UDK 616.153.915-074:616.12-005.4+616.441 DOI: 10.22141/2224-0721.13.6.2017.112892
I.V. Pankiv
Higher State Education Institution of Ukraine "Bukovinian State Medical University", Chernivtsi, Ukraine
Effect of vitamin D supplementation on insulin resistance in patients with hypothyroidism
For cite: Mezhdunarodnyi Endokrinologicheskii Zhurnal. 2017;13:455-8. doi: 10.22141/2224-0721.13.6.2017.112892
Abstract. Background. Over the past decade, numerous non-skeletal diseases have been reported to be associated with vitamin D deficiency, including autoimmune thyroid pathology. Different studies provide evidence that vitamin D may play a functional role in glucose tolerance through its effects on insulin secretion and insulin sensitivity. The effect of vitamin D supplementation on insulin resistance in patients with hypothyroidism has not been investigated. The purpose of the study is to evaluate the effects of vitamin D supplementation on insulin resistance in hypothyroidism. Materials and methods. 47 participants, 32-74 years old, including 39 women (82.9 %) and 8 men (17.1 %), took part in the study. Serum thyroid-stimulating hormone, insulin and 25(OH)D concentration were measured, and HOMA-IR was calculated. All measurements were performed at the beginning and the end of the study. Patients with hypothyroidism received 21,000 IU of cholecalciferol orally per week for twelve weeks. The results were analyzed by descriptive tests, and a comparison between variables was made using paired T-tests or Wilcoxon tests, as an appropriate. Results. All of the participants were vitamin D deficient. Mean serum 25(OH)D concentration was 21.72 ± 6.14 ng/ml. The results at baseline and at the end were: for insulin — 19.36 ± 2.39 and 9.92 ± 2.38 mlU/L (p < 0.05) and for HOMA-IR — 3.91 ± 0.32 and 2.38 ± 0.17 (p < 0.05), respectively. Conclusions. Our data showed significant improvement in serum insulin and in HOMA-IR after treatment with cholecalciferol, suggested that vitamin D supplementation could reduce insulin resistance in hypothyroidism.
Keywords: hypothyroidism; insulin resistance; cholecalciferol
C2> ■ FJ ® Клшчна тирео'|'долопя
/Clinical Thyroidology/
International journal of endocrinology
Introduction
Vitamin D insufficiency and deficiency is a global health problem, its role as an immune modulator has been recently emphasized. The evidence is increasingly pointing towards vitamin D significant role in reducing the incidence of autoimmune diseases [1]. Over recent, numerous non-skeletal diseases associated with vitamin D deficiency have been reported including hypothyroidism [2].
Some studies have shown that vitamin D may play a glucose tolerance through its effects on insulin secretion and insulin sensitivity [3].
In comparison to healthy controls, subjects with hypothyroidism have significantly lower circulating concentration of 25(OH)D [4]. Animal studies have shown that vitamin D is a basic factor, necessary for normal insulin secretion [5]. Vitamin D reduces insulin resistance probably through its effect on calcium and phosphorus metabolism and through up regulation of the insulin receptor gene [6].
Considering the discordant results, the direct association between thyroid autoimmunity and newly identified hypothyroidism in the context of type 2 diabetes mellitus [7], and evidence implying a detrimental role for hypothyroidism in insulin sensitivity [8], it could be advocated that the association between insulin resistance and thyroid autoimmunity requires further clarification from both the clinical and research perspectives.
Purpose. We purposed to explore the association between insulin resistance and hypothyroidism focusing on the role of 25(OH)D in an ethnically homogenous population and to evaluate the effects of vitamin D supplementation on insulin resistance in patients with hypothy-roidism.
Materials and methods
47 participants, 32—74 years old, including 39 women (82.9 %) and 8 men (17.1 %) took part in the study taking levothyroxine. The patients took part in the study for twelve weeks. We added cholecalciferol to their
© «International Journal of Endocrinology», 2017 © <^жнародний ендокринолопчний журнал», 2017
© Publisher Zaslavsky O.Yu., 2017 © Видавець Заславський О.Ю., 2017
For correspondence: Ivan Pankiv, Higher State Education Institution of Ukraine "Bukovinian State Medical University", Theatralna sq., 2, Chernivtsi, 58002, Ukraine; е-mail: [email protected]
Для кореспонденцп': Паньюв 1ван Володимирович, Вищий державний навчальний заклад УкраТни «Буковинський державний медичний уыверситет», пл. Театральна, 2, м. Черывць 58002, УкраТна; е-mail: [email protected]
medication and recorded their demographic data and medication before and after supplementation. During the trial, the subjects were instructed not to change dose of levothyroxine. Participants were assessed for weight, height, and BMI. We also measured TSH, serum cre-atinine, lipid profiles, insulin, calcium, phosphorous. Serum 25(OH)D was measured by radioimmunoassay. HOMA-IR (Hemostatic model assessment-Insulin resistance) was calculated [9].
We also assessed liver function by measuring serum concentration of aspartate aminotransferase and alanine aminotransferase to rule out liver disease and major non alcoholic fatty disease of the liver as exclusion criteria that might affect vitamin D metabolism.
Inclusion criteria were absence of hepatic, renal and bone diseases, malignancy, any history of the use of drugs such as anticonvulsants, calcium, vitamin D.
Written consent was obtained from all participants. After baseline assessment all patients took 21,000 units of cholecalciferol weekly, for 12 weeks. During the treatment, all patients were visited and interviewed about possible side effects, and to determine the degree of compliance. After 12 weeks of treatment, all laboratory tests and clinical evaluations were repeated as per the initial visit.
The Medical Ethics Committee of Bukovinian State Medical University approved the study protocol which complied with the current version of the Declaration of Helsinki.
Statistical analysis was performed using Statistics Package Statistica 10 (StatSoft, Inc., США). The Data were analyzed by descriptive tests such as mean, SD (standard deviation), and SE (Standard Error) and K-S (Kolmogorov-Smirnov) tests were performed to assess the normality of the variables before further statistical analysis. All data in this study are presented as mean ± SD. The effects of Vitamin D supplementation on the variables were analyzed by paired t test (for normally distributed) or Wilcoxon test (for non-normally distributed).
Results
The mean age of the participants was 45.2 ± 10.5 years old. The mean weight of the patients at baseline was 72 ± 11 and at the end was 71 ± 8 kg that doesn't have a meaningful differences. All patients were controlled with levothyroxine as monotheraphy. Mean 25(OH)D concentration was 21.72 ± 6.14 ng/ml at baseline and all patients at baseline were vitamin D deficient based on 25(OH)D < 30 ng/ml. TSH before and after treatment was normally distributed, so it was analyzed by paired t test. But HOMA-IR and insulin before and treatment
were non-normally distributed, so they were analyzed by Wilcoxon test. Insulin concentration decreased significantly after treatment with cholecalciferol (p < 0.05). Comparison of mean for HOMA-IR before and after treatment with vitamin D showed a meaningful reduction after supplementation (Table 1).
Twelve weeks of cholecalciferol supplementation did not change lipid profile in patients with hypothyroidism.
Discussion
The main purpose of this study was to investigate the effects of vitamin D supplementation on serum insulin and HOMA-IR in patients with hypothyroisdism. There was an interesting finding. There was an inverse relation between final TSH and basal 25(OH)D concentration. In other words, higher serum basal 25(OH)D led to lower final TSH. This means that who had a higher serum basal 25(OH)D concentration benefited more of vitamin D intake to lowering final TSH. This may be because of non-skeletal effects of vitamin D which appears in higher vitamin D concentration and the effects of lower vitamin D concentration, are limited to the bone and muscle. Our data showed that effects of vitamin D on insulin resistance was significant when vitamin D concentration was 30—50 ng/ml and in lower vitamin D concentration, it didn't affect on insulin resistance.
Effects of vitamin D supplementation on insulin resistance have been shown in numerous studies. Our findings are consistent with results of many other published studies, in which the insulin resistance appears to be decreased in patients with hypothyroidism who had received vitamin D. Von Hurst showed that vitamin D supplementation significantly improved insulin sensitivity and insulin resistance [10].
Monthly supplementation with 120,000 units of vitamin D also improved insulin sensitivity [11]. Although in contrast to some studies, M.D. Witham et al. foundout that vitamin D intake (at different dosage) had no effects on insulin resistance [12]. J. Nagpal et al. reported that vitamin D supplementation had no effect on mean of insulin sensitivity but two years treatment with vitamin D did improve HOMA-IR [13].
There are some mechanisms for the effects of vitamin D: presence of vitamin D receptors on pancreatic p-cells [3]. Vitamin D activating 1a-hydroxylase is expressed in pancreatic p-cells [14], presence of vitamin D response element in the insulin gene, presence of vitamin D receptor in skeletal muscle and the fact that 1,25(OH D increases transcription of insulin receptor genes [6].
It would be useful, though to undertake further studies to discover more about the mechanism and the ef-
Table 1. Comparison of biochemical characteristics (mean ± SD) in patients with hypothyroidism before and after treatment with cholecalciferol for 12 weeks
Variable Before treatment After treatment Р-value
TSH, mlU/L 7.8 7.2 > 0.05
Insulin, mlU/L 19.36 ± 2.39 9.92 ± 2.38 < 0.05
HOMA-IR 3.91 ± 0.30 2.38 ± 0.17 < 0.05
25(OH)D, ng/ml 21.72 ± 5.14 38.40 ± 6.23 < 0.05
456
Мiжнар0дний ендокринолопчний журнал, p-ISSN 2224-0721, e-ISSN 2307-1427
Том 13, № 6, 2017
fect of vitamin D on both alpha and islet beta-cell function and also on the mechanisms determining insulin resistance.
A limitation of our study is that we did not evaluate the effects of placebo on insulin or HOMA-IR. However, there are a few studies that didn't use placebo, evaluated the effects of vitamin D at different doses on insulin resistance [10].
Conclusions
Our data showed significant improvement in serum insulin and in HOMA-IR after treatment with cholecal-ciferol, suggested that vitamin D supplementation could reduce insulin resistance in hypothyroidism.
Conflicts of interests. Author declares the absence of any conflicts of interests that might be construed to influence the results or interpretation of their manuscript.
References
1. Mackawy AMH, Al-ayed BM, Al-rashidi BM. Vitamin D deficiency and its association with thyroid disease. Int J Health Sci (Qassim). 2013;7(3):267-75. PMCIS:PMC3921055.
2. Toulis K, Tsekmekidou X, Potolidis E, et al. Thyroid autoimmunity in the context of type 2 diabetes mellitus: implications for vitamin D. Int J Endocnol. 2015;710363. doi: 10.1155/2015/710363.
3. Palomer X, Gonzalez-Clemente JM, Blanco-Vaca F, Mauricio D. Role of vitamin D in the pathogenesis of type 2 diabetes mellitus. Diabetes Obes Metab. 2008;10(3):185-97. doi: 10.1111/j.1463-1326.2007.00710.x.
4. Wang J, Li S, Chen G, et al. Meta-analysis of the association between vitamin D and autoimmune thyroid disease. Nutrients. 2015;7:2485-98. doi: 10.3390/nu7042485.
5. Al-Shoumer KAS, Al-Essa TM. Is there a relationship between vitamin D with insulin resistance and diabetes melli-tus. World J Diabetes. 2015;6(8):1057-64. doi: 10.4239/wjd. v6.i8.1057.
6. Maestro B, Molero S, Bajo S, Davila N, Calle C. Tran-
scriptional activation of the human insulin receptor gene by 1, 25-dihydroxyvitamin D(3). CellBiochem Funct. 2002;20(3):227-32. doi: 10.1002/cbf.951.
7. Diez JJ, Iglesias P. An analysis of the relative risk for hypothyroidism in patients with Type2 diabetes. Diabet Med. 2012;29(12):1510-4. doi: 10.1111/j.1464-5491.2012.03687.x.
8. Duntas LH, Orgiazzi J, Brabant G. The interface between thyroid and diabetes mellitus. Clin Endocrinol (Oxf). 2011 Jul;75(1):1-9. doi: 10.1111/j.1365-2265.2011.04029.x.
9. Tanabe N, Saito K, Yamada Y, Takasawa T, Seki N, Suzuki H. Risk assessment by post-challenge plasma glucose, insulin response ratio, and other indices of insulin resistance and/or secretion for predicting the development of type 2 diabetes. Inter Med. 2009;48:401-9. doi: 10.2169/internalmedicine.48.1325.
10. von Hurst PR, Stonehouse W, Coad J. Vitamin D supplementation reduces insulin resistance in South Asian women living in New Zealand who are insulin resistant and vitamin D deficient - a randomised, placebo-controlled trial. Br J Nutr. 2010 Feb;103(4):549-55. doi: 10.1017/S0007114509992017.
11. Pittas AG, Harris SS, Stark PC, Dawson-Hughes B. The effects of calcium and vitamin D supplementation on blood glucose and markers of inflammation in non-diabetic adults. Diabetes Care. 2007;30(4):980-6. doi: 10.2337/dc06-1994.
12. Witham MD, Dore FJ, Druburgh M, Sugden JA, Morris AD, Struthers AD. The effect of different doses of vitamin D(3) on markers of vascular health in patients with type 2 diabetes: a randomised controlled trial. Diabetologia. 2010;53(10):2112-9. doi: 10.1007/s00125-010-1838-1.
13. Nagpal J, Pande JN, Bhartia A. A double-blind, randomized, placebo-controlled trial of the short-term effect of vitamin D3 supplementation on insulin sensitivity in apparently healthy, middle-aged, centrally obese men. Diabetic Medicine. 2009;26(1):19-27. doi: 10.1111/j.1464-5491.2008.02636.x.
14. Bland R, Markovic D, Hills CE, et al. Expression of 25-hydroxyvitamin D3-1alpha-hydroxylase in pancreatic islets. J Steroid Biochem Mol Biol. 2004;89-90(1-5):121-5. doi: 10.1016/j.jsbmb.2004.03.115..
Received 30.08.2017 ■
Паньюв 1.В.
Вищий державний навчальний заклад УкраНи «Буковинський державний медичний yHiBepcmeT», м. 4epHiBц, Украна
Вплив додаткового призначення в^амшу D на шсулшорезистентнють у хворих на ппотиреоз
Резюме. Актуальтсть. Упродовж останнього десятилитя опублшоваш вщомосп про численш позаскелетш розлади, асоцшоваш з дефщитом вггамшу D, включаючи автс^мун-ну патолопю щитоподiбноi залози. Дослщження багатьох автс^в пщтверджують вагомий вплив вггамшу D на толе-рантшсть до глюкози через його дю на секрещю шсулшу й чутливють до шсул^. Ефектившсть додаткового призначення вггам^ D на шсулшорезистентшсть у хворих на ппотиреоз до цього часу не дослщжувалася. Мета до-смдження: встановити вплив додаткового призначення хо-лекальциферолу на шсулшорезистентшсть у хворих на п-потиреоз. Матерiалu та методы. 47 учаснишв вжом 32—74 роки, у тому чи^ 39 жiнок (82,9 %) i 8 чоловтв (17,1 %), було включено в дослщження. Визначали вмiст ТТГ, ш-сул^ та 25(ОЦЮ у сироватщ кров^ обчислювали шдекс НОМА-Ш. Уш дослщження проводили до та тсля тку-вання. Пащенти з ппотиреозом отримували 21 000 МО хо-
лекальциферолу на тиждень перорально упродовж 12 тиж-шв. Результати проаналiзованi методами описово! статистики, порiвняння м1ж змшними величинами зроблено з використанням парних T-тестав. Результати. У Bcix учас-ниыв дослщження встановлено недостатшсть i дефщит вь там^ D. Середнш вмют 25(OH)D у сироватщ кровi стано-вив 21,72 ± 6,14 нг/мл. Показники концентраци шсул^ до та тсля призначення холекальциферолу дорiвнювали 19,36 ± 2,39 i 9,92 ± 2,38 мМО/л (p < 0,05), для HOMA-IR — 3,91 ± 0,32 i 2,38 ± 0,17 (p < 0,05) вщповщно. Висновки. Отримаш результати демонструють вiрогiдне покращення показниыв вмюту шсулшу в сироватщ кровi i HOMA-IR на тл додаткового призначення холекальциферолу, що вказуе на роль вггамшу D у зниженш шсулшорезистент-носп у хворих на ппотиреоз.
Krn40Bi слова: ппотиреоз; шсулшорезистентшсть; хо-лекальциферол
Панькив И.В.
Высшее государственное учебное заведение Украины «Буковинский государственный медицинский университет», г. Черновцы, Украина
Влияние дополнительного назначения витамина й на инсулинорезистентность у больных гипотиреозом
Резюме. Актуальность. На протяжении последнего десятилетия опубликованы сведения о многочисленных внескелетных расстройствах, ассоциированных с дефицитом витамина D, включая аутоиммунную патологию щитовидной железы. Исследования многих авторов подтверждают весомое влияние витамина D на толерантность к глюкозе из-за его действия на секрецию инсулина и чувствительность к инсулину. Эффективность дополнительного назначения витамина D на инсулинорезистентность у больных гипотиреозом ранее не исследовалась. Цель исследования: установить влияние дополнительного назначения холекальциферола на инсулинорезистентность у больных гипотиреозом. Материалы и методы. 47 участников в возрасте 32—74 лет, в том числе 39 женщин (82,9 %) и 8 мужчин (17,1 %), были включены в исследование. Определяли содержимое тиреотропного гормона, инсулина и 25(ОН^ в сыворотке крови, вычисляли индекс НОМА-Ш. Все исследования проводили до и после лечения. Пациенты с гипотиреозом получали
21 000 МЕ холекальциферола в неделю перорально на протяжении 12 недель. Результаты проанализированы методами описательной статистики, сравнения между переменными величинами проведены с использованием парных Т-тестов. Результаты. У всех участников исследования установлена недостаточность и дефицит витамина D. Среднее содержание 25(ОН^ в сыворотке крови составляло 21,72 ± 6,14 нг/мл. Показатели концентрации инсулина до и после назначения холекальциферола составляли 19,36 ± 2,39 и 9,92 ± 2,38 мМЕ/л (р < 0,05), для НОМА-Ш — 3,91 ± 0,32 и 2,38 ± 0,17 (р < 0,05) соответственно. Выводы. Полученные результаты демонстрируют достоверное улучшение показателей содержания инсулина в сыворотке крови и НОМА-Ш на фоне дополнительного назначения холекальциферола, что указывает на роль витамина D в снижении инсулинорезистентности у больных гипотиреозом.
Ключевые слова: гипотиреоз; инсулинорезистентность; холекальциферол
458
Мiжнaр0дний ендокринолопчний журнал, р-^ 2224-0721, е-^ 2307-1427
Том 13, № 6, 2017