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Query: UMLS:C0039730 (
thalassemia
)
10,305
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Despite improved hematologic care, multiendocrine dysfunction is a common complication of homozygous transfusion-dependent beta-
thalassemia
. In this study our goal was to estimate the prevalence of thyroid dysfunction in a large homogenous group of thalassemic patients. Two hundred patients with beta-thalassemia major (100 males and 100 females; mean age, 23.2 +/- 6.7 years; age range 11-43 years), regularly transfused and desferioxamine chelated, were randomly selected from a pool of approximately 800 patients with beta-
thalassemia
followed in our department. Thyroid function and iron-load status were evaluated by measurements of free thyroxine (FT4), free triiodothyronine (FT3), thyrotropin (TSH), and serum ferritin levels. Of the subgroup of patients who proved to have normal thyroid hormone values, 26 (12 males, 14 females; mean age, 23.6 +/- 6.8 years; age range, 15-36 years) were randomly selected and underwent a standard
TRH
stimulation test. Thyroid dysfunction was defined as follows: overt hypothyroidism: low FT4 and/or FT3, increased TSH levels; subclinical hypothyroidism: normal FT4, FT3, increased TSH levels; exaggerated TSH response: normal FT4, FT3, normal basal TSH, deltaTSH > or = 21 microIU/mL (TSH levels measured prior and 30 minutes after intravenous
TRH
administration). Normal thyroid hormone values were found in 167 (83.5%) of the 200 patients studied. Eight (4%) of the remaining patients had overt hypothyroidisim, and 25 (12.5%) had subclinical hypothyroidism. Exaggerated TSH response to
TRH
was revealed in 7 of the 26 patients with normal hormone values tested (26.9%). Antithyroglobulin and anti-thyroid peroxidase (TPO) antibody titers were negative in 191 patients (95.5%). Mean ferritin levels in hypothyroid and euthyroid patients were 2707.66 +/- 1990.5 mg/L and 2902.9 +/- 1997.3 mg/L, respectively, (p = 0.61), indicating no correlation between ferritin levels and thyroid functional status. Mean ferritin levels in the patients who responded normally to
TRH
stimulation and in those who overresponded, were 2,586 +/- 1791 mg/L and 3,228 +/- 2473 mg/L, respectively (p = 0.46; NS). Thyroid failure is a rather rare endocrine complication in patients with beta-thalassemic from Greece. In our series, no case of central hypothyroidism was observed. No correlation was found between thyroid functional status and ferritin plasma levels. Approximately 1 of 5 beta-thalassemic patients with normal thyroid hormone values showed an exaggerated TSH response to
TRH
test. It is to be investigated how many of these patients will establish overt or subclinical hypothyroidism in the future.
...
PMID:Assessment of thyroid function in two hundred patients with beta-thalassemia major. 1191 84
From 1990 to 1991, the Pediatric and Adolescent Endocrine Outpatient Clinic of Arcispedale S. Anna admitted 97
thalassaemia
major (TM) patients for endocrine evaluation. Their mean age was 14.2+/-5.7 years (range 5-28 years). Sixty-eight (70%) had normal thyroid function and twenty-one (21.6%) were discharged with a diagnosis of hypothyroidism of different degrees of severity. Thirteen patients out of 21 (61.9%) were females. Twelve patients (57.1%) fulfilled the criteria for subclinical hypothyroidism (SH). Their mean age was 15.7+/-3.5 years (range 9-22 years). A positive direct correlation was observed between the following variables: TSH and serum ferritin, TG and basal TSH, basal TSH and peak levels after
TRH
stimulation test. In 6 out of 12 TM patients (50%) with SH type a, the basal ejection fraction assessed by MUGA scan was normal; 1 TM patient (8.3%) showed mild abnormality and 5 TM patients (41.6%) showed severe abnormalities. A normal response during exercise (increase in LVEF greater than 5 percentage units) occurred in 10 patients (83.3%). Global or segmental left ventricular dysfunction at rest and during exercise were found in 8 patients (66.6%) and 10 patients (83.3%), respectively. These cardiac abnormalities were more common in TM patients with severe iron overload and poor compliance to DFX treatment (group A: serum ferritin above 2500 ng/ml) compared to TM patients with mild-moderate iron overload (group B: serum ferritin below 2500 ng/ml). In the control group of TM patients (group C) with normal thyroid function the assessment of MUGA scan was normal in all subjects at rest and after exercise. Global or segmental left ventricular dysfunction was observed only during exercise in 50% of TM patients with normal thyroid function (group C). Our patients with SH exhibited three different thyroid function patterns during follow-up: a. 3 (25%) of 12 studied TM patients showed a normalization of serum TSH levels b. 2 patients (16.6%) showed intermittent elevation of serum TSH with normal serum FT4 concentrations c. 3 patients (25%) had a persistent mild elevation of serum TSH concentration (from 6.3 to 7.6 microU/ml) with serum FT4 concentrations within the normal range. Two TM patients (16.6%) were treated with L-thyroxine. The reason for starting therapy was an abnormality of basal LVEF in the presence of mild iron overload (serum ferritin levels 665 ng/ml and 523 ng/ml). One TM patient with persistent SH type a developed a papillary carcinoma, and another, a multinodular goiter. The serum ferritin levels at diagnosis were 4739 ng/ml and 744 ng/ml,respectively. The thyroid function in TM patients from group C remained normal during the follow-up period. Two patients (Group A: patients no. 1 and 2) with severe iron overload and poor compliance to chelation therapy died during the follow-up, due to heart failure and arrhythmia. The time intervals between the first abnormal LVEF value and the development of symptomatic heart failure were 3.8 and 4.3 years. An improvement of LVEF was observed in three TM patients from group A after 24 months of intensive subcutaneous chelation therapy with DFX, and in two patients from Group B after 12-14 months of L-thyroxine replacement therapy in association with regular iron chelation therapy. In those two TM patients the basal LVEF increased from 37% to 45% and from 45% to 49%. In conclusion, although the findings are limited to a small group of TM patients with SH type a, our results show a high prevalence of primary hypothyroidism with the predominance of its mildest form, its stable course over years in most patients, and the presence of cardiac involvement in patients with severe-moderate iron overload. Regular iron chelation therapy should be advised for these patients to prevent thyroid dysfunction and the development of clinically significant myocardial dysfunction. In addition, therapy with L-thyroxine should be considered in iron overloaded TM patients with SH and a poor response to chelation therapy and in patients with SH and mild iron overload.
...
PMID:Mild subclinical hypothyroidism in thalassaemia major: prevalence, multigated radionuclide test, clinical and laboratory long-term follow-up study. 1933 74
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