Erin Biehl1, Rolf D W Klemm1,2, Swetha Manohar1, Patrick Webb3, Devendra Gauchan4,5, Keith P West1. 1. 1 Johns Hopkins Bloomberg School of Public Health, Baltimore, MD, USA. 2. 2 Helen Keller International, New York, NY, USA. 3. 3 Friedman School of Nutrition Science and Policy, Tufts University, Boston, MA, USA. 4. 4 Nepal Agricultural Research Council, Kathmandu, Nepal. 5. 5 Bioversity International, Kathmandu, Nepal.
Abstract
BACKGROUND: In Nepal, limited availability and affordability of nutritious foods contribute to malnutrition. OBJECTIVES: To identify nutrient deficiencies in commonly consumed diets and model lowest cost changes that could improve diet quality in 3 agroecological zones of Nepal. METHODS: In August to September 2014, we collected market price and women's food frequency data from 3 representative villages in Nepal's mountains (Mahat Gaun, Jumla, n = 181 households), hills (Sitapur, Arghakhanchi, n = 166), and terai (Saigaun, Banke, n = 232) and verified local diets during women's group discussions. Using the Cost of the Diet method, we compared models of the most nutritious version of a commonly consumed diet given locally available foods ("common diet") with the cheapest possible diet meeting nutrient requirements, including foods not currently available ("optimal diet"). RESULTS: The household common diet lacks sufficient vitamin B12, riboflavin, and calcium in the mountains; B6, B12, calcium, and iron in the hills; vitamin A, calcium, and iron in the terai. Adding fish to the mountain and hill diets and increasing dark green leafy vegetable consumption in all zones yielded nutritional adequacy. Optimal diets are more expensive than the common diet in the mountains and hills but less expensive in the terai. CONCLUSION: The modeled lowest cost diet commonly eaten in 3 Nepalese communities lacks key nutrients. Policies and interventions that increase market availability and consumption of vitamin B12- and calcium-rich fish and dark green leafy vegetables could improve local diets, particularly in the mountains and hills.
BACKGROUND: In Nepal, limited availability and affordability of nutritious foods contribute to malnutrition. OBJECTIVES: To identify nutrient deficiencies in commonly consumed diets and model lowest cost changes that could improve diet quality in 3 agroecological zones of Nepal. METHODS: In August to September 2014, we collected market price and women's food frequency data from 3 representative villages in Nepal's mountains (Mahat Gaun, Jumla, n = 181 households), hills (Sitapur, Arghakhanchi, n = 166), and terai (Saigaun, Banke, n = 232) and verified local diets during women's group discussions. Using the Cost of the Diet method, we compared models of the most nutritious version of a commonly consumed diet given locally available foods ("common diet") with the cheapest possible diet meeting nutrient requirements, including foods not currently available ("optimal diet"). RESULTS: The household common diet lacks sufficient vitamin B12, riboflavin, and calcium in the mountains; B6, B12, calcium, and iron in the hills; vitamin A, calcium, and iron in the terai. Adding fish to the mountain and hill diets and increasing dark green leafy vegetable consumption in all zones yielded nutritional adequacy. Optimal diets are more expensive than the common diet in the mountains and hills but less expensive in the terai. CONCLUSION: The modeled lowest cost diet commonly eaten in 3 Nepalese communities lacks key nutrients. Policies and interventions that increase market availability and consumption of vitamin B12- and calcium-rich fish and dark green leafy vegetables could improve local diets, particularly in the mountains and hills.
Authors: Prajula Mulmi; William A Masters; Shibani Ghosh; Grace Namirembe; Ruchita Rajbhandary; Swetha Manohar; Binod Shrestha; Keith P West; Patrick Webb Journal: PLoS One Date: 2017-11-16 Impact factor: 3.240
Authors: Nasima Akhter; Naomi Saville; Bhim Shrestha; Dharma S Manandhar; David Osrin; Anthony Costello; Andrew Seal Journal: Food Secur Date: 2018-05-12 Impact factor: 3.304
Authors: Catherine Schwinger; Shakun Sharma; Ram K Chandyo; Mari Hysing; Ingrid Kvestad; Manjeswori Ulak; Suman Ranjitkar; Merina Shrestha; Laxman P Shrestha; Adrian McCann; Per M Ueland; Tor A Strand Journal: J Nutr Sci Date: 2021-08-09