Estimation of iodine intake from various urinary iodine measurements in population studies.
about
Iodine Supplementation in Pregnancy and the Dilemma of Ambiguous RecommendationsThyroid Function among Breastfed Children with Chronically Excessive Iodine IntakesMaternal urinary iodine concentration in pregnancy and children's cognition: results from a population-based birth cohort in an iodine-sufficient area.Challenges in the evaluation of urinary iodine status in pregnancy: the importance of iodine supplement intake and time of sampling.Urinary Iodine and Goiter Prevalence in Belarus: experience of the Belarus-American cohort study of thyroid cancer and other thyroid diseases following the Chornobyl nuclear accident.Iodine intake and status of UK women of childbearing age recruited at the University of Surrey in the winter.Urinary iodine excretion and thyroid function status in school age children of hilly and plain regions of Eastern Nepal.Temporal variability in urinary concentrations of perchlorate, nitrate, thiocyanate and iodide among children.A short food frequency questionnaire to assess intake of seafood and n-3 supplements: validation with biomarkers.One month is sufficient for urinary iodine to return to its baseline value after the use of water-soluble iodinated contrast agents in post-thyroidectomy patients requiring radioiodine therapyRelationship between iodine levels and papillary thyroid carcinoma: A systematic review and meta-analysis.Iodine Excretion in 24-hour Urine Collection and Its Dietary Determinants in Healthy Japanese Adults.Urinary iodine: comparison of a simple method for its determination in microplates with measurement by inductively-coupled plasma mass spectrometry.Adequacy Assessment of a Universal Salt Iodization Program Two Decades after Its Implementation: A National Cross-Sectional Study of Iodine Status among School-Age Children in Tunisia.Comparison of population iodine estimates from 24-hour urine and timed-spot urine samples.Assessment of iodine nutrition in populations: past, present, and future.Iodine nutritional status in Brazil: a meta-analysis of all studies performed in the country pinpoints to an insufficient evaluation and heterogeneity.Low iodine diet in differentiated thyroid cancer: a review.Dietary ratio of animal:plant protein is associated with 24-h urinary iodine excretion in healthy school children.Potentiometric measurement of urinary iodine concentration in patients with thyroid diseases with and without previous exposure to non-radioactive iodine.The Sodium/Iodide Symporter (NIS): Molecular Physiology and Preclinical and Clinical Applications.Comparison of 2 methods for estimating the prevalences of inadequate and excessive iodine intakes.Estimation of the Prevalence of Inadequate and Excessive Iodine Intakes in School-Age Children from the Adjusted Distribution of Urinary Iodine Concentrations from Population Surveys.24-Hour Urine Samples Are More Reproducible Than Spot Urine Samples for Evaluation of Iodine Status in School-Age Children.Iodine nutritional status in the adult population of Shandong Province (China) prior to salt reduction program.Examination of iodine status in the German population: an example for methodological pitfalls of the current approach of iodine status assessment.Urinary iodine concentration of New Zealand adults improves with mandatory fortification of bread with iodised salt but not to predicted levels.Misclassification of iodine intake level from morning spot urine samples with high iodine excretion among Inuit and non-Inuit in Greenland.Assessment of the Effect of Two Distinct Restricted Iodine Diet Durations on Urinary Iodine Levels (Collected over 24 h or as a Single-Spot Urinary Sample) and Na(+)/I(-) Symporter Expression.Iodine status of adolescent girls in a population changing from high to lower fish consumption.Urinary iodine excretion (UIE) estimated by iodine/creatinine ratio from spot urine in Chinese school-age children.Iodine status among pregnant women after mandatory salt iodisation.Ethnicity is important for creatinine excretion among Inuit and Caucasians in Greenland.Inadequate Iodine Intake in Population Groups Defined by Age, Life Stage and Vegetarian Dietary Practice in a Norwegian Convenience Sample.Mothers' behaviour contributes to suboptimal iodine status of family members: findings from an iodine-sufficient area.Ten repeat collections for urinary iodine from spot samples or 24-hour samples are needed to reliably estimate individual iodine status in women.Iodine Deficiency in a Study Population of Norwegian Pregnant Women-Results from the Little in Norway Study (LiN).Serum thyroglobulin as a biomarker of iodine deficiency in adult populations.Iodine Status Assessment in South African Adults According to Spot Urinary Iodine Concentrations, Prediction Equations, and Measured 24-h Iodine Excretion.Current trends of 24-h urinary iodine excretion in German schoolchildren and the importance of iodised salt in processed foods
P2860
Q26751275-4D060615-7CA2-4EFD-88A8-9099E085D4CDQ26779634-505BC473-D5A6-4F18-8E5E-4B1946F07653Q33795737-CBB42672-85F6-47CF-9332-E4F2B5EBE117Q34472136-4574182A-B81D-44CF-A410-28490F80C6FEQ34759302-E32A8C9B-E8DA-4FA5-9D25-EB20601E26A6Q35121800-54ED7929-C37D-48F6-92AE-F034BD72844AQ35755191-9BBE2CD0-E2FB-4F0F-9E05-6C24608468B9Q35783393-49AA9179-BE58-4061-916A-9265592EE1E4Q35920040-2CEE0AEB-5F21-4B6A-AA00-9384B1703BE7Q36194127-C610EBBD-E329-42A8-B8C9-02D73F3750B2Q36373975-46517B97-BE65-435D-A767-49A094C5262FQ37434436-1A44E8CE-4370-4927-9C23-B227147E5C2FQ37550208-0D3C691E-B9A3-4218-A4F3-C36D91B5B2F5Q37628309-61E2FEEF-90A7-4D92-959F-93AA82A0B7D3Q37712706-77F946A3-D091-457B-8E05-F05065C5A5E5Q38049342-FD4C8D20-6B93-4616-9B03-9D8A1A2E0A9DQ38450416-452FF75A-1B21-49F1-88A9-19D0D4ED1859Q38539352-E85370A5-7404-4086-A464-A81D4D14BC51Q38997483-BAC3743B-F940-46BF-8657-CDADFD007AEFQ39026018-54CA4F01-6935-48A4-A772-CBEFEF61BA19Q39133291-281A9065-1589-49F7-BD01-EC675F3EAAB8Q39481003-AFC41A6D-7EF5-4B52-965C-E92E845EE5CBQ39793703-FAF4B408-74AD-4A56-9AA6-7E016D597358Q40272896-255F6F1A-CD9B-43E8-929A-30E5F0B3400BQ40656281-C5497FFF-DA9D-4195-B843-F7BCD2D96DF8Q40882238-AB37EA37-9D49-4D83-A6E3-8C46CC7A713FQ40895822-ACC1C728-9B3F-4870-8023-68266AC78C3DQ41104172-485D316D-9173-4323-BC95-1962587C0DF3Q41922758-C7BCABED-8F2F-421C-BBDF-13DEDB701692Q43020077-926D8112-2494-4011-93B1-23990E91B08DQ47627803-61E376DE-2086-41D5-B78A-EE6DB803C72DQ47959118-E1D7CB5B-F184-447F-9D9A-82F09411F888Q48820047-AC815DF0-47D2-4518-AA85-9F139D879C4CQ49804737-71282109-056F-41A2-882D-44ABB8A68D43Q51092131-A654257C-4600-4D7C-8F12-0145CA854A67Q51368216-B448C7E3-79E8-4D3F-9CC4-D9C917CA0669Q54231585-8897098E-5EB9-43EC-B381-9992B0EB0332Q55059573-CF4EC19F-E120-4902-BF99-B6EC600C6743Q55515219-0F48B11D-DEAC-488F-94A8-0F725DEFC97DQ57320372-22F535F5-0D60-487D-8E51-4DD456D04F25
P2860
Estimation of iodine intake from various urinary iodine measurements in population studies.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
Estimation of iodine intake fr ...... rements in population studies.
@en
Estimation of iodine intake fr ...... rements in population studies.
@nl
type
label
Estimation of iodine intake fr ...... rements in population studies.
@en
Estimation of iodine intake fr ...... rements in population studies.
@nl
prefLabel
Estimation of iodine intake fr ...... rements in population studies.
@en
Estimation of iodine intake fr ...... rements in population studies.
@nl
P2093
P356
P1433
P1476
Estimation of iodine intake fr ...... rements in population studies.
@en
P2093
Hans Perrild
Lars Ovesen
Lone B Rasmussen
Nils Knudsen
Pernille Vejbjerg
Peter Laurberg
Stig Andersen
P304
P356
10.1089/THY.2009.0094
P577
2009-11-01T00:00:00Z