. The prevalence of Se deficiency is unknown in many countries, especially in sub-Saharan Africa (SSA). Here we report that the risk of Se deficiency in Malawi is large among a nationally representative population of 2,761 people. For example, 62.5% and 29.6% of women of reproductive age (WRA, n = 802) had plasma Se concentrations below the thresholds for the optimal activity of the selenoproteins glutathione peroxidase 3 (GPx3;

Published

2019

19. Estimates of Dietary Mineral Micronutrient Supply from Staple Cereals in Ethiopia at a District Level

Author

Abdu Oumer Abdu, Diriba B. Kumssa, Edward J. M. Joy, Hugo De Groote, R. Murray Lark, Martin R. Broadley, and Dawd Gashu

Subjects

cereals, dietary supply, mineral micronutrients, disaggregated data, spatial data, Nutrition. Foods and food supply, TX341-641

Abstract

Recent surveys have revealed substantial spatial variation in the micronutrient composition of cereals in Ethiopia, where a single national micronutrient concentration values for cereal grains are of limited use for estimating typical micronutrient intakes. We estimated the district-level dietary mineral supply of staple cereals, combining district-level cereal production and crop mineral composition data, assuming cereal consumption of 300 g capita−1 day−1 proportional to district-level production quantity of each cereal. We considered Barley (Hordeum vulgare L.), maize (Zea mays L.), sorghum (Sorghum bicolor (L.) Moench), teff (Eragrostis tef (Zuccagni) Trotter), and wheat (Triticum aestivum L.) consumption representing 93.5% of the total cereal production in the three major agrarian regions. On average, grain cereals can supply 146, 23, and 7.1 mg capita−1 day−1 of Ca, Fe, and Zn, respectively. In addition, the Se supply was 25 µg capita−1 day−1. Even at district-level, cereals differ by their mineral composition, causing a wide range of variation in their contribution to the daily dietary requirements, i.e., for an adult woman: 1–48% of Ca, 34–724% of Fe, 17–191% of Se, and 48–95% of Zn. There was considerable variability in the dietary supply of Ca, Fe, Se, and Zn from staple cereals between districts in Ethiopia.

Published

2022

20. Selenium Concentration in Cattle Serum and Fodder from Two Areas in Ethiopia with Contrasting Human Selenium Concentration

Author

Kaleab Hailu, Dawd Gashu, Edward J. M. Joy, Silvia Alonso, Solomon Gizaw, Samuel Gameda, E. Louise Ander, Elizabeth H. Bailey, Lolita Wilson, R. Murray Lark, Diriba B. Kumssa, and Martin R. Broadley

Subjects

amhara region, cattle feed, cattle selenium deficiency, ethiopia, Biochemistry, QD415-436, Biology (General), QH301-705.5

Abstract

Introduction: Selenium (Se) is an essential mineral for livestock health and productivity. In cattle, Se deficiency is associated with delayed conception, growth retardation, and increased morbidity and mortality. Methods: We conducted a survey of cattle serum (n = 224) and feed (n = 81) samples from two areas with contrasting human and cereal grain Se concentration in Ethiopia. The fodder samples include stover, straw, hay and pasture grass. Se concentration of the samples were measured using inductively coupled plasma-mass spectrometry. Results: Serum Se concentration ranged from 14.9 to 167.8 μg L-1 (median, 41.4 μg L-1). Cattle from East Amhara had significantly greater serum Se concentration compared to cattle from West Amhara (median: 68.4 μg L-1 vs 25.7 μg L-1; p < 0.001). Overall, 79.8% of cattle had Se deficiency (

Published

2022

21. Limited Supply of Protein and Lysine Is Prevalent among the Poorest Households in Malawi and Exacerbated by Low Protein Quality

Author

Molly Muleya, Kevin Tang, Martin R. Broadley, Andrew M. Salter, and Edward J. M. Joy

Subjects

protein quality, amino acids, digestibility, protein deficiency, household survey, Nutrition. Foods and food supply, TX341-641

Abstract

We estimated dietary supplies of total and available protein and indispensable amino acids (IAAs) and predicted the risk of deficiency in Malawi using Household Consumption and Expenditure Survey data. More than half of dietary protein was derived from cereal crops, while animal products provided only 11%. The supply of IAAs followed similar patterns to that of total proteins. In general, median protein and IAA supplies were reduced by approximately 17% after accounting for digestibility, with higher losses evident among the poorest households. At population level, 20% of households were at risk of protein deficiency due to inadequate available protein supplies. Of concern was lysine supply, which was inadequate for 33% of households at the population level and for the majority of the poorest households. The adoption of quality protein maize (QPM) has the potential to reduce the risk of protein and lysine deficiency in the most vulnerable households by up to 12% and 21%, respectively.

Published

2022

22. Site-Specific Factors Influence the Field Performance of a Zn-Biofortified Wheat Variety

Author

Munir H. Zia, Iftikhar Ahmed, Elizabeth H. Bailey, R. Murray Lark, Scott D. Young, Nicola M. Lowe, Edward J. M. Joy, Lolita Wilson, Mukhtiar Zaman, and Martin R. Broadley

Subjects

biofortification, calcium (Ca), cadmium (Cd), environment, genotype, G×E×M, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Background: Biofortification of wheat with zinc (Zn) through breeding and agronomy can reduce Zn deficiencies and improve human health. “High-Zn” wheat varieties have been released in India and Pakistan, where wheat is consumed widely as a dietary staple. The aim of this study was to quantify the potential contribution of a “high-Zn” wheat variety (Triticum aestivum L. var. Zincol-2016) and Zn fertilizers to improving dietary Zn supply under field conditions in Pakistan.Methods: Grain Zn concentration of Zincol-2016 and local reference varieties were determined at three sites of contrasting soil Zn status: Faisalabad (Punjab Province; diethylenetriamine pentaacetate- (DTPA-)extractable Zn, 1.31 mg kg−1 soil; gross plot size 13.3 m2; n = 4; reference var. Faisalabad-2008), Islamabad (Capital Territory; 0.48 mg kg−1; 4.6 m2; n = 5; reference var. NARC-2011), and Pir Sabak (Khyber Pakhtunkhwa, KPK, Province; 0.12 mg kg−1 soil; 9.1 m2; n = 4; reference vars. Pirsabak-2015, Wadhan-2017). Eight Zn fertilizer treatment levels were tested using a randomized complete block design: control; soil (5 or 10 kg ha−1 ZnSO4.H2O; 33% Zn applied at sowing); foliar (0.79 or 1.58 kg of ZnSO4.H2O ha−1 applied as a 250 L ha−1 drench at crop booting stage); three soil × foliar combinations.Results: At the Faisalabad site, the grain Zn concentration of Zincol-2016 was greater than Faisalabad-2008, with no yield penalty. Zincol-2016 did not have larger grain Zn concentrations than reference varieties used at Islamabad or Pir Sabak sites, which both had a lower soil Zn status than the Faisalabad site. Foliar Zn fertilization increased grain Zn concentration of all varieties at all sites. There were no significant effects of soil Zn fertilizers, or variety·fertilizer interactions, on grain Zn concentration or yield.Conclusions: Environment and management affect the performance of “high-Zn” wheat varieties, and these factors needs to be evaluated at scale to assess the potential nutritional impact of Zn biofortified crops. Designing studies to detect realistic effect sizes for new varieties and crop management strategies is therefore an important consideration. The current study indicated that nine replicate plots would be needed to achieve 80% power to detect a 25% increase in grain Zn concentration.

Published

2020

23. Community Perceptions of Zinc Biofortified Flour during an Intervention Study in Pakistan

Author

Usman Mahboob, Marena Ceballos-Rasgado, Victoria Hall Moran, Edward J. M. Joy, Heather Ohly, Mukhtiar Zaman, and Nicola M. Lowe

Subjects

zinc, biofortification, deficiency, Pakistan, qualitative, community, Nutrition. Foods and food supply, TX341-641

Abstract

Zinc-biofortified flour may be a cost-effective approach to improve zinc status of populations in low-resource settings. The success of biofortification programmes is subject to acceptability and uptake by consumers. This study explored community leaders’ and community members’ (n = 72) experiences and attitudes towards the flour provided during a cluster randomised controlled trial of zinc biofortified wheat in rural Pakistan (BiZiFED2). Focus group discussions (n = 12) were conducted and thematic analysis applied using an inductive, semantic, contextualist approach. Five themes were identified: (1) Contribution to food security; (2) Better sensory and baking properties than local flour; (3) Perceived health benefits; (4) Willingness to pay for the flour; and (5) Importance of trusted promoters/suppliers. Although the participants were blind to whether they had received control or biofortified flour, referred to collectively as “study flour”, the results indicated that the study flour performed well in terms of its taste and bread making qualities, with no adverse reports from participants in either arm of the BIZIFED2 RCT. Participants suggested that they would buy the biofortified wheat if this was available at a fair price due to perceived health benefits, reporting positive sensory characteristics and cooking attributes when compared to the flour available in the local markets. Overall, there was a positive reception of the programme and flour among the participants, and members of the community hoped for its continuation and expansion.

Published

2022

24. Global Trends (1961–2017) in Human Dietary Potassium Supplies

Author

Diriba B. Kumssa, Edward J. M. Joy, and Martin R. Broadley

Subjects

adequate intake, potassium sufficiency ratio, potassium to sodium ratio, recommended daily allowance, Nutrition. Foods and food supply, TX341-641

Abstract

Background: Potassium (K) is an essential mineral and major intracellular electrolyte involved in the regulation of blood pressure, muscle contraction and nerve transmission in humans. Major dietary sources of K include fruits and vegetables, starchy roots and tubers, and whole grains. The aim of this study was to assess and report: (i) the sufficiency of K in national food systems globally, (ii) to quantify the contribution from food groups, and (iii) to explore spatial and temporal trends in the period of 1961–2017. Methods: Food supply and demography (1961–2017), K composition and K requirement data were combined to estimate per capita human dietary supplies of potassium (DSK), adequate intake of K (AIK) and K sufficiency ratio (KSR) at national, regional, continental and global levels. Results and Discussion: Globally, the mean ± SD. DSK (mg capita−1 d−1) increased from 2984 ± 915 in 1961 to 3796 ± 1161 in 2017. There was a wide range in DSK between geographical regions and across years, with particularly large increases in east Asia, where DSK increased from 5000 mg capita−1 day−1. Roots and tubers contributed the largest dietary source of K, providing up to 80% of DSK in most regions. At the global level, throughout the 57-year period, the population-weighted KSR was 1 based on the 2019 National Academies of Science and the 2016 European Union AIK recommendation. While KSR ≥ 1 shows sufficiency of DSK, KSR < 1 does not indicate K deficiency risk. Conclusion: Due to the absence of a Recommended Daily Allowance (RDA) for K, this study used the ratio of DSK:AIK (i.e., KSR) to assess dietary K sufficiency. Estimates of dietary K sufficiency are, therefore, highly sensitive to the AIK reference value used and this varied greatly based on different institutions and years. To quantify the risk of dietary K deficiency, bridging the data gap to establish an RDA for K should be a global research priority.

Published

2021

25. Re-Defining the Population-Specific Cut-Off Mark for Vitamin A Deficiency in Pre-School Children of Malawi

Author

Blessings H. Likoswe, Edward J. M. Joy, Fanny Sandalinas, Suzanne Filteau, Kenneth Maleta, and John C. Phuka

Subjects

vitamin A, retinol binding protein, serum retinol, inflammation, c-reactive protein, alpha-1 acid glycoprotein, Nutrition. Foods and food supply, TX341-641

Abstract

Retinol Binding Protein (RBP) is responsible for the transport of serum retinol (SR) to target tissue in the body. Since RBP is relatively easy and cheap to measure, it is widely used in national Micronutrient Surveys (MNS) as a proxy for SR to determine vitamin A status. By regressing RBP concentration against SR concentration measured in a subset of the survey population, one can define a population-specific threshold concentration of RBP that indicates vitamin A deficiency (VAD). However, the relationship between RBP and SR concentrations is affected by various factors including inflammation. This study, therefore, aimed to re-define the population-specific cut-off for VAD by examining the influence of inflammation on RBP and SR, among pre-school children (PSC) from the 2015–16 Malawi MNS. The initial association between RBP and SR concentrations was poor, and this remained the case despite applying various methods to correct for inflammation. The World Health Organization (WHO) recommends the threshold of 0.7 µmol/L to define VAD for SR concentrations. Applying this threshold to the RBP concentrations gave a VAD prevalence of 24%, which reduced to 10% after inflammation adjustments following methods developed by the Biomarkers Reflecting Inflammation and Nutritional Determinants of Anemia (BRINDA). Further research is required to identify why SR and RBP were poorly associated in this population. Future MNS will need to account for the effect of inflammation on RBP to measure the prevalence of VAD in Malawi.

Published

2021

26. Selenium Deficiency Is Widespread and Spatially Dependent in Ethiopia

Author

Adamu Belay, Edward J. M. Joy, Christopher Chagumaira, Dilnesaw Zerfu, E. Louise Ander, Scott D. Young, Elizabeth H. Bailey, R. Murray Lark, Martin R. Broadley, and Dawd Gashu

Subjects

serum selenium, geospatial prediction, glutathione peroxidase 3, iodothyronine deiodinase, Ethiopia, Nutrition. Foods and food supply, TX341-641

Abstract

Selenium (Se) is an essential element for human health and livestock productivity. Globally, human Se status is highly variable, mainly due to the influence of soil types on the Se content of crops, suggesting the need to identify areas of deficiency to design targeted interventions. In sub-Saharan Africa, including Ethiopia, data on population Se status are largely unavailable, although previous studies indicated the potential for widespread Se deficiency. Serum Se concentration of a nationally representative sample of the Ethiopian population was determined, and these observed values were combined with a spatial statistical model to predict and map the Se status of populations across the country. The study used archived serum samples (n = 3269) from the 2015 Ethiopian National Micronutrient Survey (ENMS). The ENMS was a cross-sectional survey of young and school-age children, women and men. Serum Se concentration was measured using inductively coupled plasma mass spectrometry (ICPMS). The national median (Q1, Q3) serum Se concentration was 87.7 (56.7, 123.0) μg L−1. Serum Se concentration differed between regions, ranging from a median (Q1, Q3) of 54.6 (43.1, 66.3) µg L−1 in the Benishangul-Gumuz Region to 122.0 (105, 141) µg L−1 in the Southern Nations, Nationalities, and Peoples’ Region and the Afar Region. Overall, 35.5% of the population were Se deficient, defined as serum Se < 70 µg L−1. A geostatistical analysis showed that there was marked spatial dependence in Se status, with serum concentrations greatest among those living in North-East and Eastern Ethiopia and along the Rift Valley, while serum Se concentrations were lower among those living in North-West and Western Ethiopia. Selenium deficiency in Ethiopia is widespread, but the risk of Se deficiency is highly spatially dependent. Policies to enhance Se nutrition should target populations in North-West and Western Ethiopia.

Published

2020

27. Inflammation Adjustment by Two Methods Decreases the Estimated Prevalence of Zinc Deficiency in Malawi

Author

Blessings H. Likoswe, Felix P. Phiri, Martin R. Broadley, Edward J. M. Joy, Noel Patson, Kenneth M. Maleta, and John C. Phuka

Subjects

zinc, biomarkers, inflammation, C-reactive protein (CRP), alpha 1-acid glycoprotein (AGP), children, Nutrition. Foods and food supply, TX341-641

Abstract

Serum zinc concentration (SZC) is used widely to assess population-level zinc status. Its concentration decreases during inflammatory responses, which can affect the interpretation of the results. This study aimed to re-estimate the prevalence of zinc deficiency in Malawi based on the 2015–2016 Malawi Micronutrient Survey (MNS) data, by adjusting SZC measures with markers of inflammation. SZC and inflammation data from 2760 participants were analysed. Adjustments were made using: (1) The Internal Correction Factor (ICF) method which used geometric means, and (2) The Biomarkers Reflecting Inflammation and Nutritional Determinants of Anemia (BRINDA) method, which used linear regression. Mean SZC values increased significantly when adjustments were made by either ICF or BRINDA (p < 0.001). The national prevalence of zinc deficiency decreased from 62% to 59%, after ICF adjustment, and to 52% after BRINDA adjustment. ICF and BRINDA values of SZC were highly correlated (p < 0.001, r = 0.99), but a Bland–Altman plot showed a lack of agreement between the two methods (bias of 2.07 µg/dL). There was no association between the adjusted SZC and stunting, which is a proxy indicator for zinc deficiency. Inflammation adjustment of SZC, using ICF or BRINDA, produces lower estimates of zinc deficiency prevalence, but the lack of agreement between the adjustment methods warrants further research. Furthermore, the lack of association between SZC and stunting highlights the need to explore other biomarkers and proxies of population zinc assessment. This study demonstrates the importance of considering inflammatory confounders when reporting SZC, to ensure accuracy and to support policy decision making.

Published

2020

28. Anemia in children aged 6–59 months was significantly associated with maternal anemia status in rural Zimbabwe

Author

Beaula Mutonhodza, Mavis P. Dembedza, Murray R. Lark, Edward J. M. Joy, Muneta G. Manzeke‐Kangara, Handrea Njovo, Tasiana K. Nyadzayo, Alexander A. Kalimbira, Elizabeth H. Bailey, Martin R. Broadley, Tonderayi M. Matsungo, and Prosper Chopera

Subjects

Zimbabwe, Stunting, Micronutrient supplementation, Anemia, Water sanitation and hygiene, Food Science

Abstract

Globally, anemia is a public health problem affecting mostly women of reproductive age (WRA, n = 452) and children aged 6–59 months (n = 452) from low- and lower-middle-income countries. This cross-sectional study assessed the prevalence and determinants of anemia in WRA and children aged 6–59 months in rural Zimbabwe. The venous blood sample was measured for hemoglobin utilizing a HemoCue machine. Anthropometric indices were assessed and classified based on World Health Organization standards. Socioeconomic characteristics were assessed. The median (±inter quartile range (IQR)) age of WRA was 29 ± 12 years and that for children was 29 ± 14 months. The prevalence of anemia was 29.6% and 17.9% in children and WRA, respectively, while the median (±IQR) hemoglobin levels were 13.4 ± 1.8 and 11.7 ± 1.5 g/dl among women and children, respectively. Multiple logistic regression analysis was used to assess determinants of anemia. Anemia in children was significantly associated with maternal anemia (odds ratio (OR) = 2.02; 95% CI 1.21–3.37; p = .007) and being a boy (OR = 0.63; 95% CI 0.41–0.95; p = .029), while anemia in WRA was significantly associated with the use of unimproved dug wells as a source of drinking water (OR = 0.36; 95% CI 0.20–0.66; p = .001) and lack of agricultural land ownership (OR = 0.51; 95% CI 0.31–0.85; p = .009). Anemia is a public health problem in the study setting. The positive association between maternal and child anemia reflects the possibility of cross-generational anemia. Therefore, interventions that focus on improving preconceptual and maternal nutritional status may help to reduce anemia in low-income settings.

Published

2022

29. Preparing for a community-based agriculture-to-nutrition trial in rural Malawi: formative research to assess feasibility and inform design and implementation decisions

Author

Alexander A Kalimbira, Simon C. Langley-Evans, Elaine L. Ferguson, Elizabeth Allen, Limbanazo Matandika, Dawd Gashu, Gabriella Chiutsi-Phiri, Patson C. Nalivata, Leonard Banda, Martin R. Broadley, Marion Sanuka, Kate Millar, Joseph Mfutso-Bengo, Edward J. M. Joy, Joanna Sturgess, and Zione Kalumikiza

Subjects

Medicine (General), Social stigma, 030309 nutrition & dietetics, media_common.quotation_subject, Medicine (miscellaneous), Fertility, law.invention, 03 medical and health sciences, 0302 clinical medicine, R5-920, Randomized controlled trial, law, Intervention (counseling), Environmental health, Community-based trials, 030212 general & internal medicine, media_common, 0303 health sciences, Government, business.industry, Community sensitisation, Research, Focus group, Formative research, Agriculture, business, Psychology, Biofortification, Blood sampling

Abstract

Background This study reports findings from formative research conducted to assess the feasibility and inform the design and implementation of the Addressing Hidden Hunger with Agronomy (AHHA) trial. The AHHA trial was a randomised, controlled trial conducted in rural Malawi, in which participants were given maize flour biofortified with selenium or control flour not biofortified with selenium for a period of 10 weeks, after which blood samples were taken to measure selenium status. Methods Formative research was conducted in villages near to the AHHA trial study site 1 year before the planned intervention. A short questionnaire with adult women (n = 50), focus group discussions with male (n groups = 3) and female (n groups = 3) community members, and in-depth key informant interviews (n = 7) were conducted to understand community practices and perceptions. Findings Meals were typically cooked and eaten at home in this community, while participants reported that maize flour would be less readily sold than maize grain – important considerations for the design of the trial. Regarding intervention delivery, we identified potential concerns around effects on fertility, links between blood sampling and witchcraft, and the potential for social stigma if community members considered participants lazy for receiving free flour. Participants reported that involvement of the Malawi government partners including health extension workers would increase trust. Interpretation Following the formative research, the AHHA trial appeared feasible. However, community sensitisation would be essential to address potential fears and concerns; effective sensitisation would support recruitment and treatment adherence, and would protect the safety and wellbeing of participants and researchers. People in positions of authority and trust including village headmen, religious leaders, health and agriculture extension workers, and community care groups should be involved in community sensitisation.

Published

2021

30. Acceptability of zinc biofortified wheat and flour among farmers in Pakistan: experiences from the BiZiFED2 project

Author

Nicola M Lowe, Heather Ohly, Munir H Zia, Usman Mahboob, Edward J M Joy, Subhan Ajmal, E. Louise Ander, Victoria Louise Moran, and Marena Ceballos-Rasgado

Published

2022

31. The Water Footprint of Diets: A Global Systematic Review and Meta-analysis

Author

Pauline Scheelbeek, Ruth Quinn, Francesca Harris, Edward J. M. Joy, Rosemary Green, Cami Moss, and Alan D. Dangour

Subjects

Conservation of Natural Resources, 010504 meteorology & atmospheric sciences, Rain, planetary health, Medicine (miscellaneous), Review, 010501 environmental sciences, Biology, 01 natural sciences, Nutrition Policy, Toxicology, Food Preferences, Water Supply, sustainable diets, water use, environmental footprint, Farm water, Per capita, Animals, Humans, 0105 earth and related environmental sciences, 2. Zero hunger, Nutrition and Dietetics, business.industry, Water, Agriculture, Diet, Water security, 13. Climate action, food consumption, Meta-analysis, Food processing, Diet, Healthy, business, Surface water, Water use, Food Science

Abstract

Agricultural water requirements differ between foods. Population-level dietary preferences are therefore a major determinant of agricultural water use. The “water footprint” (WF) represents the volume of water consumed in the production of food items, separated by water source; blue WF represents ground and surface water use, and green WF represents rain water use. We systematically searched for published studies using the WF to assess the water use of diets. We used the available evidence to quantify the WF of diets in different countries, and grouped diets in patterns according to study definition. “Average” patterns equated to those currently consumed, whereas “healthy” patterns included those recommended in national dietary guidelines. We searched 7 online databases and identified 41 eligible studies that reported the dietary green WF, blue WF, or total WF (green plus blue) (1964 estimates for 176 countries). The available evidence suggests that, on average, European (170 estimates) and Oceanian (18 estimates) dietary patterns have the highest green WFs (median per capita: 2999 L/d and 2924 L/d, respectively), whereas Asian dietary patterns (98 estimates) have the highest blue WFs (median: 382 L/d per capita). Foods of animal origin are major contributors to the green WFs of diets, whereas cereals, fruits, nuts, and oils are major contributors to the blue WF of diets. “Healthy” dietary patterns (425 estimates) had green WFs that were 5.9% (95% CI: −7.7, −4.0) lower than those of “average” dietary patterns, but they did not differ in their blue WFs. Our review suggests that changes toward healthier diets could reduce total water use of agriculture, but would not affect blue water use. Rapid dietary change and increasing water security concerns underscore the need for a better understanding of the amount and type of water used in food production to make informed policy decisions.

Published

2020

32. Mineral micronutrient status and spatial distribution among the Ethiopian population

Author

Adamu Belay, Dawd Gashu, Edward J. M. Joy, Murray R. Lark, Christopher Chagumaira, Dilnesaw Zerfu, Louise E. Ander, Scott D. Young, Elizabeth H. Bailey, and Martin R. Broadley

Subjects

Geospatial prediction, Nutrition and Dietetics, Spatial variation, Variogram analysis, Trace-element, Hypertension, Medicine (miscellaneous), Magnesium, Calcium, Ethiopia, Cobalt, Mineral micronutrients, Micronutrient surveys

Abstract

Multiple micronutrient deficiencies are widespread in Ethiopia. However, the distribution of Se and Zn deficiency risks has previously shown evidence of spatially dependent variability, warranting the need to explore this aspect for wider micronutrients. Here, blood serum concentrations for Ca, Mg, Co, Cu and Mo were measured (n 3102) on samples from the Ethiopian National Micronutrient Survey. Geostatistical modelling was used to test spatial variation of these micronutrients for women of reproductive age, who represent the largest demographic group surveyed (n 1290). Median serum concentrations were 8·6 mg dl−1 for Ca, 1·9 mg dl−1 for Mg, 0·4 µg l−1 for Co, 98·8 µg dl−1 for Cu and 0·2 µg dl−1 for Mo. The prevalence of Ca, Mg and Co deficiency was 41·6 %, 29·2 % and 15·9 %, respectively; Cu and Mo deficiency prevalence was 7·6 % and 0·3 %, respectively. A higher prevalence of Ca, Cu and Mo deficiency was observed in north western, Co deficiency in central and Mg deficiency in north eastern parts of Ethiopia. Serum Ca, Mg and Mo concentrations show spatial dependencies up to 140–500 km; however, there was no evidence of spatial correlations for serum Co and Cu concentrations. These new data indicate the scale of multiple mineral micronutrient deficiency in Ethiopia and the geographical differences in the prevalence of deficiencies suggesting the need to consider targeted responses during the planning of nutrition intervention programmes.

Published

2022

33. Examining study participants’ decision-making and ethics-related experiences in a dietary community randomized controlled trial in Malawi

Author

Limbanazo Matandika, Joseph Mfutso-Bengo, Edward J. M. Joy, Eric Umar, Kate Millar, and Gabriella Chiutsi-Phiri

Subjects

Malawi, Health (social science), Undue influence, Voluntarily, Medical philosophy. Medical ethics, Rumours, education, Grounded theory, law.invention, Randomized controlled trial, law, Informed consent, Humans, Embedded ethics, Qualitative Research, Self-efficacy, Research ethics, Medical education, Motivation, Informed Consent, R723-726, Health Policy, Research, Ethical roles, Community randomized control trial, Focus group, Research Personnel, Issues, ethics and legal aspects, Philosophy of medicine, Psychology, Ethics Committees, Research

Abstract

Background The participant recruitment process is a key ethical pivot point when conducting robust research. There is a need to continuously review and improve recruitment processes in research trials and to build fair and effective partnerships between researchers and participants as an important core element in ensuring the ethical delivery of high-quality research. When participants make a fair, informed, and voluntary decision to enroll in a study, they agree to fulfill their roles. However, supporting study participants to fulfill study requirements is an important ethical obligation for researchers, yet evidenced as challenging to achieve. This paper reports on participants’ motivations to volunteer and remain part of a dietary study conducted in Kasungu District, Malawi. Methods We conducted twenty in-depth interviews (with chiefs, religious leaders, trial participants, and health surveillance assistants), five systematic ethnographic observations, and fourteen focus group discussions with trial participants and their partners. Interviews were audio-recorded and transcribed verbatim. We used a grounded theory methodology to analyse data that included coding, detailed memo writing, and data interpretation. Findings The findings reveal that many participants had concerns during the trial. Thematically, experiences included anxieties, mistrust of researchers, rumours, fears of exploitation, and misconceptions. Anonymous concerns collected from the participants were reported to the trial team which enabled the researchers to appropriately support participants. Despite initial concerns, participants described being supported and expressed motivation to take up their role. Conclusion These findings highlight a diverse map of multiple notions of what is ethically relevant and what can impact participation and retention within a study. The study has revealed how embedding a responsive approach to address participants’ concerns and ethical issues can support trust relationships. We argue for the need to employ embedded ethics strategies that enhance informed consent, focus on participants’ needs and positive experiences, and support researchers to fulfill their roles. This work highlights the need for research ethics committees to focus on the risks of undue influence and prevent exploitation especially in settings with a high asymmetry in resources and power between researcher and participant groups. Trial Registration: The Addressing Hidden Hunger with Agronomy (Malawi) trial was registered on 5th March 2019 (ISCRTN85899451).

Published

2021

34. Modeling food fortification contributions to micronutrient requirements in Malawi using Household Consumption and Expenditure Surveys

Author

Katherine P. Adams, Monica Woldt, Alexander A Kalimbira, Sarah Pedersen, Jennifer Yourkavitch, E. Louise Ander, Benjamin W. Chrisinger, Kevin Tang, Elaine L. Ferguson, Omar Dary, Edward J. M. Joy, Blessings H. Likoswe, and Lucia Segovia De La Revilla

Subjects

Male, Rural Population, HCES, and promotion of well-being, Malawi, General Science & Technology, Fortification, Psychological intervention, Wheat flour, High coverage, Cardiovascular, Models, Biological, General Biochemistry, Genetics and Molecular Biology, Oral and gastrointestinal, large-scale food fortification, equity, History and Philosophy of Science, Models, Environmental health, micronutrient, Humans, Micronutrients, 3.3 Nutrition and chemoprevention, Nutrition, Consumption (economics), General Neuroscience, Prevention, Food fortification, Nutritional Requirements, Fortified, Micronutrient, Biological, Prevention of disease and conditions, Geography, inadequacy, Food, Food, Fortified, Food systems, Zero Hunger, Female

Abstract

Large-scale food fortification may be a cost-effective intervention to increase micronutrient supplies in the food system when implemented under appropriate conditions, yet it is unclear if current strategies can equitably benefit populations with the greatest micronutrient needs. This study developed a mathematical modeling framework for comparing fortification scenarios across different contexts. It was applied to model the potential contributions of three fortification vehicles (oil, sugar, and wheat flour) toward meeting dietary micronutrient requirements in Malawi through secondary data analyses of a Household Consumption and Expenditure Survey. We estimated fortification vehicle coverage, micronutrient density of the diet, and apparent intake of nonpregnant, nonlactating women for nine different micronutrients, under three food fortification scenarios and stratified by subpopulations across seasons. Oil and sugar had high coverage and apparent consumption that, when combined, were predicted to improve the vitamin A adequacy of the diet. Wheat flour contributed little to estimated dietary micronutrient supplies due to low apparent consumption. Potential contributions of all fortification vehicles were low in rural populations of the lowest socioeconomic position. While the model predicted large-scale food fortification would contribute to reducing vitamin A inadequacies, other interventions are necessary to meet other micronutrient requirements, especially for the rural poor.

Published

2021

35. The BiZiFED project: Biofortified zinc flour to eliminate deficiency in Pakistan

Author

Nicola M Lowe, Martin R. Broadley, Muhammad Usman Ghani Khan, Munir Hussain Zia, Mukhtiar Zaman, Edward J. M. Joy, Harry J. McArdle, and Heather Ohly

Subjects

0301 basic medicine, medicine.medical_specialty, Population, Biofortification, Medicine (miscellaneous), 030209 endocrinology & metabolism, biofortification, 03 medical and health sciences, 0302 clinical medicine, Zinc deficiency (plant disorder), medicine, Pakistan, Economic impact analysis, education, 2. Zero hunger, education.field_of_study, 030109 nutrition & dietetics, Nutrition and Dietetics, business.industry, L510, Public health, zinc, 1. No poverty, Capacity building, deficiency, Micronutrient, Emerging Research, 3. Good health, Biotechnology, micronutrients, Sustainability, business

Abstract

Zinc deficiency is a global public health problem, affecting ~17% of the world's population, with the greatest burden in low‐ and middle‐income countries. An increasing body of evidence suggests that biofortification may be a cost‐effective and sustainable approach to reducing zinc and other micronutrient deficiencies. Biofortification enhances the nutritional quality of food crops through conventional plant breeding techniques and agronomic practices. This paper presents ongoing research on biofortification in Pakistan, where over 40% of women are zinc deficient. The Biofortified Zinc Flour to Eliminate Deficiency (BiZiFED) project aims to investigate the impact of biofortification as a strategy to alleviate zinc deficiency in Pakistan. The project is supported by the Biotechnology and Biological Sciences Research Council (BBSRC) Global Challenges Research Fund from May 2017 to April 2019. This paper outlines the four objectives and work packages within the BiZiFED project: (1) a double‐blind, randomised controlled trial to examine the effect of consuming flour made from a high zinc variety of biofortified wheat (Zincol‐2016/NR‐421) on dietary zinc intake and status; (2) a cost‐effectiveness study to assess the health and economic impact of agronomic biofortification of wheat; (3) a mixed methods study to explore the cultural acceptability and sustainability of biofortification in Pakistan; (4) capacity building and development of long‐term research partnerships in Pakistan. The findings will contribute to the evidence base for the potential impact of biofortification to alleviate zinc deficiency among the poorest communities.

Published

2019

36. Selenium speciation and bioaccessibility in Se-fertilised crops of dietary importance in Malawi

Author

Martin R. Broadley, Scott D. Young, Prosper Chopera, Edward J. M. Joy, I.S. Ligowe, Elizabeth H. Bailey, Saul Vazquez Reina, and Molly Muleya

Subjects

0303 health sciences, 030309 nutrition & dietetics, media_common.quotation_subject, 010401 analytical chemistry, chemistry.chemical_element, 01 natural sciences, Selenate, 0104 chemical sciences, Organic form, 03 medical and health sciences, Speciation, chemistry.chemical_compound, chemistry, Agronomy, Abundance (ecology), Selenium, Food Science, media_common

Abstract

© 2021 The Author(s) The purpose of this research was to explore the speciation and bioaccessibility of native soil-derived selenium (Se) versus Se applied via fertiliser in the edible portions of maize, groundnut and cowpea grown in Malawi. Fertiliser-derived Se, applied as isotopically labelled selenate, contributed 88–97% of the total Se in the edible portions. Both soil and fertiliser-derived Se were transformed into similar species, with more than 90% of the extracted Se in an organic form. The main form of fertiliser-derived Se in grain was selenomethionine with an abundance of 92.0 ± 7.6% in maize, 63.7 ± 6.2% in cowpea and 85.2 ± 1.9% in groundnut. In addition, cowpea contained 32.7 ± 6.2% of Se-methyl-selenocysteine. The mean bioaccessibility of fertiliser-derived Se was 73.9 ± 8.5% with no statistically-significant difference across all crops despite some variation in speciation. Understanding the contribution of fertiliser-derived Se to the formation of organic forms of Se in crops is crucial, given that organic Se species are more bioaccessible than inorganic forms.

Published

2021

37. Global Trends (1961-2017) in Human Dietary Potassium Supplies

Author

Martin R. Broadley, Diriba B. Kumssa, and Edward J. M. Joy

Subjects

Biology, Global Health, Recommended Dietary Allowances, Reference Daily Intake, Whole grains, Article, Food Supply, Food group, Spatio-Temporal Analysis, Animal science, Risk Factors, Humans, media_common.cataloged_instance, potassium sufficiency ratio, TX341-641, European union, Potassium Deficiency, media_common, Nutrition and Dietetics, Nutrition. Foods and food supply, Research, Potassium, Dietary, Sodium, Dietary, adequate intake, Dietary Potassium, Highly sensitive, Dietary Reference Intake, K deficiency, potassium to sodium ratio, Diet, Healthy, recommended daily allowance, Food Science

Abstract

Background: Potassium (K) is an essential mineral and major intracellular electrolyte involved in the regulation of blood pressure, muscle contraction and nerve transmission in humans. Major dietary sources of K include fruits and vegetables, starchy roots and tubers, and whole grains. The aim of this study was to assess and report: (i) the sufficiency of K in national food systems globally, (ii) to quantify the contribution from food groups, and (iii) to explore spatial and temporal trends in the period of 1961–2017. Methods: Food supply and demography (1961–2017), K composition and K requirement data were combined to estimate per capita human dietary supplies of potassium (DSK), adequate intake of K (AIK) and K sufficiency ratio (KSR) at national, regional, continental and global levels. Results and Discussion: Globally, the mean ± SD. DSK (mg capita−1 d−1) increased from 2984 ± 915 in 1961 to 3796 ± 1161 in 2017. There was a wide range in DSK between geographical regions and across years, with particularly large increases in east Asia, where DSK increased from &lt, 3000 to &gt, 5000 mg capita−1 day−1. Roots and tubers contributed the largest dietary source of K, providing up to 80% of DSK in most regions. At the global level, throughout the 57-year period, the population-weighted KSR was &lt, 1 based on the 2006 Institute of Medicine AIK recommendation, while it was &gt, 1 based on the 2019 National Academies of Science and the 2016 European Union AIK recommendation. While KSR ≥1 shows sufficiency of DSK, KSR &lt, 1 does not indicate K deficiency risk. Conclusion: Due to the absence of a Recommended Daily Allowance (RDA) for K, this study used the ratio of DSK:AIK (i.e., KSR) to assess dietary K sufficiency. Estimates of dietary K sufficiency are, therefore, highly sensitive to the AIK reference value used and this varied greatly based on different institutions and years. To quantify the risk of dietary K deficiency, bridging the data gap to establish an RDA for K should be a global research priority.

Published

2021

38. Zinc deficiency is highly prevalent and spatially dependent over short distances in Ethiopia

Author

Christopher Chagumaira, Adamu Belay, Blessings H. Likoswe, E. Louise Ander, Scott D. Young, Edward J. M. Joy, Elizabeth H. Bailey, Dilnesaw Zerfu, Martin R. Broadley, R. Murray Lark, and Dawd Gashu

Subjects

0301 basic medicine, Adult, Male, Adolescent, Science, Population, 030209 endocrinology & metabolism, Reproductive age, Biology, Biochemistry, Article, 03 medical and health sciences, 0302 clinical medicine, Environmental health, medicine, Prevalence, Humans, education, Child, chemistry.chemical_classification, education.field_of_study, 030109 nutrition & dietetics, Multidisciplinary, High prevalence, Age Factors, Middle Aged, Serum samples, Micronutrient, medicine.disease, Fasting Status, Zinc, chemistry, Zinc deficiency, Medicine, Female, Ethiopia, Essential nutrient, Biomarkers

Abstract

Zinc (Zn) is an essential nutrient for human health. In Ethiopia, a high prevalence of Zn deficiency has been reported. To explore demographic variation and spatial dependencies in the Zn status of the Ethiopian population, we analyzed archived serum samples (n = 3373) from the 2015 Ethiopian National Micronutrient Survey (ENMS), a cross-sectional survey of young children, school-age children, women of reproductive age (WRA) and men conducted in all 9 regions and two city administration of Ethiopia. Serum Zn concentrations, measured using inductively coupled plasma-mass spectrometry (ICPMS), were compared to thresholds based on age, sex, fasting status, and time of blood collection, after adjusting for inflammation status. Median serum Zn concentration of the population was 57.5 μg dL−1. Overall, it is estimated that 72% of the population was Zn deficient, with high prevalence in all demographic groups. Spatial statistical analysis showed that there was spatial dependence in Zn status of WRA at distances of up to 45 km. Zinc deficiency is spatially dependent over short distances. Although WRA in most areas are likely to be Zn deficient, prevalence of deficiency varies at regional scale and between rural and urban inhabitants, suggesting there is scope to explore drivers of this variation, prioritize nutritional interventions, and to design more representative surveillance programs.

Published

2021

39. Re-Defining the Population-Specific Cut-Off Mark for Vitamin A Deficiency in Pre-School Children of Malawi

Author

Fanny Sandalinas, Suzanne Filteau, Edward J. M. Joy, John Phuka, Kenneth Maleta, and Blessings H. Likoswe

Subjects

Male, 0301 basic medicine, Malawi, serum retinol, vitamin A, chemistry.chemical_compound, 0302 clinical medicine, retinol binding protein, c-reactive protein, Reference Values, Prevalence, 030212 general & internal medicine, education.field_of_study, Nutrition and Dietetics, biology, Vitamin A Deficiency, Nutrition Surveys, Micronutrient, Child, Preschool, Female, medicine.symptom, lcsh:Nutrition. Foods and food supply, alpha-1 acid glycoprotein, Vitamin, medicine.medical_specialty, endocrine system, Anemia, Population, Nutritional Status, lcsh:TX341-641, Inflammation, Article, 03 medical and health sciences, Internal medicine, medicine, Humans, education, 030109 nutrition & dietetics, business.industry, C-reactive protein, Reproducibility of Results, medicine.disease, Retinol-Binding Proteins, Vitamin A deficiency, Retinol binding protein, Cross-Sectional Studies, Endocrinology, chemistry, inflammation, Linear Models, biology.protein, business, Biomarkers, Food Science

Abstract

Retinol Binding Protein (RBP) is responsible for the transport of serum retinol (SR) to target tissue in the body. Since RBP is relatively easy and cheap to measure, it is widely used in national Micronutrient Surveys (MNS) as a proxy for SR to determine vitamin A status. By regressing RBP concentration against SR concentration measured in a subset of the survey population, one can define a population-specific threshold concentration of RBP that indicates vitamin A deficiency (VAD). However, the relationship between RBP and SR concentrations is affected by various factors including inflammation. This study, therefore, aimed to re-define the population-specific cut-off for VAD by examining the influence of inflammation on RBP and SR, among pre-school children (PSC) from the 2015–16 Malawi MNS. The initial association between RBP and SR concentrations was poor, and this remained the case despite applying various methods to correct for inflammation. The World Health Organization (WHO) recommends the threshold of 0.7 µmol/L to define VAD for SR concentrations. Applying this threshold to the RBP concentrations gave a VAD prevalence of 24%, which reduced to 10% after inflammation adjustments following methods developed by the Biomarkers Reflecting Inflammation and Nutritional Determinants of Anemia (BRINDA). Further research is required to identify why SR and RBP were poorly associated in this population. Future MNS will need to account for the effect of inflammation on RBP to measure the prevalence of VAD in Malawi.

Published

2021

40. Good soil management can reduce dietary zinc deficiency in Zimbabwe

Author

Michael J. Watts, Florence Mtambanengwe, Martin R. Broadley, Prosper Chopera, Edward J. M. Joy, Muneta G. Manzeke-Kangara, and Paul Mapfumo

Subjects

Disability Adjusted Life Years (DALYs), Cultural Studies, Mineral NPK, Agriculture (General), Crop yield, yield:health benefit, Cattle manure, Religious studies, Biofortification, engineering.material, Plant litter, Soil Zn fertilizers, Manure, S1-972, Soil management, Agro-fortification, Nutrient, Agronomy, Maize-based cropping systems, woodland leaf litter, engineering, Environmental science, Fertilizer, Soil fertility

Abstract

Background Dietary zinc (Zn) deficiency is widespread in sub-Saharan Africa (SSA) with adverse impacts on human health. Agronomic biofortification with Zn fertilizers and improved soil fertility management, using mineral and organic nutrient resources, has previously been shown to increase Zn concentration of staple grain crops, including maize. Here, we show the potential of different soil fertility management options on maize crops to reduce dietary Zn deficiency in Zimbabwe using secondary data from a set of surveys and field experiments. Methods An ex-ante approach was used, informed by published evidence from studies in three contrasting smallholder production systems in Zimbabwe. To estimate current Zn deficiency in Zimbabwe, data on dietary Zn supply from non-maize sources from the Global Expanded Nutrient Supply (GENuS) data set were linked to maize grain Zn composition observed under typical current soil fertility management scenarios. Results A baseline dietary Zn deficiency prevalence of 68% was estimated from a reference maize grain Zn composition value of 16.6 mg kg−1 and an estimated dietary Zn intake of 9.3 mg capita−1 day−1 from all food sources. The potential health benefits of reducing Zn deficiency using different soil fertility management scenarios were quantified within a Disability Adjusted Life Years (DALYs) framework. A scenario using optimal mineral NPK fertilizers and locally available organic nutrient resources (i.e. cattle manure and woodland leaf litter), but without additional soil Zn fertilizer applications, is estimated to increase maize grain Zn concentration to 19.3 mg kg−1. This would reduce the estimated prevalence of dietary Zn deficiency to 55%, potentially saving 2238 DALYs year−1. Universal adoption of optimal fertilizers, to include soil Zn applications and locally available organic leaf litter, is estimated to increase maize grain Zn concentration to 32.4 mg kg−1 and reduce dietary Zn deficiency to 16.7%, potentially saving 9119 DALYs year−1. Potential monetized yield gains from adopting improved soil fertility management range from 49- to 158-fold larger than the potential reduction in DALYs, if the latter are monetized using standard methods. Conclusion Farmers should be incentivized to adopt improved soil fertility management to improve both crop yield and quality.

Published

2021

41. Biofortification of wheat with zinc for eliminating deficiency in Pakistan: Study protocol for a cluster-randomised, double-blind, controlled effectiveness study (BIZIFED2)

Author

Munir Hussain Zia, Muhammad Jaffar Khan, Nicola M Lowe, Edward J. M. Joy, Martin R. Broadley, E. Louise Ander, Elizabeth H. Bailey, Usman Mahboob, Victoria Hall Moran, Phillip A. Sharp, Mukhtiar Zaman, Heather Ohly, Jonathan Kenneth Sinclair, Sadia Fatima, Scott D. Young, and R. Murray Lark

Subjects

Adolescent, Flour, Wheat flour, Biofortification, chemistry.chemical_element, Zinc, Global Health, law.invention, iron, Randomized controlled trial, law, agronomic biofortification, Environmental health, wheat, Medicine, Humans, Pakistan, Child, Triticum, Aged, Randomized Controlled Trials as Topic, Protocol (science), zinc status, business.industry, L510, zinc, Infant, General Medicine, Anthropometry, Micronutrient, chemistry, Child, Preschool, Female, business

Abstract

IntroductionMicronutrient deficiencies, commonly referred to as ‘hidden hunger’, affect more than two billion people worldwide, with zinc and iron-deficiency frequently reported. The aim of this study is to examine the impact of consuming zinc biofortified flour (Zincol-2016) on biochemical and functional measures of status in adolescent girls and children living in a low-resource setting in Pakistan.Methods and analysisWe are conducting a pragmatic, cluster-randomised, double-blind, controlled trial. A total of 482 households have been recruited from two catchment areas approximately 30–40 km distance from Peshawar. Household inclusion criteria are the presence of both an adolescent girl, aged 10–16 years, and a child aged 1–5 years. The study duration is 12 months, divided into two 6-month phases. During phase 1, all households will be provided with locally procured flour from standard varieties of wheat. During phase 2, clusters will be paired, and randomised to either the control or intervention arm of the study. The intervention arm will be provided with zinc biofortified wheat flour, with a target zinc concentration of 40 mg/kg. The control arm will be provided with locally procured wheat flour from standard varieties with an expected zinc concentration of 20 mg/kg. The primary outcome measure is plasma zinc concentration. Secondary outcomes include anthropometric measurements, biomarkers of iron and zinc status, and the presence and duration of respiratory tract infections and diarrhoea.Ethics and disseminationEthical approval was granted from the University of Central Lancashire STEMH Ethics Committee (reference number: STEMH 1014) and Khyber Medical University Ethics Committee (DIR/KMU-EB/BZ/000683). The final study methods will be published in peer-reviewed journals, alongside the study outcomes. In addition, findings will be disseminated to the scientific community via conference presentations and abstracts and communicated to the study participants through the village elders at an appropriate community forum.Trial registration numberISRCTN17107812; Pre-results.

Published

2020

42. Site-Specific Factors Influence the Field Performance of a Zn-Biofortified Wheat Variety

Author

Lolita Wilson, R. Murray Lark, Martin R. Broadley, Nicola M Lowe, Munir Hussain Zia, Edward J. M. Joy, Elizabeth H. Bailey, Iftikhar Ahmed, Mukhtiar Zaman, and Scott D. Young

Subjects

genotype, Biofortification, Randomized block design, chemistry.chemical_element, lcsh:TX341-641, Zinc, Horticulture, Management, Monitoring, Policy and Law, engineering.material, Biology, biofortification, Crop, Global and Planetary Change, Cadmium, lcsh:TP368-456, Ecology, L510, cadmium (Cd), Sowing, calcium (Ca), lcsh:Food processing and manufacture, chemistry, Agronomy, Biofortified Crops, engineering, Fertilizer, G×E×M, environment, lcsh:Nutrition. Foods and food supply, Agronomy and Crop Science, Food Science

Abstract

© Copyright © 2020 Zia, Ahmed, Bailey, Lark, Young, Lowe, Joy, Wilson, Zaman and Broadley. Background: Biofortification of wheat with zinc (Zn) through breeding and agronomy can reduce Zn deficiencies and improve human health. “High-Zn” wheat varieties have been released in India and Pakistan, where wheat is consumed widely as a dietary staple. The aim of this study was to quantify the potential contribution of a “high-Zn” wheat variety (Triticum aestivum L. var. Zincol-2016) and Zn fertilizers to improving dietary Zn supply under field conditions in Pakistan. Methods: Grain Zn concentration of Zincol-2016 and local reference varieties were determined at three sites of contrasting soil Zn status: Faisalabad (Punjab Province; diethylenetriamine pentaacetate- (DTPA-)extractable Zn, 1.31 mg kg−1 soil; gross plot size 13.3 m2; n = 4; reference var. Faisalabad-2008), Islamabad (Capital Territory; 0.48 mg kg−1; 4.6 m2; n = 5; reference var. NARC-2011), and Pir Sabak (Khyber Pakhtunkhwa, KPK, Province; 0.12 mg kg−1 soil; 9.1 m2; n = 4; reference vars. Pirsabak-2015, Wadhan-2017). Eight Zn fertilizer treatment levels were tested using a randomized complete block design: control; soil (5 or 10 kg ha−1 ZnSO4.H2O; 33% Zn applied at sowing); foliar (0.79 or 1.58 kg of ZnSO4.H2O ha−1 applied as a 250 L ha−1 drench at crop booting stage); three soil × foliar combinations. Results: At the Faisalabad site, the grain Zn concentration of Zincol-2016 was greater than Faisalabad-2008, with no yield penalty. Zincol-2016 did not have larger grain Zn concentrations than reference varieties used at Islamabad or Pir Sabak sites, which both had a lower soil Zn status than the Faisalabad site. Foliar Zn fertilization increased grain Zn concentration of all varieties at all sites. There were no significant effects of soil Zn fertilizers, or variety·fertilizer interactions, on grain Zn concentration or yield. Conclusions: Environment and management affect the performance of “high-Zn” wheat varieties, and these factors needs to be evaluated at scale to assess the potential nutritional impact of Zn biofortified crops. Designing studies to detect realistic effect sizes for new varieties and crop management strategies is therefore an important consideration. The current study indicated that nine replicate plots would be needed to achieve 80% power to detect a 25% increase in grain Zn concentration.

Published

2020

43. Spatial analysis of urine zinc (Zn) concentration for women of reproductive age and school age children in Malawi

Author

Felix P. Phiri, Elliott M. Hamilton, Martin R. Broadley, Parminder S. Suchdev, Alexander A Kalimbira, E. Louise Ander, R. Murray Lark, Edward J. M. Joy, Jellita Gondwe, and Michael J. Watts

Subjects

Adult, Male, Malawi, Environmental Engineering, Adolescent, Population, Nutritional Status, chemistry.chemical_element, Reproductive age, Zinc, Urine, 010501 environmental sciences, Biology, 01 natural sciences, Young Adult, 03 medical and health sciences, Animal science, Geochemistry and Petrology, Blood plasma, Humans, Environmental Chemistry, Micronutrients, Child, education, Urine zinc, 030304 developmental biology, 0105 earth and related environmental sciences, General Environmental Science, Water Science and Technology, Morning, Original Paper, Spatial Analysis, 0303 health sciences, education.field_of_study, Micronutrient survey, Sub-Saharan Africa, Casual urine, Biomarker, General Medicine, Middle Aged, Micronutrient, chemistry, Female, Sample collection, Biomarkers

Abstract

Zinc (Zn) is an essential micronutrient, and Zn deficiency remains a major global public health challenge. Recognised biomarkers of population Zn status include blood plasma or serum Zn concentration and proxy data such as dietary Zn intake and prevalence of stunting. Urine Zn concentration is rarely used to assess population Zn status. This study assessed the value of urine Zn concentration as a biomarker of population Zn status using a nationally representative sample of non-pregnant women of reproductive age (WRA) and school-aged children (SAC) in Malawi. Spot (casual) urine samples were collected from 741 WRA and 665 SAC. Urine Zn concentration was measured by inductively coupled plasma mass spectrometry with specific gravity adjustment for hydration status. Data were analysed using a linear mixed model with a spatially correlated random effect for between-cluster variation. The effect of time of sample collection (morning or afternoon), and gender (for SAC), on urine Zn concentration were examined. There was spatial dependence in urine Zn concentration between clusters among SAC but not WRA, which indicates that food system or environmental factors can influence urine Zn concentration. Mapping urine Zn concentration could potentially identify areas where the prevalence of Zn deficiency is greater and thus where further sampling or interventions might be targeted. There was no evidence for differences in urine Zn concentration between gender (P = 0.69) or time of sample collection (P = 0.85) in SAC. Urine Zn concentration was greater in afternoon samples for WRA (P = 0.003). Relationships between urine Zn concentration, serum Zn concentration, dietary Zn intake, and potential food systems covariates warrant further study. Electronic supplementary material The online version of this article (10.1007/s10653-020-00700-5) contains supplementary material, which is available to authorized users.

Published

2020

44. Selenium Deficiency Is Widespread and Spatially Dependent in Ethiopia

Author

Christopher Chagumaira, E. Louise Ander, Scott D. Young, Elizabeth H. Bailey, Adamu Belay, Dilnesaw Zerfu, Edward J. M. Joy, Martin R. Broadley, Dawd Gashu, and R. Murray Lark

Subjects

Adult, Male, 0301 basic medicine, Veterinary medicine, geospatial prediction, Adolescent, iodothyronine deiodinase, Population, chemistry.chemical_element, lcsh:TX341-641, Biology, Iodide Peroxidase, Article, Selenium, Young Adult, 03 medical and health sciences, Selenium deficiency, medicine, Humans, Micronutrients, Child, education, glutathione peroxidase 3, Glutathione Peroxidase, education.field_of_study, 030109 nutrition & dietetics, Nutrition and Dietetics, business.industry, Malnutrition, Targeted interventions, Middle Aged, serum selenium, medicine.disease, Serum samples, Micronutrient, Cross-Sectional Studies, 030104 developmental biology, chemistry, Productivity (ecology), Child, Preschool, Female, Livestock, Ethiopia, business, lcsh:Nutrition. Foods and food supply, Food Science

Abstract

Selenium (Se) is an essential element for human health and livestock productivity. Globally, human Se status is highly variable, mainly due to the influence of soil types on the Se content of crops, suggesting the need to identify areas of deficiency to design targeted interventions. In sub-Saharan Africa, including Ethiopia, data on population Se status are largely unavailable, although previous studies indicated the potential for widespread Se deficiency. Serum Se concentration of a nationally representative sample of the Ethiopian population was determined, and these observed values were combined with a spatial statistical model to predict and map the Se status of populations across the country. The study used archived serum samples (n = 3269) from the 2015 Ethiopian National Micronutrient Survey (ENMS). The ENMS was a cross-sectional survey of young and school-age children, women and men. Serum Se concentration was measured using inductively coupled plasma mass spectrometry (ICPMS). The national median (Q1, Q3) serum Se concentration was 87.7 (56.7, 123.0) &mu, g L&minus, 1. Serum Se concentration differed between regions, ranging from a median (Q1, Q3) of 54.6 (43.1, 66.3) &micro, 1 in the Benishangul-Gumuz Region to 122.0 (105, 141) &micro, 1 in the Southern Nations, Nationalities, and Peoples&rsquo, Region and the Afar Region. Overall, 35.5% of the population were Se deficient, defined as serum Se &lt, 70 &micro, 1. A geostatistical analysis showed that there was marked spatial dependence in Se status, with serum concentrations greatest among those living in North-East and Eastern Ethiopia and along the Rift Valley, while serum Se concentrations were lower among those living in North-West and Western Ethiopia. Selenium deficiency in Ethiopia is widespread, but the risk of Se deficiency is highly spatially dependent. Policies to enhance Se nutrition should target populations in North-West and Western Ethiopia.

Published

2020

45. Exploring community perceptions in preparation for a randomised controlled trial of biofortified flour in Pakistan

Author

Victoria Hall Moran, Heather Ohly, Usman Mahboob, Mukhtiar Zaman, Edward J. M. Joy, and Nicola M Lowe

Subjects

Iron, Medicine (miscellaneous), Qualitative property, Community, Formative assessment, 03 medical and health sciences, 0302 clinical medicine, Environmental health, Formative, Pakistan, 030212 general & internal medicine, lcsh:R5-920, L510, Research, Staple food, D610, Focus group, Local community, Zinc, Incentive, Deficiency, Implementation research, Thematic analysis, lcsh:Medicine (General), Psychology, Qualitative, Biofortification, Adolescent girls, 030217 neurology & neurosurgery

Abstract

Background Biofortification of staple food crops may be a cost-effective and sustainable approach to reducing micronutrient deficiencies in resource-poor settings with low dietary diversity. However, its success depends on uptake by the local population. This paper presents formative research conducted in a remote, rural community in North West Pakistan, prior to commencing a randomised controlled trial to test the effectiveness of consuming zinc-biofortified wheat flour for alleviating zinc deficiency. It explored local community members’ knowledge, understanding and attitudes towards biofortification and views on members of their community taking part in the trial. Methods Four focus group discussions were conducted with male and female community members (separately for cultural reasons) and four in-depth interviews were conducted with Jirga members—respected male elders. Participation was limited to households that were ineligible for the trial so that we could explore the perspectives of community members who were not influenced by the incentives of the trial. Focus group participants were selected at community events for transparency. Data collection took place at the local school and homes of Jirga members. Thematic analysis was undertaken, using a combination of deductive and inductive approaches to identify key themes. Results A total of 47 men and women participated in this study. Participants reported clear motivation to access and consume more nutritious flour, believing this would bring health benefits, particularly to women and children. Trusted members of the local community, including Jirga members and female health workers, should be involved in providing information on biofortified flour (and the trial) to increase levels of awareness and acceptance. Without their involvement, there is a risk that biofortified flour would be mistrusted. The cost of flour is the main factor affecting purchasing decisions, and biofortified flour will need to be cost-competitive to achieve widespread uptake in marginalised, rural communities. Conclusion This formative study generated rich, qualitative data from a range of community stakeholders to improve the understanding of important barriers and facilitators to the widespread acceptability and adoption of biofortified wheat. Implementation research such as this will inform future decision-making in relation to scaling up biofortified wheat in Pakistan.

Published

2020

46. Selenium deficiency risks in sub-Saharan African food systems and their geospatial linkages

Author

Allan D. C. Chilimba, Diriba B. Kumssa, V. H. Kabambe, Alexander A Kalimbira, Felix P. Phiri, Dawd Gashu, R. M. Lark, Elizabeth H. Bailey, Martin R. Broadley, Patson C. Nalivata, I.S. Ligowe, Scott D. Young, Edward J. M. Joy, and E.L. Ander

Subjects

0303 health sciences, medicine.medical_specialty, education.field_of_study, Geospatial analysis, Nutrition and Dietetics, Public health, Population, Medicine (miscellaneous), 010501 environmental sciences, Biology, computer.software_genre, Micronutrient, medicine.disease, 01 natural sciences, 03 medical and health sciences, Malnutrition, Selenium deficiency, Environmental health, Animal source foods, medicine, Food systems, education, computer, 030304 developmental biology, 0105 earth and related environmental sciences

Abstract

Selenium (Se) is an essential element for human health. However, our knowledge of the prevalence of Se deficiency is less than for other micronutrients of public health concern such as iodine, iron and zinc, especially in sub-Saharan Africa (SSA). Studies of food systems in SSA, in particular in Malawi, have revealed that human Se deficiency risks are widespread and influenced strongly by geography. Direct evidence of Se deficiency risks includes nationally representative data of Se concentrations in blood plasma and urine as population biomarkers of Se status. Long-range geospatial variation in Se deficiency risks has been linked to soil characteristics and their effects on the Se concentration of food crops. Selenium deficiency risks are also linked to socio-economic status including access to animal source foods. This review highlights the need for geospatially-resolved data on the movement of Se and other micronutrients in food systems which span agriculture–nutrition–health disciplinary domains (defined as a GeoNutrition approach). Given that similar drivers of deficiency risks for Se, and other micronutrients, are likely to occur in other countries in SSA and elsewhere, micronutrient surveillance programmes should be designed accordingly.

Published

2020

47. Urine selenium concentration is a useful biomarker for assessing population level selenium status

Author

Benson Chilima, Alexander A Kalimbira, Jellita Gondwe, John Phuka, Elliott M. Hamilton, Michael J. Watts, Martin R. Broadley, E. Louise Ander, R. Murray Lark, Parminder S. Suchdev, Daniel R. S. Middleton, Edward J. M. Joy, Elizabeth H. Bailey, Felix P. Phiri, and Scott D. Young

Subjects

010504 meteorology & atmospheric sciences, Urinary system, Physiology, chemistry.chemical_element, Nutritional Status, Urine, 010501 environmental sciences, 01 natural sciences, Excretion, chemistry.chemical_compound, Selenium, Biomonitoring, Medicine, Humans, Child, Inductively coupled plasma mass spectrometry, lcsh:Environmental sciences, 0105 earth and related environmental sciences, General Environmental Science, lcsh:GE1-350, Creatinine, business.industry, chemistry, Biomarker (medicine), Female, business, Biomarkers, Iodine

Abstract

Plasma selenium (Se) concentration is an established population level biomarker of Se status, especially in Se-deficient populations. Previously observed correlations between dietary Se intake and urinary Se excretion suggest that urine Se concentration is also a potentially viable biomarker of Se status. However, there are only limited data on urine Se concentration among Se-deficient populations. Here, we test if urine is a viable biomarker for assessing Se status among a large sample of women and children in Malawi, most of whom are likely to be Se-deficient based on plasma Se status. Casual (spot) urine samples (n = 1406) were collected from a nationally representative sample of women of reproductive age (WRA, n =741) and school aged children (SAC, n=665) across Malawi as part of the 2015/16 Demographic and Health Survey. Selenium concentration in urine was determined using inductively coupled plasma mass spectrometry (ICP-MS). Urinary dilution corrections for specific gravity, osmolality, and creatinine were applied to adjust for hydration status. Plasma Se status had been measured for the same survey participants. There was between-cluster variation in urine Se concentration that corresponded with variation in plasma Se concentration, but not between households within a cluster, or between individuals within a household. Corrected urine Se concentrations explained more of the between-cluster variation in plasma Se concentration than uncorrected data. These results provide new evidence that urine may be used in the surveillance of Se status at the population level in some groups. This could be a cost-effective option if urine samples are already being collected for other assessments, such as for iodine status analysis as in the Malawi and other national Demographic and Health Surveys. Keywords: Biomarkers, Biomonitoring, Micronutrient survey, Selenium status, Sub Saharan Africa, Urine

Published

2020

48. Trading water: virtual water flows through interstate cereal trade in India

Author

Soledad Cuevas, Pauline Scheelbeek, Benjamin Kayatz, Carole Dalin, Rosemary Green, Bhavani Shankar, Owen Nicholas, Tapan Kumar Adhya, Alan D. Dangour, Francesca Harris, Edward J. M. Joy, and Lakshmikantha N R

Subjects

2. Zero hunger, Food security, 010504 meteorology & atmospheric sciences, Land use, Renewable Energy, Sustainability and the Environment, business.industry, Public Health, Environmental and Occupational Health, Virtual water, 010501 environmental sciences, 15. Life on land, 01 natural sciences, Agricultural economics, Article, Supply and demand, Water resources, Agriculture, Food systems, Business, Surface water, 0105 earth and related environmental sciences, General Environmental Science

Abstract

Cereals are an important component of the Indian diet, providing 47% of the daily dietary energy intake. Dwindling groundwater reserves in India especially in major cereal-growing regions are an increasing challenge to national food supply. An improved understanding of interstate cereal trade can help to identify potential risks to national food security. Here, we quantify the trade between Indian states of five major cereals and the associated trade in virtual (or embedded) water. To do this, we modelled interstate trade of cereals using Indian government data on supply and demand; calculated virtual water use of domestic cereal production using state- and product-specific water footprints and state-level data on irrigation source; and incorporated virtual water used in the production of internationally-imported cereals using country-specific water footprints. We estimate that 40% (94 million tonnes) of total cereal food supply was traded between Indian states in 2011–12, corresponding to a trade of 54.0 km3 of embedded blue water, and 99.4 km3 of embedded green water. Of the cereals traded within India, 41% were produced in states with over-exploited groundwater reserves (defined according to the Central Ground Water Board) and a further 21% in states with critically depleting groundwater reserves. Our analysis indicates a high dependency of Indian cereal consumption on production in states with stressed groundwater reserves. Substantial changes in agricultural practices and land use may be required to secure future production, trade and availability of cereals in India. Diversifying production systems could increase the resilience of India’s food system.

Published

2020

49. Can selenium deficiency in Malawi be alleviated through consumption of agro-biofortified maize flour? Study protocol for a randomised, double-blind, controlled trial

Author

Jellita Gondwe, Martin R. Broadley, John Phuka, Simon C. Langley-Evans, Alexander A Kalimbira, Elizabeth H. Bailey, Limbanazo Matandika, Felix P. Phiri, Leonard Banda, Gabriella Chiutsi-Phiri, Joseph Mfutso-Bengo, Edward J. M. Joy, Joanna Sturgess, Scott D. Young, Dawd Gashu, Nicola M Lowe, Kate Millar, Elizabeth Allen, E. Louise Ander, R. Murray Lark, Elaine L. Ferguson, Patson C. Nalivata, and Alan D. Dangour

Subjects

Male, Rural Population, Malawi, Flour, Biofortification, Medicine (miscellaneous), B400, Trial, law.invention, Toxicology, Study Protocol, Eating, Randomized controlled trial, law, Selenium deficiency, Medicine, Pharmacology (medical), Micronutrients, Child, lcsh:R5-920, Family Characteristics, 0303 health sciences, food and beverages, 04 agricultural and veterinary sciences, Middle Aged, Micronutrient, Child, Preschool, Food, Fortified, Female, lcsh:Medicine (General), Fertilisers, Adult, Crops, Agricultural, Reproductive age, B300, Zea mays, Double blind, Selenium, Young Adult, 03 medical and health sciences, Double-Blind Method, parasitic diseases, Humans, Disease burden, Nutrition, 030304 developmental biology, Consumption (economics), business.industry, medicine.disease, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, business, Follow-Up Studies

Abstract

Background Micronutrient deficiencies including selenium (Se) are widespread in Malawi and potentially underlie a substantial disease burden, particularly among poorer and marginalised populations. Concentrations of Se in staple cereal crops can be increased through application of Se fertilisers – a process known as agronomic biofortification (agro-biofortification) – and this may contribute to alleviating deficiencies. The Addressing Hidden Hunger with Agronomy (AHHA) trial aims to establish the efficacy of this approach for improving Se status in rural Malawi. Methods A double-blind, randomised, controlled trial will be conducted in a rural community in Kasungu District, Central Region, Malawi. The hypothesis is that consumption of maize flour agro-biofortified with Se will increase serum Se concentration. We will recruit 180 women of reproductive age (WRA) (20–45 years) and 180 school-age children (SAC) (5–10 years) randomly assigned in a 1:1 ratio to receive either maize flour enriched through agro-biofortification with Se or a control flour not enriched with Se. Households will receive flour (330 g per capita per day) for 12 weeks. The primary outcome is Se concentration in serum (μg/L). Serum will be extracted from venous blood samples drawn at baseline (prior to flour distribution) and end-line. Selenium concentration will be measured by using inductively coupled plasma mass spectrometry. Discussion Findings will be communicated to policy stakeholders and participating communities and reported in peer-reviewed journals. Trial registration The Addressing Hidden Hunger with Agronomy (Malawi) trial is registered (5th March 2019; ISCRTN85899451).

Published

2019

50. Corrigendum to 'Greenhouse gas emissions from agricultural food production to supply Indian diets: Implications for climate change mitigation' [Agric. Ecosyst. Environ. 237 (2017) 234–241]

Author

Pete Smith, Alan D. Dangour, Jon Hillier, Rosemary Green, Lukasz Aleksandrowicz, Jennie I. Macdiarmid, Clare M. Stirling, Sylvia H. Vetter, Edward J. M. Joy, and Tek B. Sapkota

Subjects

Climate change mitigation, Ecology, Environmental protection, Agriculture, business.industry, Greenhouse gas, Food processing, Environmental science, Animal Science and Zoology, business, Agronomy and Crop Science

Published

2019