Reliable Quantification of the Potential for Equations Based on Spot Urine Samples to Estimate Population Salt Intake: Protocol for a Systematic Review and Meta-Analysis

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Reliable Quantification of the Potential for Equations Based on Spot Urine Samples to Estimate Population Salt Intake : Protocol for a Systematic Review and Meta-Analysis. / Huang, Liping; Crino, Michelle; Wu, Jason Hy; Woodward, Mark; Land, Mary-Anne; McLean, Rachael; Webster, Jacqui; Enkhtungalag, Batsaikhan; Nowson, Caryl A; Elliott, Paul; Cogswell, Mary; Toft, Ulla; Mill, Jose G; Furlanetto, Tania W; Ilich, Jasminka Z; Hong, Yet Hoi; Cohall, Damian; Luzardo, Leonella; Noboa, Oscar; Holm, Ellen; Gerbes, Alexander L; Senousy, Bahaa; Pinar Kara, Sonat; Brewster, Lizzy M; Ueshima, Hirotsugu; Subramanian, Srinivas; Teo, Boon Wee; Allen, Norrina; Choudhury, Sohel Reza; Polonia, Jorge; Yasuda, Yoshinari; Campbell, Norm Rc; Neal, Bruce; Petersen, Kristina S.

In: JMIR Research Protocols, Vol. 5, No. 3, e190, 21.09.2016.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Huang, L, Crino, M, Wu, JH, Woodward, M, Land, M-A, McLean, R, Webster, J, Enkhtungalag, B, Nowson, CA, Elliott, P, Cogswell, M, Toft, U, Mill, JG, Furlanetto, TW, Ilich, JZ, Hong, YH, Cohall, D, Luzardo, L, Noboa, O, Holm, E, Gerbes, AL, Senousy, B, Pinar Kara, S, Brewster, LM, Ueshima, H, Subramanian, S, Teo, BW, Allen, N, Choudhury, SR, Polonia, J, Yasuda, Y, Campbell, NR, Neal, B & Petersen, KS 2016, 'Reliable Quantification of the Potential for Equations Based on Spot Urine Samples to Estimate Population Salt Intake: Protocol for a Systematic Review and Meta-Analysis', JMIR Research Protocols, vol. 5, no. 3, e190. https://doi.org/10.2196/resprot.6282

APA

Huang, L., Crino, M., Wu, J. H., Woodward, M., Land, M-A., McLean, R., Webster, J., Enkhtungalag, B., Nowson, C. A., Elliott, P., Cogswell, M., Toft, U., Mill, J. G., Furlanetto, T. W., Ilich, J. Z., Hong, Y. H., Cohall, D., Luzardo, L., Noboa, O., ... Petersen, K. S. (2016). Reliable Quantification of the Potential for Equations Based on Spot Urine Samples to Estimate Population Salt Intake: Protocol for a Systematic Review and Meta-Analysis. JMIR Research Protocols, 5(3), [e190]. https://doi.org/10.2196/resprot.6282

Vancouver

Huang L, Crino M, Wu JH, Woodward M, Land M-A, McLean R et al. Reliable Quantification of the Potential for Equations Based on Spot Urine Samples to Estimate Population Salt Intake: Protocol for a Systematic Review and Meta-Analysis. JMIR Research Protocols. 2016 Sep 21;5(3). e190. https://doi.org/10.2196/resprot.6282

Author

Huang, Liping ; Crino, Michelle ; Wu, Jason Hy ; Woodward, Mark ; Land, Mary-Anne ; McLean, Rachael ; Webster, Jacqui ; Enkhtungalag, Batsaikhan ; Nowson, Caryl A ; Elliott, Paul ; Cogswell, Mary ; Toft, Ulla ; Mill, Jose G ; Furlanetto, Tania W ; Ilich, Jasminka Z ; Hong, Yet Hoi ; Cohall, Damian ; Luzardo, Leonella ; Noboa, Oscar ; Holm, Ellen ; Gerbes, Alexander L ; Senousy, Bahaa ; Pinar Kara, Sonat ; Brewster, Lizzy M ; Ueshima, Hirotsugu ; Subramanian, Srinivas ; Teo, Boon Wee ; Allen, Norrina ; Choudhury, Sohel Reza ; Polonia, Jorge ; Yasuda, Yoshinari ; Campbell, Norm Rc ; Neal, Bruce ; Petersen, Kristina S. / Reliable Quantification of the Potential for Equations Based on Spot Urine Samples to Estimate Population Salt Intake : Protocol for a Systematic Review and Meta-Analysis. In: JMIR Research Protocols. 2016 ; Vol. 5, No. 3.

Bibtex

@article{a12e6b20320d4e299af71712c770092f,
title = "Reliable Quantification of the Potential for Equations Based on Spot Urine Samples to Estimate Population Salt Intake: Protocol for a Systematic Review and Meta-Analysis",
abstract = "BACKGROUND: Methods based on spot urine samples (a single sample at one time-point) have been identified as a possible alternative approach to 24-hour urine samples for determining mean population salt intake.OBJECTIVE: The aim of this study is to identify a reliable method for estimating mean population salt intake from spot urine samples. This will be done by comparing the performance of existing equations against one other and against estimates derived from 24-hour urine samples. The effects of factors such as ethnicity, sex, age, body mass index, antihypertensive drug use, health status, and timing of spot urine collection will be explored. The capacity of spot urine samples to measure change in salt intake over time will also be determined. Finally, we aim to develop a novel equation (or equations) that performs better than existing equations to estimate mean population salt intake.METHODS: A systematic review and meta-analysis of individual participant data will be conducted. A search has been conducted to identify human studies that report salt (or sodium) excretion based upon 24-hour urine samples and spot urine samples. There were no restrictions on language, study sample size, or characteristics of the study population. MEDLINE via OvidSP (1946-present), Premedline via OvidSP, EMBASE, Global Health via OvidSP (1910-present), and the Cochrane Library were searched, and two reviewers identified eligible studies. The authors of these studies will be invited to contribute data according to a standard format. Individual participant records will be compiled and a series of analyses will be completed to: (1) compare existing equations for estimating 24-hour salt intake from spot urine samples with 24-hour urine samples, and assess the degree of bias according to key demographic and clinical characteristics; (2) assess the reliability of using spot urine samples to measure population changes in salt intake overtime; and (3) develop a novel equation that performs better than existing equations to estimate mean population salt intake.RESULTS: The search strategy identified 538 records; 100 records were obtained for review in full text and 73 have been confirmed as eligible. In addition, 68 abstracts were identified, some of which may contain data eligible for inclusion. Individual participant data will be requested from the authors of eligible studies.CONCLUSIONS: Many equations for estimating salt intake from spot urine samples have been developed and validated, although most have been studied in very specific settings. This meta-analysis of individual participant data will enable a much broader understanding of the capacity for spot urine samples to estimate population salt intake.",
author = "Liping Huang and Michelle Crino and Wu, {Jason Hy} and Mark Woodward and Mary-Anne Land and Rachael McLean and Jacqui Webster and Batsaikhan Enkhtungalag and Nowson, {Caryl A} and Paul Elliott and Mary Cogswell and Ulla Toft and Mill, {Jose G} and Furlanetto, {Tania W} and Ilich, {Jasminka Z} and Hong, {Yet Hoi} and Damian Cohall and Leonella Luzardo and Oscar Noboa and Ellen Holm and Gerbes, {Alexander L} and Bahaa Senousy and {Pinar Kara}, Sonat and Brewster, {Lizzy M} and Hirotsugu Ueshima and Srinivas Subramanian and Teo, {Boon Wee} and Norrina Allen and Choudhury, {Sohel Reza} and Jorge Polonia and Yoshinari Yasuda and Campbell, {Norm Rc} and Bruce Neal and Petersen, {Kristina S}",
year = "2016",
month = sep,
day = "21",
doi = "10.2196/resprot.6282",
language = "English",
volume = "5",
journal = "J M I R Research Protocols",
issn = "1929-0748",
publisher = "J M I R Publications, Inc.",
number = "3",

}

RIS

TY - JOUR

T1 - Reliable Quantification of the Potential for Equations Based on Spot Urine Samples to Estimate Population Salt Intake

T2 - Protocol for a Systematic Review and Meta-Analysis

AU - Huang, Liping

AU - Crino, Michelle

AU - Wu, Jason Hy

AU - Woodward, Mark

AU - Land, Mary-Anne

AU - McLean, Rachael

AU - Webster, Jacqui

AU - Enkhtungalag, Batsaikhan

AU - Nowson, Caryl A

AU - Elliott, Paul

AU - Cogswell, Mary

AU - Toft, Ulla

AU - Mill, Jose G

AU - Furlanetto, Tania W

AU - Ilich, Jasminka Z

AU - Hong, Yet Hoi

AU - Cohall, Damian

AU - Luzardo, Leonella

AU - Noboa, Oscar

AU - Holm, Ellen

AU - Gerbes, Alexander L

AU - Senousy, Bahaa

AU - Pinar Kara, Sonat

AU - Brewster, Lizzy M

AU - Ueshima, Hirotsugu

AU - Subramanian, Srinivas

AU - Teo, Boon Wee

AU - Allen, Norrina

AU - Choudhury, Sohel Reza

AU - Polonia, Jorge

AU - Yasuda, Yoshinari

AU - Campbell, Norm Rc

AU - Neal, Bruce

AU - Petersen, Kristina S

PY - 2016/9/21

Y1 - 2016/9/21

N2 - BACKGROUND: Methods based on spot urine samples (a single sample at one time-point) have been identified as a possible alternative approach to 24-hour urine samples for determining mean population salt intake.OBJECTIVE: The aim of this study is to identify a reliable method for estimating mean population salt intake from spot urine samples. This will be done by comparing the performance of existing equations against one other and against estimates derived from 24-hour urine samples. The effects of factors such as ethnicity, sex, age, body mass index, antihypertensive drug use, health status, and timing of spot urine collection will be explored. The capacity of spot urine samples to measure change in salt intake over time will also be determined. Finally, we aim to develop a novel equation (or equations) that performs better than existing equations to estimate mean population salt intake.METHODS: A systematic review and meta-analysis of individual participant data will be conducted. A search has been conducted to identify human studies that report salt (or sodium) excretion based upon 24-hour urine samples and spot urine samples. There were no restrictions on language, study sample size, or characteristics of the study population. MEDLINE via OvidSP (1946-present), Premedline via OvidSP, EMBASE, Global Health via OvidSP (1910-present), and the Cochrane Library were searched, and two reviewers identified eligible studies. The authors of these studies will be invited to contribute data according to a standard format. Individual participant records will be compiled and a series of analyses will be completed to: (1) compare existing equations for estimating 24-hour salt intake from spot urine samples with 24-hour urine samples, and assess the degree of bias according to key demographic and clinical characteristics; (2) assess the reliability of using spot urine samples to measure population changes in salt intake overtime; and (3) develop a novel equation that performs better than existing equations to estimate mean population salt intake.RESULTS: The search strategy identified 538 records; 100 records were obtained for review in full text and 73 have been confirmed as eligible. In addition, 68 abstracts were identified, some of which may contain data eligible for inclusion. Individual participant data will be requested from the authors of eligible studies.CONCLUSIONS: Many equations for estimating salt intake from spot urine samples have been developed and validated, although most have been studied in very specific settings. This meta-analysis of individual participant data will enable a much broader understanding of the capacity for spot urine samples to estimate population salt intake.

AB - BACKGROUND: Methods based on spot urine samples (a single sample at one time-point) have been identified as a possible alternative approach to 24-hour urine samples for determining mean population salt intake.OBJECTIVE: The aim of this study is to identify a reliable method for estimating mean population salt intake from spot urine samples. This will be done by comparing the performance of existing equations against one other and against estimates derived from 24-hour urine samples. The effects of factors such as ethnicity, sex, age, body mass index, antihypertensive drug use, health status, and timing of spot urine collection will be explored. The capacity of spot urine samples to measure change in salt intake over time will also be determined. Finally, we aim to develop a novel equation (or equations) that performs better than existing equations to estimate mean population salt intake.METHODS: A systematic review and meta-analysis of individual participant data will be conducted. A search has been conducted to identify human studies that report salt (or sodium) excretion based upon 24-hour urine samples and spot urine samples. There were no restrictions on language, study sample size, or characteristics of the study population. MEDLINE via OvidSP (1946-present), Premedline via OvidSP, EMBASE, Global Health via OvidSP (1910-present), and the Cochrane Library were searched, and two reviewers identified eligible studies. The authors of these studies will be invited to contribute data according to a standard format. Individual participant records will be compiled and a series of analyses will be completed to: (1) compare existing equations for estimating 24-hour salt intake from spot urine samples with 24-hour urine samples, and assess the degree of bias according to key demographic and clinical characteristics; (2) assess the reliability of using spot urine samples to measure population changes in salt intake overtime; and (3) develop a novel equation that performs better than existing equations to estimate mean population salt intake.RESULTS: The search strategy identified 538 records; 100 records were obtained for review in full text and 73 have been confirmed as eligible. In addition, 68 abstracts were identified, some of which may contain data eligible for inclusion. Individual participant data will be requested from the authors of eligible studies.CONCLUSIONS: Many equations for estimating salt intake from spot urine samples have been developed and validated, although most have been studied in very specific settings. This meta-analysis of individual participant data will enable a much broader understanding of the capacity for spot urine samples to estimate population salt intake.

U2 - 10.2196/resprot.6282

DO - 10.2196/resprot.6282

M3 - Journal article

C2 - 27655265

VL - 5

JO - J M I R Research Protocols

JF - J M I R Research Protocols

SN - 1929-0748

IS - 3

M1 - e190

ER -

ID: 259568761