Radiation-induced hypopituitarism has been studied prospectively for up to 12 years in 251 adult patients treated for pituitary disease with external radiotherapy, ranging in dose from 20 Gy in eight fractions over 11 days to 45 Gy in 15 fractions over 21 days. Ten further patients were studied 2-4 years after whole-body irradiation for haematological malignancies using 12 Gy in six fractions over 3 days and seven patients were studied 3-11 years after whole-brain radiotherapy for a primary brain tumour (30 Gy, eight fractions, 11 days). Five years after treatment, patients who received 20 Gy had an incidence of TSH deficiency of 9% and in patients treated with 35-37 Gy, 40 Gy and 42-45 Gy, the incidence of TSH deficiency (22, 35 and 52% respectively) increased significantly (P less than 0.001) with increasing dose. A similar relationship was observed for both ACTH and gonadotrophin deficiencies when the 20 Gy group was compared to patients treated with 35-45 Gy (P less than 0.01 and P less than 0.05 respectively). Growth hormone deficiency was universal by 5 years over the dose range 35-45 Gy. In seven patients who were treated with 30 Gy in eight fractions over 11 days, deficiencies were observed at a similar frequency to the 40 Gy group (15 fractions, 21 days). No evidence of pituitary dysfunction was detected in the ten patients who received 12 Gy (six fractions, 3 days). Both total radiation dose and fractionation schedule may determine the incidence of pituitary hormone deficiencies. The dose below which deficiencies do not occur is probably irrelevant to therapeutic irradiation of pituitary and other intracranial neoplasms.
Our study has shown that GH deficiency is variable according to the degree of hypopituitarism present and that the greater the number of pituitary hormone deficits the more severe the GH deficiency. These observations will help to clarify the diagnosis of GH deficiency in adult life.
The effects of Hodgkin's disease and quadruple chemotherapy on gonadal function have been investigated in 92 male patients with Hodgkin's disease. Nineteen men were studied before they received chemotherapy. Fifteen of the 19 had a sperm count of 20 million/ml or greater and motility was at least 40% in all 15. In the remaining 74 men, gonadal function was studied after completion of chemotherapy (6 months--8 years). Semen was obtained from 49 men who had received six of more courses of MVPP. Forty-two were azoospermic and five of the remaining seven had a sperm count below 1 million/ml. Decreased libido and sexual activity was common during treatment but in the majority of men these returned to normal after completion of chemotherapy. The median FSH and LH levels and the median increments in serum FSH and LH levels after LHRH administration were significantly elevated compared with an age-matched control group. The mean testosterone level of the patients was significantly lower than in controls suggesting Leydig cell damage but androgen replacement therapy was not indicated in any individual patient. No evidence of hyperprolactinaemia as a result of MVPP therapy was found. These results suggest that sperm storage before chemotherapy represents the main possibility for these patients to have children after completing chemotherapy. Before starting chemotherapy, advice should be given to these patients concerning possible changes in sexual behavior during treatment and the very high incidence of permanent infertility following treatment.
The radiation dose, delivered to the hypothalamic-pituitary region, has been calculated in thirty-nine children irradiated for brain tumours and in seventeen children who had received prophylactic cranial irradiation for acute leukaemia. All subjects had an insulin tolerance test at least 2 years after their radiotherapy. There is a significant inverse correlation between radiation dose and peak GH response. Thirty-seven of the fifty-six patients showed an impaired GH response and thirty-six of these received more than 2900 rads. Only five patients who received such a dose showed normal GH responses and four of these were aged over 13 years when treated. In conclusion, cerebral irradiation is a potent cause of GH deficiency in children.
Ovarian function has been studied in 44 adult females who previously received quadruple chemotherapy (MVPP) for Hodgkin's disease. The median age at treatment was 23 years, and the length of time between completion of treatment and study ranged from 6 months to 10 years (median, 30 months). Seventeen women maintained regular menses, 10 developed oligomenorrhea, and 17 developed amenorrhea. At treatment, the 17 women who subsequently developed amenorrhea were significantly older (median, 30 years) than those who maintained regular menses (median, 22 years) or developed oligomenorrhea (median, 23 years). All patients older than 36 years at the start of treatment stopped menstruating during chemotherapy. The cause of the menstrual disturbance in these patients was chemotherapy‐induced ovarian damage characterized by high serum gonadotrophin and low serum estradiol concentrations. After completion of treatment there were 17 pregnancies, which resulted in 9 normal infants, 3 terminations, and 4 spontaneous abortions. Nine patients took the combination oral contraceptive pill throughout chemotherapy; however, subsequently 4 developed amenorrhea and 3 oligomenorrhea, suggesting that these patients had not been protected from chemotherapy‐induced ovarian damage. Estrogen replacement therapy was of definite benefit in the symptomatic patients with premature ovarian failure.
Twenty-four patients (three male) with Cushing's disease, aged between 11 and 67 years, were treated with low-dose external pituitary irradiation (20 Gy in eight fractions over 10-12 days) and followed for between 13 and 171 months (median 93 months). Eleven patients (46%) went into remission 4-36 months after irradiation, but five subsequently relapsed. Two of these received no further active treatment, one underwent successful pituitary surgery, one underwent a second course of low-dose external irradiation (as yet unsuccessful) and one has been treated with metyrapone for a total of 75 months. One of the 13 patients who did not respond received a further course of low-dose pituitary irradiation with prompt remission and two have received metyrapone for 41 months and 15 years without ill effect. One patient died from cerebrovascular disease. The remaining nine patients underwent bilateral adrenalectomy (one after unsuccessful pituitary surgery) with rapid resolution of hypercortisolism. Five of these patients have developed hyperpigmentation and elevated ACTH levels (range 505-1150 ng/l). A pituitary microadenoma has been demonstrated on CT scan in three and successfully removed by microadenomectomy. In the present series, the low incidence of radiation-induced hypopituitarism and absence of other complications attributable to radiotherapy suggest that low-dose pituitary irradiation may be a useful treatment option in selected patients. However, long-term follow-up has demonstrated a high relapse rate and failure to prevent Nelson's syndrome in adrenalectomized patients, indicating that it should not be used as primary treatment in preference to selective adenomectomy.
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