Testis is the most important reproductive organ in men, including two main functions: steroidgenesis (testosterone) and spermatogenesis. In the past years, certain studies showed reproductive hormone defects in hyperthyroid males, with symptoms of hypogonadism, such as erectile dysfunction, decreased libido and gynecomastia. The past studies also showed sperm parameter defects in hyperthyroid males, which might recover well after treatment. The aim of this prospective controlled study tried to evaluate the effect of hyperthyroidism on human testis, and the compensation of reproductive hormone. Twenty six male patients with Graves’ hyperthyroidism, demographic data revealed 46.15±12.73 year-old (mean ± SD) with body mass index (BMI) as 24.09±3.80 kg/m2. They were matched with 26 healthy male controls (46.13±12.02 year-old and BMI as 23.96±3.68 kg/m2). The blood samples were obtained before treatment and at least 3 months in euthyroid status after treatment with methimazole. The results reveal that the levels of Luteinizing hormone (LH), total testosterone, Estradiol (E2) and Sex hormone binding globulin (SHBG) were higher in hyperthyroidism patients in comparison with controls. (LH, Mean± SD, 8.60±2.93 vs 5.84±2.74 mIU/ml, p <0.01; total testosterone: 810±364 vs 446.08±179.08 ng/dL, p <0.01; E2: 36.97±11.94 vs 28.45±7.86 pg/mL, p <0.01; SHBG: 132.93±75 vs 48.92±35.2 nmol/L, p <0.01). In addition, the level of albumin (4.42±0.31 g/dL) was lower in patients than that of control (4.76±0.27 g/dL, p <0.01). After treatment with anti-thyroid drugs, gonadal hormone could recover without statistically difference between subjects after treatment and controls. (LH, 6.59±2.92 mIU/ml; total testosterone, 446.92±128.68 ng/dL; E2: 28.2± 7.50 pg/mL; SHBG, 51.91±29.26 nmol/L; Albumin, 4.62 ±0.21 g/dl). There were no statistically differences in the levels of bioavailable testosterone (Bio T), free testosterone (FT), follicle stimulating hormone (FSH) and inhibin B between patients before treatment, after treatment and control group. (BioT, 158.09±53.89 vs 171.3±46.44 vs 181±41.28 ng/dL; FT, 6.57±2.13 vs 6.83±1.95 vs 6.99 ±1.57 ng/dL; FSH:7.76±3.47 vs 6.88 ±3.82 vs 6.33±2.91 mIU/ml; Inhibin B, 123.32 ±61.47 vs 143.78 ± 71.47 vs 140.22 ± 67.6 pg/ml). Our results showed the hormone alteration and compensation in men with hyperthyroidism. The stability of FSH and Inhibin B level implicated fair reserve of spermatocytes (pachytene spermatocytes and round spermatids) and Sertoli cell function. The defects of sperm parameter in hyperthyroidism noted in previous studies were possibly caused by the direct effect of thyroid hormone on spermatocytes. Therefore, we will suggest that the very first step to treat hyperthyroidism-related infertility in men should be therapeutic correction of thyroid hormone levels.