Estimating population salt intake in India using spot urine samples.

Kristina S Petersen; Claire Johnson; Sailesh Mohan; Kris Rogers; Roopa Shivashankar; Sudhir Raj Thout; Priti Gupta; Feng J He; Graham A MacGregor; Jacqui Webster; +7 more... Joseph Alvin Santos; Anand Krishnan; Pallab K Maulik; K Srinath Reddy; Ruby Gupta; Dorairaj Prabhakaran ORCID logo; Bruce Neal; (2017) Estimating population salt intake in India using spot urine samples. JOURNAL OF HYPERTENSION, 35 (11). pp. 2207-2213. ISSN 0263-6352 DOI: 10.1097/HJH.0000000000001464
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OBJECTIVE: To compare estimates of mean population salt intake in North and South India derived from spot urine samples versus 24-h urine collections. METHODS: In a cross-sectional survey, participants were sampled from slum, urban and rural communities in North and in South India. Participants provided 24-h urine collections, and random morning spot urine samples. Salt intake was estimated from the spot urine samples using a series of established estimating equations. Salt intake data from the 24-h urine collections and spot urine equations were weighted to provide estimates of salt intake for Delhi and Haryana, and Andhra Pradesh. RESULTS: A total of 957 individuals provided a complete 24-h urine collection and a spot urine sample. Weighted mean salt intake based on the 24-h urine collection, was 8.59 (95% confidence interval 7.73-9.45) and 9.46 g/day (8.95-9.96) in Delhi and Haryana, and Andhra Pradesh, respectively. Corresponding estimates based on the Tanaka equation [9.04 (8.63-9.45) and 9.79 g/day (9.62-9.96) for Delhi and Haryana, and Andhra Pradesh, respectively], the Mage equation [8.80 (7.67-9.94) and 10.19 g/day (95% CI 9.59-10.79)], the INTERSALT equation [7.99 (7.61-8.37) and 8.64 g/day (8.04-9.23)] and the INTERSALT equation with potassium [8.13 (7.74-8.52) and 8.81 g/day (8.16-9.46)] were all within 1 g/day of the estimate based upon 24-h collections. For the Toft equation, estimates were 1-2 g/day higher [9.94 (9.24-10.64) and 10.69 g/day (9.44-11.93)] and for the Kawasaki equation they were 3-4 g/day higher [12.14 (11.30-12.97) and 13.64 g/day (13.15-14.12)]. CONCLUSION: In urban and rural areas in North and South India, most spot urine-based equations provided reasonable estimates of mean population salt intake. Equations that did not provide good estimates may have failed because specimen collection was not aligned with the original method.


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