Gamma irradiation effects on human growth hormone producing pituitary adenoma tissue. An analysis of morphology and hormone secretion in an in vitro model system.

Irradiation-induced effects on pituitary cell morphology and secretion of growth hormone (GH) and prolactin (PRL) have been analysed using an in vitro system. Specimens for organ culture were obtained from three patients with pituitary tumours causing acromegaly but with different clinical activity of disease. Specimens were followed in vitro 1 h - 6 days after single-dose gamma irradiations (60Co) with 70, 100 and 150 Gy, respectively. These doses are used in clinical work for the stereotactic radiosurgery of pituitary adenomas. Considerable fluctuations in hormone secretion/release occurred during the first 24 h after irradiation. Following 70 Gy single dose, the GH secretion increased slightly a few days after irradiation, having been at a minimum level 24 h after exposure. When using dose of 100 and 150 Gy, however, no such increased secretion with time after irradiation was indicated. All three tumors showed individual differences concerning irradiation-induced morphological damage. Only a minor variation occurred between specimens from the same tumour. In specimens from all tumours, irrespective of dose, minor morphological changes were observed 3-5 h after irradiation. Thereafter an individual response to irradiation became apparent. One tumour displayed maximum cell damage 24 h after irradiation with 70 Gy, showing severe oedema and damage to cell organelles. The other two adenomas were only slightly damaged following irradiation with 70, 100 and 150 Gy. Numerous morphologically normal or near-normal cells were found in all specimens from the three tumours 6 days after irradation. An individual sensitivity to irradiation of pituitary tumours in vitro is documented. The great number of surviving pituitary tumour cells one week after irradiation--many with an intact ultrastructure and containing hormone granules--indicated an initial high degree of radioresistance.