Thyroid hormones in children on antiepileptic therapy

The aim of this study was to evaluate the thyroid function alterations in a group of epileptic children taking antiepileptic drugs (AEDs). Patients demographic data and the free throxine (fT4) and thyroid-stimulating hormone (TSH) levels at the beginning of the treatment and at the third, sixth and ninth months of AED treatment were recorded retrospectively. A total of 106 children, 59 males and 47 females, were enrolled in the study. Mean patient age was 3.7 years, ranging between 3 months and 14 years. In total, 54% of patients were on valproic acid (VPA), 16% phenobarbital (PB), 14% were on carbamazepine (CBZ), 6% were on oxcarbazepine (OXC), 5% were on levetiracetam, and 5% were on topiramate therapy. There were no significant differences in average fT4 values between the drug groups. But the mean fT4 levels of the patients on VPA therapy showed a clear decrease within the observation period. No significant difference in average TSH values between the groups was detected in the beginning and in the third and sixth month. However, in the ninth month, a significant increase in TSH values was found in the VPA group (p = 0.007). In the patients taking VPA, average TSH values rose progressively while staying within normal limits. During follow-up, thyroid dysfunction were found in 21 patients (19.6%). A statistically significant relationship was found between severe electroencephalography (EEG) findings and thyroid dysfunction (p = 0.041). It was concluded that epileptic children with severe EEG findings and using VPA could have thyroid dysfunction. These patients should be followed up closely by thyroid function tests during treatment.     

The effect of antiepileptic drugs on thyroid function in children

BackgroundLimited and conflicting data exist for the influence of antiepileptic drugs on thyroid function in children.ObjectiveThe aim of this study was to investigate the effects of phenobarbital, valproate, carbamazepine, oxcarbazepine, and levetiracetam monotherapy on thyroid function in daily clinical practice during a 12-month treatment period.MethodA total of 223 children (103 females and 120 males) with new onset and controlled epilepsy treated with valproate (n = 129), phenobarbital (n = 33), carbamazepine (n = 36), oxcarbazepine (n = 14), levetiracetam (n = 11) were enrolled in the study. Serum free thyroxine (fT4) and thyroid-stimulating hormone (TSH) levels were measured before and at first, sixth and twelfth months of therapy.ResultsAt baseline, average fT4 and TSH concentrations were not different between the drug groups. Valproate-treated patients had decreased fT4 and increased TSH levels at months 1, 6, and 12. Carbamazepine-treated patients had decreased fT4 levels at months 1, 6, and 12 and increased TSH levels at months 1, and 6. Phenobarbital-treated patients had decreased fT4 levels at months 1, and 6, and increased TSH levels at months 6 and 12. Oxcarbazepine-treated patients had decreased fT4 levels at month 1. Levetiracetam-treated patients showed no significant change of fT4 and TSH at any times. The frequency of subclinical hypothyroidism at month 12 was 28% in valproate, 21.4% in oxcarbazepine, 18.2% in phenobarbital, 13.9% in carbamazepine, and 0% in levetiracetam groups.ConclusionOur data suggest that all antiepileptic drugs studied except levetiracetam had varying degrees of deleterious effects on thyroid function.     

Thyroid function in girls with epilepsy with carbamazepine, oxcarbazepine, or valproate monotherapy and after withdrawal of medication

Summary: Purpose: Antiepileptic drugs may affect the serum thyroid hormone concentrations. The aim of this study was to evaluate thyroid function in 78 girls taking carbamazepine (CBZ), oxcarbazepine (OXC), or valproate (VPA) monotherapy for epilepsy and after withdrawal of the treatment. Methods: Forty‐one girls taking VPA, 19 taking CBZ, and 18 taking OXC for epilepsy, as well as 54 healthy age‐matched controls, aged 8 to 18 years, participated in the study. All the girls were examined clinically, and their pubertal stage was assessed. Blood samples were obtained for thyroid hormone and antibody assays. These examinations were repeated after a mean follow‐up of 5.8 years to assess thyroid function, and 64 (82%) of 78 patients and 42 (78%) of 54 controls agreed to participate in the second evaluation. Results: In the first evaluation, the mean serum thyroid hormone concentrations were lower in the girls taking CBZ [thyroxine (T₄), 70.2; SD, 10.9 nM; and free thyroxine (FT₄), 11.5; SD, 1.8 pM] or OXC (T₄, 74.9; SD, 16.4 nM; and FT₄, 11.3; SD, 1.8 pM) than in the control girls (T₄, 96.6; SD, 15.1 nM, and FT₄, 14.4; SD, 1.5 pM; p < 0.001, all comparisons). However, thyrotropin (TSH) concentrations were normal in the girls taking CBZ or OXC. Sixty‐three% of the girls taking CBZ and 67% of the girls taking OXC had serum T₄ and/or FT₄ levels below the lower limit of the reference range. The VPA‐treated girls with epilepsy had normal serum T₄ and FT₄ concentrations, but slightly increased TSH levels (3.3; SD, 1.5 mU/L; p < 0.01) compared with the control girls (2.5; SD, 1.0 mU/L). Normal serum hormone concentrations were restored in the patients who discontinued the medication. Conclusions: Both CBZ and OXC reduce serum thyroid hormone concentrations in girls with epilepsy. Conversely, VPA is associated with normal serum thyroid hormone and increased thyrotropin levels. However, our results suggest that the changes in serum thyroid hormone and thyrotropin levels are reversible after withdrawal of the medication.     

Neuroendocrinological investigations during sleep deprivation in depression. II. Longitudinal measurement of thyrotropin, TH, cortisol, prolactin, GH, and LH during sleep and sleep deprivation

Thyrotropin (TSH), thyroxin (T4), triiodothyronine (T3), free T3 (fT3), cortisol, prolactin, and human growth hormone (HGH) were measured every 2 hr during a night of sleep, the following day, and a night of sleep deprivation (SD) in 14 patients with major depressive disorder. In subgroups fT4 (n = 5), reverse T3 (rT3), and luteinizing hormone (LH) (n = 6) were also investigated. Significant increases in TSH, T4, fT4, T3, fT3, rT3, and cortisol and decreases in prolactin levels occurred during the night of SD, compared to the pattern during the night of sleep. The pre-SD T4 and T3 levels of the responders to SD were already higher than in the nonresponders, and increased less during SD. The cortisol and HGH concentrations of the responders rose higher during SD than those of the nonresponders. Changes in TSH and prolactin were not correlated to clinical response. Analysis of possible neurochemical mechanisms underlying this "pattern" of changes in different endocrine profiles suggests that enhanced noradrenergic activity might play a role in the changes in TSH, cortisol, thyroid hormones, and possibly HGH secretion during SD, and increased dopaminergic tone probably induced the decline in prolactin levels. Additional effects of the serotonergic system cannot be excluded at present. In conclusion, the data suggest that enhanced noradrenergic activity of the locus coeruleus stimulates alpha and/or beta adrenergic receptors in depressed patients during SD. This mechanism could well be involved in the antidepressant effect of this therapy.     

Changes in thyroid hormones, thyroid stimulating hormone and cortisol in acute spinal cord injury.

To determine the hormonal response to acute spinal cord injury, serial serum samples were collected from 18 patients with acute spinal cord injury and from 14 control patients with spinal fractures without cord injury. The first sample was taken within 24 hours of injury, the second at 24-48 hours; and the third at 7 days for determination of thyroxine (T4), free T4 (FT4), triiodothyronine (T3), reverse T3 (rT3), T3 uptake (T3U), thyroid stimulating hormone (TSH), thyroxine binding globulin (TBG), growth hormone (GH), cortisol, and insulin. Significant increases were observed in rT3 levels and transient changes were observed in the T4 and T3 levels in the spinal cord injured group but not in the group with spinal fractures alone. The changes in the spinal cord injured patients are consistent with the 'low T3 syndrome'. However, the persisting rise of rT3 at 7 days was an unexpected finding. In addition to the cord injury, these changes may also be related to dexamthasone administration and nutritional factors.     

Zinc affects the metabolism of thyroid hormones in children with Down's syndrome: normalization of thyroid stimulating hormone and of reversal triiodothyronine plasmic levels by dietary zinc supplementation.

Levels of circulating thyroid stimulating hormone (TSH), tetraiodothyronine (T4), 3,5,3'-triiodothyronine (T3), and 3,3',5' triiodothyronine (reversal T3 or rT3) were measured in 25 children with trisomy of chromosome 21, also known as Down's syndrome (DS), and in 14 normal children. In subjects with DS TSH levels were increased, while plasmic levels of rT3 were decreased. No alteration in T3 and T4 levels was observed. Before zinc supplementation, plasmic levels of zinc and thymulin, a zinc dependent thymic hormone, were significantly decreased in DS children. After four months of dietary supplementation with zinc sulphate, a normalization of plasmic zinc, thymulin and TSH levels was observed. Plasmic levels of rT3 significantly increased, and after zinc treatment no difference was detectable between DS children and normal children. Clinical evaluation of the health status of DS children showed that zinc supplementation decreased the incidence of infectious diseases and improved school attendance. Thus, the increased efficiency of the immune system and the normalization of some endocrine parameters by zinc supplementation suggests that zinc deficiency may play a crucial role in some of the pathological manifestations associated with the syndrome, such as infections and malfunctioning of the thyroid gland.     

Analysis of acylcarnitine levels by tandem mass spectrometry in epileptic children receiving valproate and oxcarbazepine

This prospective study was designed to investigate whether or not monotherapy with sodium valproate (VPA) or oxcarbazepine (OXC) affects plasma levels of fatty acylcarnitine esters in children with epilepsy. A total of 56 children with idiopathic partial or generalised epilepsy were included in the study. Patients were assigned to receive either VPA or OXC monotherapy. Free carnitine (C0) and acylcarnitine profiles of the patients were investigated using tandem mass spectrometry at baseline and at six and 18 months after commencement of therapy. For patients receiving VPA or OXC monotherapy, there were no significant differences in plasma levels of C0, compared with baseline, at six and 18 months (p>0.05). Treatment with VPA for six and 18 months correlated with a significant increase in 3-hydroxy-isovalerylcarnitine (C5-OH) (six months: +23%; 18 months: +73%), and significant decreases in the following acylcarnitines: C6-acylcarnitine (six months: -60%; 18 months: -66%), C14-acylcarnitine (six months: -25%; 18 months: -38%), C16-acylcarnitine (six months: -73%; 18 months: -73%), and C18:1-OH-acylcarnitine (six months: -60%; 18 months: -70%), compared with baseline (p<0.05). In patients receiving OXC monotherapy, on the other hand, plasma concentrations (μmol/L) of acylcarnitines (from C2 to C18:1-OH) fell within the normal reference range. The results of this study indicate that there are significant biochemical changes in acylcarnitines in ambulatory children on VPA monotherapy but these are not clinically significant. OXC monotherapy had no effect on acylcarnitine metabolism in ambulatory children.     

Association between thyroid hormone levels and monoaminergic neurotransmission during surgery

BACKGROUND: Human studies assessing thyroid hormone metabolism in relation to brain monoaminergic activity in vivo are scarce. The few studies that do exist suggest significant associations between thyroid function and monoaminergic activity, but the cause-and-effect relationships are far from elucidated. METHODS: We simultaneously collected cerebrospinal fluid (CSF) and serum samples from 35 patients undergoing orthopaedic surgery before, 3h after and the morning after interventions and performed analyses for thyroid hormones and monoamine metabolites. RESULTS: At baseline, the CSF 3-methoxy-4-hydroxyphenylglycol concentrations were significantly correlated to the serum T(3)/T(4) ratio (rho=0.41, p=0.017). During surgery, serum thyroid hormones and the T(3)/T(4) ratio decreased (p<0.0001), while the CSF T(3)/T(4) ratio increased (p=0.0009). There were no correlations between serum and CSF levels of T(3) and T(4) at any of the samplings. Strong correlations were noted between baseline CSF thyroid hormone concentrations and subsequent increases in CSF 5-hydroxyindoleacetic acid (5-HIAA), and homovanillinic acid (HVA), but not vice versa. CONCLUSIONS: Thyroid hormone levels in serum and CSF during stress seem to be distinctly regulated. Baseline thyroid hormone activity may facilitate changes in brain monoaminergic neurotransmission in response to stress.     

Neuroendocrinological investigations during sleep deprivation in depression. I. Early morning levels of thyrotropin, TH, cortisol, prolactin, LH, FSH, estradiol, and testosterone

Measurements of 12 hormones were conducted in patients with major depressive disorder at 8 AM on the morning before and at 8 AM on the morning after total sleep deprivation (SD). Thyrotropin (TSH), thyroxine (T4), triiodothyronine (T3), and free T3 (fT3) were measured in 50 patients, free T4 in 39 patients, reverse T3, cortisol, prolactin, luteinizing hormone, and follicle-stimulating hormone in 21, estradiol in 20 (women), and testosterone in 14 (men). After SD, there was a significant rise in TSH, T4, T3, and fT3 concentrations and a significant fall in testosterone levels. The increases in TSH levels were significantly correlated to clinical response. Responders to SD had higher T4, fT4, rT3, and testosterone concentrations before SD. Neither age, gender, polarity, nor antidepressant medication had a clearly significant effect on the response to SD.     

Effects of chronic mild stress (CMS) on thyroid hormone function in two rat strains

This work was carried out to assess the effects of chronic mild stress (CMS) on thyroid function. The CMS model produced an anhedonic effect (reduced preference to sucrose) in Sprague-Dawley and Wistar rats and this effect was reversed by imipramine (IMI) treatment. The effects of CMS on thyroid function were assessed by measuring tT4 (total Thyroxine), tT3 (total Triiodothyronine), TSH (Thyroid Stimulating Hormone) and fT4 (free Thyroxine) serum levels with appropriate immunoassays. CMS increased tT4 and tT3 serum levels in Sprague-Dawley and Wistar rats, but not TSH and fT4 serum levels. Imipramine (IMI) treatment normalized tT4 values. Albumin which binds a fraction of peripheral tT4 and tT3 was also significantly increased in response to CMS, possibly contributing to tT4 and tT3 elevations. The above findings suggest an impact of CMS on thyroid function, especially in tT4 values the changes being reversed with IMI treatment.     

Reproductive effects of valproate, carbamazepine, and oxcarbazepine in men with epilepsy

BACKGROUND: Recent observations have indicated that reproductive endocrine disorders are common among women taking valproate (VPA) for epilepsy, but it is not known whether respective abnormalities develop in men taking VPA for epilepsy. Carbamazepine (CBZ) may induce endocrine disorders in men with epilepsy, but the endocrine effects of oxcarbazepine (OXC) are not known. METHODS: Reproductive endocrine function was evaluated in 90 men taking VPA (n = 21), CBZ (n = 40), or OXC (n = 29) as monotherapy for epilepsy and in 25 healthy control men. RESULTS: Twelve men (57%) taking VPA had increased serum androgen levels. The mean serum level of androstenedione was high in patients taking VPA. Serum levels of dehydroepiandrosterone sulfate were low, and serum concentrations of sex hormone-binding globulin (SHBG) were high in men taking CBZ. The endocrine effects of OXC seemed to be dose-dependent, because serum hormone levels were normal in patients with low OXC doses (< 900 mg/day), but serum concentrations of testosterone, gonadotropins, and SHBG were high in patients with a daily OXC dose > or = 900 mg. CONCLUSIONS: VPA increases serum androgen concentrations in men with epilepsy. The endocrine effects of CBZ and OXC were different, because CBZ appears to decrease the bioactivity of androgens, whereas OXC does not.     

The hypothalamic-pituitary-thyroid axis in patients with schizophrenia

Serum concentrations of thyroxine (T(4)), triiodothyronine (T(3)), reverse triiodothyronine (rT(3)) and thyrotropine (TSH) were measured in 31 acutely ill in-patients with schizophrenia before and after four weeks of treatment with the phenothiazine derivative perazine. The serum levels of all the above hormones were also determined in 19 schizophrenic patients in remission who were receiving no medication, 20 schizophrenic patients in remission taking neuroleptic drugs, and 24 patients with residual-type schizophrenia.The serum levels of T(4) of acutely ill schizophrenic patients were elevated, while those of T(3), rT(3) and TSH were normal. Their T(4) levels showed a positive correlation with the severity of illness and the degree of clinical response to neuroleptic treatment. There was a significant fall in serum concentrations of T(4) and rT(3) during four weeks of drug treatment and the decrease was significantly correlated to clinical response. No abnormalities in the serum concentrations of any of the hormones measured were found in schizophrenic patients in remission or in residual-type schizophrenia.In conclusion, our results indicate that the elevated serum levels of T(4) may be specific for acutely ill schizophrenic patients and that neuroleptic medication may affect thyroid hormone metabolism, this interaction being involved in the mechanism of action of these drugs.     

抗癫痫药物对癫痫患者甲状腺激素水平影响的研究

目的 研究癫痫患者甲状腺激素水平和抗癫痫药物对其影响以及与疗效之间的关系。方法 测定已确诊的45例未服用过抗癫痫药物的癫痫患者血清甲状腺激素水平并与30例健康对照组进行比较。再经卡马西平、苯妥英钠、丙戊酸钠三种抗癫痫药物分组单药治疗3个月、6个月、年后观察甲状腺激素水平的变化及与疗效之间的关系。结果 未服用抗癫痫药物的新诊断癫痫患者游离甲状腺素（FT4）水平显著低于健康对照组,经苯妥英钠、卡马西平分别治疗3个月、6个月、1年后T4、FT4、FT3显著低于治疗前水平,TSH无显著性变化。经丙戊酸钠治疗后的不同时间段各甲状腺激素水平与治疗前比较无显著性差异（P＞0．05）。甲状腺激素水平的变化与化疗效之间似无相关性。结论 癫痫的反复发作虽未经抗癫痫药物治疗已存在FT4水平的降低。苯妥英钠、卡马西平可明显造成癫痫患者的亚临床甲状腺功能降低（T4、FT4、FT3下降）,丙戊酸钠对患者甲状腺激素水平无显著影响。甲状腺激素水平的变化与疗效之间无相关性。     

Stroke and thyroid hormones]

The levels of thyroid hormones were determined by RIA in 65 cases in with stroke, in which 42 cases showed low T3 levels (64.6%). The rates of abnormal T3 and rT3 were much higher in hemorrhage group (72.5%) than those in infarction group (52%). T3 and rT3 abnormalities were apparent in the acute stage compared to those in the chronic stage (P less than 0.01), and closely correlated with size of lesions, that is, size of lesions had negative correlation with T3 and T3/rT3 but positive correlation with rT3 when the volume of hemorrhage was more than 30 ml or the area of infarction more than 20 cm2. Determination of T3 and rT3 levels in patients with stroke may be helpful in assessing the severity and prognosing.     

Long-term treatment of children with epilepsy with valproate or carbamazepine may cause subclinical hypothyroidism

PURPOSE: The aim of the study was to evaluate serum thyroid hormone balance in children receiving long-term therapy with carbamazepine (CBZ), valproate (VPA), and phenobarbital (PB). METHODS: We determined serum levels of triiodothyronine (T3), thyroxine (T4), free thyroxine (FT4), thyroxine-binding globulin (TBG), and thyroid-stimulating hormone (TSH) in 148 healthy children and 141 children with epilepsy who had been receiving CBZ (61 patients), VPA (51 patients), or PB (29 patients) for 12-161 months. In view of TSH values, three categories of subclinical hypothyroidism were considered: I, TSH greater than the control-group mean + 2 SD (4.37 mIU/L in our study) and <6 mIU/L; II, TSH between 6 and 12 mIU/L; and III, TSH >12 mIU/L. RESULTS: In all treated groups, mean T4 and FT4 levels were lower than in the control group, whereas the CBZ- and VPA-treated children additionally showed reduced mean T3 and TBG levels and increased mean TSH levels. In the group receiving CBZ, 8.2% had TSH values higher than the normal-range maximum, by comparison with only 3.6% of healthy children. The increase in TSH levels was particularly marked in VPA-treated children, accounting for 26% of patients with subclinical hypothyroidism. CONCLUSIONS: Our results, in contrast to previous reports, suggest that CBZ and particularly VPA may induce subclinical hypothyroidism. This suggests a need for careful monitoring of TSH levels in children receiving CBZ or VPA.     

Changes in serum thyroid hormones in acute cerebrovascular apoplexy and their clinical significance

Serum thyroid hormones were measured in 62 cases of acute cerebrovascular apoplexy. Compared with the control group, T3, FT3 were markedly lowered and rT3, T4 and TSH were significantly increased with lowered T3/rT3 ratio. The patients were divided into two groups, according to whether there was hemorrhage in their CSF. Changes of serum thyroid hormones in cerebral haemorrhage were more remarkable than those observed in cerebral thrombosis. 16 cases with increased T4, FT4 were diagnosed as euthyroid hyperthyroxinemia. It was found that the amount of thyroid hormone changes appeared to be in proportion to the severity of acute cerebrovascular apoplexy. The determination of serum thyroid hormones would be useful in evaluating the severity of the strokes and in studying the thyroid function in acute cerebrovascular apoplexy.     

No effect of long-term valproate therapy on thyroid and parathyroid functions in children

In this study, we studied serum calcium, phosphorus, alkaline phosphatase, thyroid hormones (total thyroxine, free thyroxine, thyroid-stimulating hormone), parathyroid hormone, and osteocalcine levels in children with epilepsy who had been receiving long-term valproate (VPA) therapy in order to determine whether there was any effect of VPA therapy on these hormones. The study included 31 patients with epilepsy receiving VPA and 22 healthy age-matched controls. The age ranged from 15 months to 16 years and 18 months to 17 years in the study and control group, respectively. The duration of VPA use was between 12 months and 5 years (1.93 +/- 1.90 years). When comparing the results, we did not find any significant difference in any of the parameters, including serum calcium, phosphorus, alkaline phosphatase, osteocalcine, and thyroid and parathyroid hormone levels, between the study and control group. We suggest that VPA can safely be used with regard to thyroid and parathyroid dysfunction in childhood epilepsy.     

Thyroid function in patients with Alzheimer disease: implications on response to anticholinesterase treatment

Increasing evidence supports an extensive interrelationship between thyroid hormones and the cholinergic system, which is selectively and early affected in Alzheimer disease (AD). The aim of the present study was to explore thyroid function in patients with AD before and after acetylcholinesterase inhibition treatment to possibly identify variances in response. Thyroid function tests were evaluated in 28 AD patients and 24 age and sex-matched controls. Nineteen of the patients were reevaluated after (4 mo) treatment with donepezil. Serum thyrotropin (TSH), triiodothyronine (T3), thyroxine (T4), the free fractions (fT3, fT4) and thyroid autoantibodies were determined using standard methods. All subjects were clinically euthyroid. Patients presented with higher fT4 and anti-thyroperoxidase levels, as compared with the controls. Significant reduction in T4, fT3, fT4, and anti-thyroperoxidase levels were observed 4 months after treatment. Responders had higher T4 and fT4, than nonresponders, followed by significant reductions after treatment. The above, within the normal range alterations, may represent a direct effect on hormone release from the thyroid gland and/or increased conversion of T4 to T3 within the brain. Higher T4 and fT4 levels before treatment might predict a favorable response to donepezil treatment.     

Subclinical hypothyroidism during valproic acid therapy in children and adolescents with epilepsy

The aim of this study was to evaluate the incidence of thyroid dysfunction during valproic acid (VPA) therapy in children and adolescents with epilepsy. The serum levels of thyroid-stimulating hormone (TSH), free thyroxine, and triiodothyronine were evaluated in 61 children with epilepsy who received VPA monotherapy for more than 6 months and in 144 controls. We analyzed the effect of age, seizure type, duration of VPA treatment, dose of VPA, and serum level of VPA on thyroid function. The incidence of subclinical hypothyroidism was significantly higher in patients with VPA therapy than in controls (52.4 vs. 16.7%; p < 0.001). In addition, of the 61 patients, 5 (8.1%) exhibited TSH levels that were >10 μIU/mL. However, none of the patients and controls showed overt hypothyroidism. Serum VPA level and daily dose of VPA were correlated with TSH level. Subclinical hypothyroidism developed frequently in children and adolescents during VPA therapy.     

Effects of chronic treatment with valproate and oxcarbazepine on ovarian folliculogenesis in rats

Purpose : We aimed to define the morphologic effects of valproate (VPA) and oxcarbazepine (OXC) on ovarian folliculogenesis in rats.
Methods : Forty female wistar rats (21–24 days old and weighted between 46.4 and 55.3 g) were divided equally into 4 experimental groups, which were applied tap water (control group), 300 mg/kg/day VPA, 100 mg/kg/day OXC, and both VPA and OXC via gavage for 90 days. Ovaries of the rats on proestrous and diesterous phase of estrous cycle according to daily vaginal smear were taken out and placed in a fixation solution. Immunohistochemical and apoptosis (TUNEL) staining protocols were applied.
Results : The number of follicles decreased and that of corpora lutea increased significantly in OXC, VPA, and OXC+VPA treated groups compared with control group (p < 0.05). The number of TUNEL positive ovarian follicles was 1.40 ± 0.52 in control group, but it significantly increased to 3.50 ± 0.53, 3.50 ± 0.53, and 4.90 ± 0.88 in VPA, OXC, and VPA+OXC groups (p < 0.0001). The increase in the number of TUNEL positive granulosa cells was also significant for OXC and VPA+OXC groups (p < 0.0001). Immunohistochemical HSCORE decreased for TGFβ1 and IGF1 staining and increased for P53 staining in all drug groups compared with control group (p < 0.001). Intensity of P53 labeling increased, while intensity of TGFβ1, IGF-1, and GDF-9 immunoreactivity decreased significantly in all drug groups compared with control group (p < 0.001).
Conclusion : Long-term treatment with VPA or OXC from prepuberty to adulthood causes apoptosis and deterioration of folliculogenesis in rat ovarian follicles.