Background: In India, 42 million people suffer from thyroid diseases. One in 10 adults suffer from hypothyroidism. Although coverage of iodized salt utilization has increased after universal salt iodization, we are yet to achieve the goals of NIDDCP for which the present study was planned to identify the hidden factors. The aim is to identify the factors affecting thyroid hormone levels, their association with salt iodine content and suggest strategies for improvement based on patient perceptions. Methods: A hospital based prospective follow up study was conducted among 140 patients, with an in depth interview and testing of salt iodine content. Data were analyzed using the SPSS software. Results: 96 (69%) patients were of age 18–35 years. 129 (92%) were females, 120 (86%) were from rural areas, 95 (68%) were literate, 116 (83%) were unemployed, and 115 (82%) were of low socioeconomic status. Most of them had poor cooking practices and dietary habits. The T3, T4, and TSH levels were within the normal range in 84 (60%) patients. Only in 28 (20%) salt samples, the iodine content was adequate. The association between factors like intake of inadequately iodized salt (P < 0.01), rural distribution (P < 0.05), illiteracy, presence of the comorbid conditions (P < 0.0001), and thyroid hormone abnormality was found to be statistically significant. Conclusion: The factors that adversely affect thyroid levels were higher age, female gender, rural distribution, comorbid conditions and patients with low salt iodine were prone to abnormal levels. Monitoring salt iodine content, training of health care workers to create awareness were the key strategies proposed for improvement.

Added salt; goitrogen; Iodine deficiency disorders (IDD); iodized salt; knowledge; practice

Zimmermann MB. Iodine deficiency. Endocr Rev

;30:376‑408.

Vanderpump MPJ. The epidemiology of thyroid disease. Br Med

Bull 2011;99:39–51.

Unnikrishnan AG, Menon UV. Thyroid disorders in India:

An epidemiological perspective. Indian J Endocrinol Metab

;15(Suppl 2):S78‑81.

Unnikrishnan AG, Kalra S, Sahay RK, Bantwal G, John M,

Tewari N. Prevalence of hypothyroidism in adults: An

epidemiological study in eight cities of India. Indian J Endocrinol

Metab 2013;17:647‑52.

Kapil U. Successful efforts toward elimination iodine deficiency

disorders in India. Indian J Community Med 2010;35:455‑68.

Sai Deepika P, Thirumala Rao B, Vamsi A, Valleswary K,

Chandra Sekhar M. A cross sectional study on proper use of

iodized salt in communities of rural areas and its relevant factors

in Prakasam district, Andhra Pradesh, India. Int J Community

Med Public Health 2019;6:1083‑90.

Olmos RD, Figueiredo RC, Aquino EM, Lotufo PA,

Bensenor IM. Gender, race and socioeconomic influence on

diagnosis and treatment of thyroid disorders in the Brazilian

Longitudinal Study of Adult Health (ELSA‑Brasil). Braz J Med

Biol Res 2015;48:751‑8.

Klein J. Thyroid hormone and blood pressure regulation. In:

Laragh JH, Brenner BM, editors. Hypertension: Pathophysiology,

Diagnosis, and Management. New York: Raven Press; 1990.

p. 1661–74.

Marcisz C, Jonderko G, Kucharz EJ, Influence of short‑time

application of a low sodium diet on blood pressure in patients

with hyperthyroidism or hypothyroidism during therapy. Am J

Hypertens 2001;14:995–1002.

Wang C. The relationship between type 2 diabetes mellitus and

related thyroid diseases. J Diabetes Res 2013;2013:390534. doi:

1155/2013/390534.

Fathima KA, Bhargava M. Salt reduction and low‑sodium salt

substitutes: Awareness among health‑care providers in Mangalore,

Karnataka. Indian J Community Med 2018;43:266‑9.

Datta A, Karmakar N, Nag K, Singha S. A study on knowledge,

attitude and practices regarding household consumption of

iodized salt among selected urban women of Tripura, India. J Clin

Diagn Res 2018;12. doi: 10.7860/JCDR/2018/37587.12252.

Truong T, Baron‑Dubourdieu D, Rougier Y, Guénel P. Role

of dietary iodine and cruciferous vegetables in thyroid cancer: A countrywide case‑control study in New Caledonia. Cancer

Causes Control 2010;21:1183‑92.

Ajmani NS, Sarbhai V, Yadav N, Paul M, Ahmad A, Ajmani AK.

Role of thyroid dysfunction in patients with menstrual disorders

in tertiary care center of walled city of Delhi. J Obstet Gynaecol

India 2016;66:115–9.

Pandav CS, Yadav K, Srivastava R, Pandav R, Karmarkar MG.

Iodine deficiency disorders (IDD) control in India. Indian J Med

Res 2013;138:418‑33.

Oddie TH, Fisher DA, McConahey WM, Thompson CS. Iodine

intake in the United states: A reassessment. J Clin Endocrinol

Metab 1970;30:659‑65.

Sawalha A, Sawalha M, Rajabi R, Determination of iodine

level in consumer table salt from production to consumption:

A cross‑sectional study in occupied Palestinian territory. Lancet

;393. doi: 10.1016/S0140‑6736(19)30631‑2.

Karmakar N, Datta A, Nag K, Datta SS, Datta S. Knowledge,

attitude, and practice regarding household consumption of iodized

salt among rural women of Tripura, India: A mixed‑methods

study. J Educ Health Promot 2019;8:21. doi: 10.4103/jehp.

jehp_248_18.

Lowe N, Westaway E, Munir A, Tahir S, Dykes F, Lhussier M,

et al. Increasing awareness and use of iodised salt in a

marginalised community setting in North‑West Pakistan.

Nutrients 2015;7:9672‑82.

Jooste PL, Marks AS, Van Erkom SC. Factors influencing the

availability of iodised salts in South Africa. S Afr J Food Sci

Nutr 1995;7:49‑52.

Ganti E, Kurada SV, Pakalapati S, Dana SR, Pothukuchi M.

“Iodized salt, a boon or bane?”: A retrospective study. J NTR

Univ Health Sci 2013;2:239‑44.

Kapil U, Singh JV, Tandon M, Pathak P, Singh C, Yadav R.

Assesement of iodine deficiency disorders in Meerut district,

Uttar Pradesh. Asia Pac J Clin Nutr 2000;9:99‑101.