iE!
International Journal of Endocrinology
Орипнальж AOOAÏAKeHHq
/Original Researches/
UDC 616.441-008.64-085.322.03 DOI: 10.22141/2224-0721.16.5.2020.212744
N.Ye. Barabash1 <E, Ye.V. Simonova1 , T.M. Tykhonova1 Q, O.M. Nechvohlod2, O.V. Shvets3
1 V.N. Karazin KharkivNational University, Kharkiv, Ukraine
2 Private Enterprise "Consultative Polyclinic", Kharkiv, Ukraine
3 Municipal Non-Profit Enterprise "City Hospital 8" of Zaporizhzhia City Council, Zaporizhzhia, Ukraine
Reasons for the prescription of natural remedies in the treatment of autoimmune thyroiditis with different degrees of hypothyroidism
For citation: Miznarodnij endokrinobgicnij zurnal. 2020;16(5):408-413. doi: 10.22141/2224-0721.16.5.2020.212744
Abstract. Background. Autoimmune thyroiditis is the most common cause of hypothyroidism. If the therapy of overt hypothyroidism by prescribing hormone replacement therapy is quite clear, then the problem of treating the patients with subclinical hypothyroidism remains open. The purpose of this study was to determine the effectiveness of using the combined natural drug Thyreos in the treatment of autoimmune thyroiditis without thyroid dysfunction, at the stage of subclinical hypothyroidism as monotherapy and in the comprehensive therapy of overt hypothyroidism in the combination with L-thyroxine. Materials and methods. Forty-nine patients aged 48.26 ± 13.52 years with autoimmune thyroiditis were examined. All individuals were divided into 3 groups. Group
1 included 20 patients with autoimmune thyroiditis without thyroid dysfunction, group 2 consisted of 16 people with newly diagnosed subclinical hypothyroidism, and group 3 included 13 patients, who previously received L-thyroxine therapy for overt hypothyroidism. All patients were prescribed Thyreos 1 capsule twice a day for a period of 3 months as monotherapy (groups 1 and 2) or in addition to hormone replacement therapy (group 3). Results. When evaluating complaints, it was found that after 3 months of taking the drug, weakness and rapid fatigue were observed in a significantly smaller number of patients in all three groups (p < 0.05). Complaints of dryness and hair loss in individuals of the first two groups (p < 0.05) were also probably less frequent after 3 months of therapy with Thyreos. As a result of treatment, dry skin was significantly reduced in patients of only the first examined group (p = 0.024). In people with newly diagnosed subclinical hypothyroidism, a significant dynamics of thyroid-stimulating hormone level was determined. In patients with overt hypothyroidism, the supplementation of Thyreos to L-thyroxine significantly reduced thyroid-stimulating hormone content and increased free thyroxine level without changing the dose of hormone replacement therapy. All examined individuals tolerated the drug well, without any adverse reactions. Conclusions. In the presence of subclinical and overt hypothyroidism on the background of autoimmune thyroiditis, the use of a combined natural remedy Thyreos is quite justified. The drug showed a clinically significant positive effect, which manifested itself in the improvement of well-being and hormonal status parameters of patients, both as monotherapy in subclinical hypothyroidism and in combination with L-thyroxine — in overt one. Preliminary results of Thyreos effect on the suppression of the autoimmune process in the thyroid gland need further clarification with the involvement
© 2020. The Authors. This is an open access article under the terms of the Creative Commons Attribution 4.0 International License, CC BY, which allows others to freely distribute the published article, with the obligatory reference to the authors of original works and original publication in this journal.
Для кореспонденци: Барабаш Над1я £вгешвна, кандидат медичних наук, доцент кафедри внутршньоТ' медицини, медичний факультет, Харшський нацюнальний ушверситет iMeHi В.Н. Каразша, пров. Балак1рева, 5, м. Харш, 61103, УкраТна, e-mail: [email protected], тел. +38 (066) 187 46 23.
For correspondence: Nadiya Barabash, PhD, Associate Professor of the Department of Internal Medicine, Medical Faculty, V.N. Karazin Kharkiv National University, Ba^k™ lane, 5, Kharkiv, 61103, Ukraine, e-mail: [email protected], phone +38 (066) 187 46 23. Full list of author information is available at the end of the article.
i El
OpuriHOAbHi AOCAÍA^eHHA /Original Researches/
of more patients and extension of treatment. Keywords: thyroid gland; autoimmune thyroiditis; hypothyroidism; treatment; Thyreos
Introduction
Autoimmune thyroiditis (AIT) is currently one of the most common endocrine diseases in Ukraine and around the world. As a result of autoimmune aggression against thyroid tissue it is developed diffuse compaction of the organ, its lymphocytic infiltration due to the high titers of antithyroid antibodies. This leads to the destruction of thyroid follicular cells and, as a result of the death of structural and functional units, hypothyroidism. The potential development of hypo-thyroidism on the background of autoimmune aggression determines the importance of early detection of AIT and carrying out some measures to prevent thyroid dysfunction.
AIT is a polyetiological disease. Both genetic and environmental factors play a role in its development. AIT without dysfunction of the gland has no clinical significance. Only at the stage when its chronic course leads to abnormalities in the thyroid gland function and the development of hypothyroidism, patients need careful medical attention in order to timely prescribe adequate therapy to minimize the pathological impact of thyroid deficiency on the functioning of almost all organs and systems. AIT is the most common cause of thyroid hypofunction, occurring in approximately 5 % of the adult population [1] and affects, first of all, the central nervous and cardiovascular systems, musculoskeletal system, gastrointestinal tract, reproductive axis, and in childhood — disrupts psycho-somatic development.
The main difficulties in the diagnosis of hypothyroid goiter are the nonspecificity of symptoms and their high prevalence in other somatic and mental diseases. It is necessary to pay attention to the presence of the so-called syndrome of non-endocrine pathology. For example, a decrease in total triiodothyronine (T3) may occur in coronary heart disease and angina; decrease in total thyroxine (T4) occurs in resuscitation patients and patients who are constantly receiving glucocorticoid therapy; increased T4 may be accompanied by cirrhosis of the liver, viral hepatitis and mental disorders. Meanwhile, simultaneous laboratory determination of free T4 (T4b), free T3 (T3b) and thyroid-stimulating hormone (TSH) allows for differential diagnosis of non-endocrine pathology and thyroid dysfunction.
Subclinical hypothyroidism is a condition that can be diagnosed only in the laboratory — with an increase in TSH levels from 4.0 to 10 mIU/l in combination with normal levels of thyroid hormones and the absence of any clinical manifestations of hypothyroidism. Such patients may have some complaints, but they are not specific to hypothyroi-dism and do not allow a preliminary diagnosis based solely on the clinical picture.
Management of patients with overt hypothyroidism is quite unambiguous and includes the use of levothyroxine drugs as a replacement therapy. At the same time, the feature of the treatment of subclinical hypothyroidism is the individual approach to the appointment of replacement therapy. The latter is used in case of an increase TSH level in the dynamics of observation on the background of high titers of antithyroid antibodies. It should also be noted that hor-
mone replacement therapy of subclinical hypothyroidism in elderly patients (61—80 years) may be dangerous due to the development of side effects at the presence of comorbid pathology. The heartbeat, tachycardia, arrhythmia, angina are among these effects. In addition, according to the drug instruction, L-thyroxine is contraindicated in patients with acute myocardial infarction, although the presence of concomitant hypothyroidism complicates the course of vascular catastrophes and adversely affects the effectiveness of emergency therapy.
According to the European Thyroid Association (ETA), the treatment of patients with subclinical hypothyroidism still remains a debatable issue [2]. On the one hand, hypothyroidism requires hormone replacement therapy. There is even a clinical case of hypothyroid coma developed in a patient with subclinical hypothyroidism [3]. On the other hand, there are multiple evidences that the management of subclinical hypothyroidism differs from the overt one, and the need for L-thyroxine at a TSH level of less than 10 mlU/ml is at the discretion of the endocrinologist. Thus, A. Grossman and co-authors, based on the observation of nearly 2,000 patients with subclinical hypothyroidism, claim that L-thyroxine treatment is associated with a significantly increased risk of death in patients over 65 years of age [4]. Supporting this view, G.E. Bekkering and co-authors after careful analysis of the advantages and disadvantages of hormone replacement therapy prescribing for subclinical hypothyroidism during 1.5 years of follow-up, concluded that such patients are not indicated for L-thyroxine [5].
All the above reasones the search for alternative drugs that could be used in situations where it is impossible to prescribe L-thyroxine therapy as well as in cases of subclinical hypothyroidism, when there are no absolute indications for hormone replacement therapy. Simultaneously there is a question of prevention of deterioration and the transition of subclinical hypothyroidism to overt one.
During the existence of humankind medicinal plants, the components of which have a positive effect on the functioning of many organs and systems were invented and are still used. They are distinguished from synthetic drugs by the almost complete absence of side effects and contraindications for use. Some herbs and spices that people eat also have good health benefits.
In recent years, physicians have become much more interested in medicinal plants, especially those used in traditional Indian medical systems, including Ayurveda, Yoga, Naturopathy, Yunani, Siddha, Homeopathy, Sowa Rigpa, in relation to their centuries-old history and worldwide recognition [6]. It is believed that drugs derived from plants are much safer and show great effectiveness in the treatment of various diseases. Folk medicinal traditions play a significant role in the interaction of man and the environment.
The prevalence of thyroid dysfunction is growing worldwide at an alarming rate. In India for many centuries in the treatment of goiter people are widely used herbal medicines [7]. Among them, a worthy place was occupied by Thyreos — a combination of plant and natural components [8].
The main component of Thyreos is Bacopa Monneri (250 mg in one capsule), which contains alkaloids, flavo-noids, bacosides, saponins, apigenin, quercetin, sterols. In
OpMNHOAbHi AOCAiA^eHHfl /Original Researches/
an experiment on mice, it was shown that bacopa at a dose of 200 mg/kg for 15 days led to an increase in T4 concentration by 41 % [9], i.e. stimulated the secretory activity of the thyroid gland. The concentration of T3 in the serum did not change significantly. In addition to stimulating the secretion of thyroid hormones, Bacopa Monneri has an antioxidant activity [10].
The second dose component of the drug Thyreos is Guggul (Commiphora mukul) (200 mg in one capsule). Experimental studies in mice [9] also proved the stimulating effect of guggulsterone — the active ingredient of the resin produced by the plant stem — on thyroid function. In addition, this component has a local anti-edematous effect, antioxidant, hypolipidemic activity and enhances the transformation of T4 to T3 in the liver, thereby increasing the concentration of active hormones in the serum and, through the feedback mechanism, reducing TSH levels [11]. That is, it helps to compensate for hypothyroidism. It should be noted that the components of the drug, in addition to self properties, potentiate the effect of each other.
Potentilla alba (also known as foxglove, five-leaf clover) is a unique plant used to treat of various diseases. One capsule of Thyreos contains 50 mg of potentilla, which contains elementary iodine, iodic acid anion, micro- and macroelements (Mn, Cu, Zn, Se, Co, Fe, Si, etc.). It is unique that this plunt can be used to compensate of metabolism in hypo- and hyperthyroidism both. This is possible due to the biologically active compound of albinin, which is located in the underground part of the plant and exhibits thyroid-stimulating activity [12].
The effect of Coleus (Coleus forskohlii), 30 mg in a capsule of Thyreos, is mediated by its derivative forskolin, which is able to activate directly (bypassing the receptors) adenylate cyclase and increase the level of cyclic adenosine monophosphate (cAMP) in the cell. cAMP is an important secondary mediator in the intracellular signaling cascades, which provide the action of many hormones and neurotransmitters, as well as is necessary for intercellular interaction in the hypo-thalamic — pituitary — thyroid axis to provide negative feedback. Thus, forskolin from coleus improves thyroid function by mimicking the action of TSH by increasing cAMP levels.
It is well known that the essential amino acids tyro-sine and iodine are necessary for the synthesis of thyroid hormones. One capsule of Thyreos contains 70 mg of the L-form of tyrosine — L-tyrosine — and a source of iodine — Laminaria sugary (20 mg). These two components of Thyreos are directly involved to the synthesis of thyroxine and triiodothyronine.
Piper (Piper longum) and marich (Piper nigrum), 10 mg in each capsule of Thyreos, have their effect due to the alkaloid piperine. Owing to the inhibition of detoxification enzymes that break down drugs (eg, CYP3A4), and increased intestinal absorption of drugs piperine increases the bioavailability of other components of Thyreos. In addition, piperine itself has a hypolipidemic effect, especially important in patients with hypothyroidism with concomitant diseases of the cardiovascular system.
Selenium plays a special role in the thyroid gland activity. It influences on the synthesis of thyroid hormones indirectly through selenoproteins [13—17]. Selenium-containing deio-
dinases, which convert the inactive form of thyroid hormones (T4) to the active one (T3) by removing one iodine atom from the outer ring, mainly affect thyroid status [18]. But this does not limit the role of selenium in the thyroid gland. Thus, the selenoprotein glutathione peroxidase protects the thyroid gland from oxidative stress [19]. 50 mcg of selenium is included in the Thyreos capsule considering these effects.
Thus, medicinal plants, amino acids and minerals contained in the drug Thyreos, take part in the improving of the thyroid gland functioning due to the content of direct precursors of hormone synthesis and various components that synergistically have their effects.
So, the question of the treatment of patients with subclinical hypothyroidism on the background of AIT remains open, because there is no unequivocal position in the consensus on this issue. In addition, in the replacement hormonal treatment of overt hypothyroidism, when the TSH level is close to the upper limit of the reference values, the doctor is faced with the problem of increasing the dose of L-thyroxine, which under these conditions can lead to overdose and the development of symptoms. In this aspect, the use of Thyreos seems promising considering its potential effectiveness in the treatment of hypothyroidism.
In respect that there is the lack of a single point of view on the treatment of AIT and subclinical hypothyroidism, it is reasonable to conduct a study to evaluate the effectiveness of the combined natural remedy Thyreos in terms of its composition.
Accordingly, the purpose of this study was to determine the effectiveness of the drug Thyreos in the treatment of AIT without dysfunction, at the stage of subclinical hypothyroidism as a single therapy and in the treatment of overt hypothyroidism in combination with L-thyroxine.
Material and methods
49 patients with AIT were under observation, mean age 48.26 ± 13.52 years. AIT was diagnosed on the background of the presence of elevated titers of thyroid peroxidase antibodies (AbTPO) and diffuse changes during ultrasound examination (US). All patients were divided into 3 groups. Group 1 included 20 patients with AIT without dysfunction, group 2 included 16 patients with newly diagnosed subclinical hypothyroidism, group 3 included 13 patients who had previously received L-thyroxine therapy for overt hypothyroidism. All patients were prescribed Thyreos 1 capsule twice a day for a period of 3 months as a single therapy (patients of 1st and 2nd groups) or in addition to existing hormone replacement therapy (persons of 3rd group). The clinical characteristics of patients are shown in table 1.
Examination of patients included assessment of complaints (primarily, weakness, fatigue, dry skin, hair loss and brittleness, weight gain), medical history (duration of AIT and hypothyroidism, previous therapy), objective examination data (including the dynamics of weight and body mass index, the condition of the skin and the presence of edema). Laboratory and instrumental examination included the usual set of tests available to the doctor in every outpatient department: TSH, T4 free, T3 free, AbTPO, thyroid US. All examinations were performed at the first visit and re-evaluated 3 months after completion of therapy.
In the statistical analysis of the data, the verification
OpurrnoAbHi AOCAigweHHfl /Original Researches/
of the distribution of quantitative characteristics for compliance with Gauss's law was performed by calculating the indicators of asymmetry and excess. Database formation are performed in Excel. The established data of clinical and hormonal-immunological researches are analyzed by methods of parametric and nonparametric statistics. An in-depth determination of statistically significant differences between groups was performed using the Wilcoxon criterion (W). To assess the association between the trait and the compared groups, the criterion x2 was used, taking into account the number of degrees of freedom (df). The results obtained are presented in the tables as n; M ± m; Me [Min-Max], where n is the number of observations, M is the arithmetic mean, m is the mean deviation, Me is the median, Min is the minimum value of the indicator in the sample, Max is the maximum value of the indicator in the sample.
Results
The effectiveness of Thyreos therapy was evaluated separately for each group, taking into account the data obtained before treatment and after 3 months of treatment.
At the first stage, the analysis of complaints was conducted.
Although complaints of weakness, fatigue, dry skin, dryness and hair loss are more prevalent in patients with uncom-pensated hypothyroidism, they were quite common in all examined patients. After 3 months of therapy, weakness and rapid fatigue were observed in a significantly smaller number of patients in all three groups: in the 1st group — p = 0.0000 (df = 1; x2 = 11.396), in the 2nd group — p = 0.013 (df = 1; X2 = 6.125), in the 3rd group — p = 0.044 (df = 1; x2 = 4.062). After 3 months of therapy with Thyreos also there was probably less patients with complaint of dryness and hair loss in first two groups: p = 0.034 (df = 1; x2 = 4.514) in patients
from 1st group and p = 0.031 (df = 1 ; x2 = 4.664) in persons who were involved in the 2nd group. At the same time, in patients with AIT with overt hypothyroidism who received therapy with Thyreos on the background of previously prescribed hormone replacement therapy with L-thyroxine, there was only a tendency to reduce the prevalence of hair problems: p < 0.1 (df = 1; x2 = 2.462). As a result of treatment, dry skin was significantly reduced in patients of only the 1st study group (df = 1; x2 = 5.104; p = 0.024). Thus, the probable positive dynamics of complaints is demonstrated in the 1st group (without thyroid dysfunction).
In the second stage, the indicators of hormonal status were analyzed (data are presented in table 2).
Discussion
In patients of the 1st group, hormonal parameters did not change significantly, which is due to their initially normal levels in this cohort of patients and the lack of effect of the study drug on unchanged thyroid function.
In patients with newly diagnosed subclinical hypothy-roidism, significant dynamics of TSH was determined, which was the expected result of the use of Thyreos. It should be noted that before the treatment of TSH > 4.0 mIU/l was determined in all patients of the 2nd group, while after taking thyroid — in 7 patients (43.75 %).
In patients with overt hypothyroidism, the addition of Thyreos to L-thyroxine significantly reduced TSH levels and increased T4-free levels without hormone replacement therapy, which is probably due to the direct stimulatory effect of the drug components on thyroid function.
A measure of the activity of the autoimmune process in the thyroid gland is the titer of AbTPO, the initial level of which was increased in all examined patients. In the dynamics of observation, a decrease in this indicator was found
Table 1. Clinical characteristics of patients with AIT
Group Average age, years Sex Duration of AIT, years
Group 1 (n = 20) 49.80 ± 3.17 F — 18 M — 2 1.43 ± 0.49
Group 2 (n = 16) 49.12 ± 2.89 F — 15 M — 1 1.45 ± 0.72
Group 3 (n = 13) 44.31 ± 4.23 F — 11 M — 2 6.01 ± 1.79
Тable 2. Dynamics of hormonal parameters in patients with AIT
Group TSH, mIU/l T4 free, pmol/l
Initial level After treatment Initial level After treatment
Group 1 (n = 20) 1.57 [0.04-3.7] 1.18 [0.4-2.8] 13.19 [1.01-17.07] 15.22 [2.12-23.01]
P > 0.05 P > 0.05
Group 2 (n = 16) 6.20 [4.20-9.36] 3.90 [0.70-6.90] 11.90 [0.87-22.23] 11.15 [1.01-28.10]
P = 0.003 P > 0.05
Group 3 (n = 13) 3.58 [1.35-8.13] 1.90 [0.80-15.00] 10.90 [2.00-15.49] 15.50 [1.36-19.60]
P = 0.033 P = 0.015
OpMNHOAbHi AOCAÎA^eHHA /Original Researches/
iEI
in 85 % of patients, but the degree of positive effect of Thy-reos on autoimmune aggression against normal thyroid cells requires further study involving a larger number of patients and extending the observation period.
It is difficult to judge the dynamics of structural changes in the thyroid gland according to US due to the inability to significantly improve the condition of the body for 3 months of taking the drug. Theoretical analysis of the complex effect of the components of Thyreos on most links of the patho-genesis of AIT suggests the possibility of its positive effect not only on function but also directly on the thyroid tissue.
All examined patients tolerated the drug well. No side effects or symptoms of overdose were observed during 3 months of use of Thyreos.
Conclusions
1. In the presence of subclinical and overt hypothyroi-dism on the background of AIT the use of a combined natural remedy with a complex mechanism of action, which has the effect of stimulating thyroid function — Thyreos is quite justified.
2. SHIVMED's Thyreos drug, Lactonova nutripharm company production, showed a clinically significant positive effect in AIT, manifested as improved well-being and hormonal status of patients, both in single therapy in case of subclinical hypothyroidism and in combination with L-thyroxine in overt one.
3. Preliminary results on the effect of Thyreos suppression of the autoimmune process in the thyroid gland need further refinement with the involvement of more patients and extension of treatment for more than 3 months.
4. On the background of three months use of Thyreos, no side effects were identified.
Conflicts of interests. Not declared.
References
1. Chiovato L, Magri F, Carle A. Hypothyroidism in Context: Where We've Been and Where We 're Going. Adv Ther. 2019;36(Suppl 2):47-58. doi:10.1007/s12325-019-01080-8.
2. Wiersinga WM. Guidance in Subclinical Hyperthyroidism and Subclinical Hypothyroidism: Are We Making Progress? Eur Thyroid J. 2015;4(3):143-148. doi:10.1159/000438909.
3. Mallipedhi A, Vali H, Okosieme O. Myxedema coma in a patient with subclinical hypothyroidism. Thyroid. 2011;21(1):87-89. doi:10.1089/thy. 2010.0175.
4. Grossman A, Feldhamer I, Meyerovitch J. Treatment with levothyroxin in subclinical hypothyroidism is associated with increased mortality in the elderly. Eur J Intern Med. 2018;50:65-68. doi:10.1016/j.ejim.2017.11.010.
5. Bekkering GE, Agoritsas T, Lytvyn L, et al. Thyroid hormones treatment for subclinical hypothyroidism: a clinical practice guideline. BMJ. 2019;365:l2006. doi:10.1136/bmj.l2006.
6. Kottaimuthu R. Ethnobotany of the Valaiyans of Karan-damalai, Dindigul District, Tamil Nadu, India. Ethnobotanical Leaflets. 2008;12:195-203.
7. Bharthi V, Kavya N, Shubhashree MN, Bhat S. Herbal approach to management of thyroid disease - a review. Journal of Ayurvedic and Herbal Medicine. 2017;3(1):51-55.
8. Kumar P. Treatment of Hashimoto's thyroiditis with herbal medication. International Journal of Green Pharmacy. 2017;11(3):343-347. doi:10.22377/ijgp.v11i03.1140.
9. Kar A, Panda S, Bharti S. Relative efficacy of three medicinal plant extracts in the alteration of thyroid hormone concentrations in male mice. Journal of Ethnopharmacology. 2002;81(2):281-285. doi:10.1016/s0378-8741(02)00048-x.
10. Tripathi S, Pathak AK, Choudhary M, Joshi DK, Mahdi AA. Bacopa monneira (brahmi) modulate altered thyroid hormones in Aluminum induced alzheimer's like rat model. Int Res JPharm App Sci. 2013;3(2):51-53.
11. Stansbury J, Saunders P, Winton D. Promoting health thyroid function with iodine, bladderwrack, guggul and Iris. J Restorative Med. 2012;1:83-90.
12. Kaminski A V, Kiseleva IA, Teplaia EV. Clinical application of white cinquefoil for prevention and treatment of thyroid gland pathologies. Likars'ka sprava. 2013;(8):99-108. (in Russian).
13. Ventura M, Melo M, Carrilho F. Selenium and Thyroid Disease: From Pathophysiology to Treatment. Int J Endocrinol. 2017;2017:1297658. doi:10.1155/2017/1297658.
14. Drutel A, Archambeaud F, Caron P. Selenium and the thyroid gland: more good news for clinicians. Clin Endocrinol (Oxf). 2013;78(2):155-164. doi:10.1111/cen.12066.
15. Goncharova OA. Selenium and thyroid gland (literature review and data of own investigations). Endokrynologia. 2014;19(2):149-155. (in Russian).
16. Guastamacchia E, Giagulli VA, Licchelli B, Triggiani V. Selenium and Iodine in Autoimmune Thyroiditis. Endocr Metab Immune Disord Drug Targets. 2015;15(4):288-292. doi:10.217 4/1871530315666150619094242.
17. Duntas LH. The Role of Iodine and Selenium in Autoimmune Thyroiditis. Horm Metab Res. 2015;47(10):721-726. doi:10.1055/s-0035-1559631.
18. Goncharova OA, Illina IM. Selenium deficiency and age-related diseases (in the focus of deiodinase). Miznarodnij endokrinologicnij zurnal. 2015;4(68):87-92. doi:10.22141/2224-0721.4.68.2015.75020. (in Russian).
19. Shestakova TP. The use of selenium in medical practice. RMJ. 2017;25(22):1654-1659. (in Russian).
Received 05.08.2020 Revised 20.08.2020 Accepted 25.08.2020 ■
Information about authors
N.Ye. Barabash, MD, PhD, Associate professor at the Department of internal medicine, School of Medicine, V.N. Karazin Kharkiv National University, Kharkiv, Ukraine, e-mail: [email protected]. ORCID: https://orcid.org/0000-0001-9807-2683
Y.V. Simonova, MD, Assistant at the Department of internal medicine, School of Medicine, V.N. Karazin Kharkiv National University, Kharkiv, Ukraine, e-mail: [email protected]. ORCID: https:// orcid.org/0000-0001-9637-6050
T.M. Tykhonova, MD, PhD, Senior researcher, Head of the Department of Internal Medicine, School of Medicine, V.N. Karazin Kharkiv National University, Kharkiv, Ukraine, e-mail: [email protected]. ORCID: https://orcid.org/0000-0001-9196-9113
O.M. Nechvohlod, MD, endocrinologist, Private Enterprise "Consultative Polyclinic', Kharkiv, Ukraine, e-mail: [email protected]
O.V. Shvets, MD, endocrinologist, Municipal Non-profit Enterprise "City Hospital 8" of Zaporizhzhia City Council, Zaporizhzhia, Ukraine, e-mail: [email protected]
■El
Орипнальш дослiдження /Original Researches/
Барабаш Н.£.1, Смонова £.В.1, Тихонова Т.М.1, Нечвоглод О.М.2, Швець О.В.3 1Харювський нацональний утверситетiMeHi В.Н. Каразна, м. Харюв, Украна 2Приватне пдприемство «Консультативна полШнка», м. Харюв, Украна
3Комунальне некомерцйне пдприемство «Мюька лкарня № 8» Запорiзькоïмiськоï ради, м. Запорiжжя, Украна
ОбГрунтування застосування натуральних 3aco6iB у лкуванн aBToiMyHHoro тирео'|'диту з рiзним ступенем ппотиреозу
Резюме. Актуальшсть. Автоiмунний тиреощит (А1Т) — най-частша причина ппофункцН шитоподiбноï залози. Якщо тактика лшування манiфестного ппотиреозу шляхом призначен-ня замiсноï гормонально'! терапи е доволi однозначною, то пи-тання щодо лiкування пацiентiв iз субклшчним ппотиреозом залишаеться вщкритим. Мета: визначення ефективностi застосування комбшованого натурального препарату Треос при лiкуваннi А1Т без порушення функци на стадН субклiнiчного гiпотиреозу як монотерапiï i в комплекснш терапiï машфест-ного ппотиреозу — в комбшаци з левотироксином. Mamepirnu та методи. Обстежено 49 хворих на А1Т вшом 48,26 ± 13,52 року, розподшених на три групи. До першо! групи залучено 20 хворих на АГГ без порушення функцН, до друго! групи включено 16 хворих з уперше виявленим субклшчним гiпотиреозом, до третьо! групи — 13 хворих, яю попередньо отримували те-рапiю L-тироксином з приводу машфестного ппотиреозу. Усiм пацiентам було призначено Тiреос по 1 капсулi двiчi на добу на перюд 3 мiсяцi як монотерапiю (хворим першо'1 i друго! груп) або на додачу до замюно! гормонально'! терапи (хворi третьо! групи). Результати. При оцшщ скарг виявлено, що через 3 мь сяцi прийому препарату слабк1сть i швидку втомлюватсть в1д-значали вiроriдно менше хворих в уск трьох групах (р < 0,05). Також вiрогiдно рщше пiсля тримiсячноï терапiï Тiреосом ви-
являлася скарга на сухiсть i випадшня волосся у хворих перших двох груп (р < 0,05). У результат лiкування сухость шири вь рог1дно зменшилась у хворих лише першо! обстежувано! групи (р = 0,024). У хворих з уперше виявленим субклшчним гшо-тиреозом визначено вiрогiдну динамжу ргвня тиреотропного гормону (ТТГ). У хворих на манфестний ппотиреоз додавання Тiреосу до Ь-тироксину дозволило вiрогiдно зменшити рiвень ТТГ i п1двищити показник вшьного тироксину без змши дози замюно! гормонально! терапи. Усi обстежуванi хворi добре переносили прийом препарату за вщсутносй будь-яких побiчних реакцш. Висновки. За наявносп субклiнiчного й матфестного ппотиреозу на тлi автоiмунного тиреощиту цiлком виправда-ним е використання комбшованого натурального засобу Тре-ос. Препарат показав клiнiчно значущий позитивний ефект, що проявлявся в покращенш самопочуття й показникiв гормонального статусу хворих як у монотерапй при субклшчному гiпотиреозi, так i в комбшаци з Ь-тироксином — при манфест-ному. Попередш результати щодо здатностi Тiреосу пригнчу-вати автоiмунний процес у щитоподiбнiй залозi потребують подальшого уточнення iз залученням бшьшо! кiлькостi хворих i подовженням курсу лжування.
Ключовi слова: щитоподiбна завоза; авто1мунний тиреощит; ппотиреоз; лiкування; Тiреос
Барабаш Н.Е.1, Симонова Е.В.1, Тихонова Т.М.1, Нечвоглод О.Н.2, Швец Е.В.3
1 Харьковский национальный университет имени В.Н. Каразина, г. Харьков, Украина
2 Частное предприятие «Консультативная поликлиника», г. Харьков, Украина
3 Коммунальное некоммерческое предприятие «Городская больница № 8» Запорожского городского совета, г. Запорожье, Украина
Обоснование использования натуральных средств в лечении аутоиммунного тиреоидита с разной степенью гипотиреоза
Резюме. Актуальность. Аутоиммунный тиреоидит является наиболее частой причиной гипофункции щитовидной железы. Если тактика лечения манифестного гипотиреоза путем назначения заместительной гормональной терапии довольно однозначна, то вопрос по лечению пациентов с субклиническим гипотиреозом остается открытым. Целью данного исследования было определить эффективность использования комбинированного натурального препарата Тиреос при лечении аутоиммунного тиреоидита без нарушения функции на стадии субклинического гипотиреоза в качестве монотерапии и в комплексной терапии манифестного гипотиреоза — в комбинации с Ь-тироксином. Материалы и методы. Обследовано 49 больных аутоиммунным тиреоидитом в возрасте 48,26 ± 13,52 года, разделенных на три группы. В первую группу включены 20 больных аутоиммунным тиреоидитом без нарушения функции, во вторую группу — 16 больных с впервые выявленным субклиническим гипотиреозом, в третью группу — 13 больных, предварительно получавших терапию Ь-тироксином по поводу манифестного гипотиреоза. Всем пациентам был назначен Тиреос по 1 капсуле два раза в сутки на период 3 месяца в качестве монотерапии (больным первой и второй групп) или в дополнение к заместительной гормональной терапии (больным третьей группы). Результаты. При оценке жалоб выявлено, что через 3 месяца приема препарата слабость и быструю утомляемость отмечали достоверно меньше больных во всех трех группах (р < 0,05). Также достоверно реже после трехмесячной
терапии Тиреосом регистрировалась жалоба на сухость и выпадение волос у больных первых двух групп (р < 0,05). В результате лечения сухость кожи доказанно уменьшилась у больных только первой обследуемой группы (р = 0,024). У больных с впервые выявленным субклиническим гипотиреозом определена достоверная позитивная динамика ТТГ. У лиц с манифестным гипотиреозом добавление Тиреоса к терапии Ь-тироксином позволило существенно снизить уровень тире-отропного гормона (ТТГ) и повысить показатель свободного тироксина без изменения дозы заместительной гормональной терапии. Все обследуемые больные хорошо переносили прием препарата, какие-либо побочные реакции отсутствовали. Выводы. При наличии субклинического и манифестного гипотиреоза на фоне аутоиммунного тиреоидита полностью оправданным является использование комбинированного натурального препарата Тиреос. Он показал клинически значимый положительный эффект, который проявлялся в улучшении самочувствия и показателей гормонального статуса больных как в монотерапии при субклиническом гипотиреозе, так и в комбинации с Ь-тироксином — при манифестном. Предварительные результаты по эффективности Тиреоса в подавлении аутоиммунного процесса в щитовидной железе требуют дальнейшего уточнения с привлечением большего числа больных и удлинением курса лечения.
Ключевые слова: щитовидная железа; аутоиммунный ти-реоидит; гипотиреоз; терапия; Тиреос