Your search keyword '"Conran R"' showing total 2 results

1. Adrenal regeneration hypertension prevented by thyroidectomy: a quantitative ultrastructural study of the regenerating adrenal cortex.

Author

Conran RM and Nickerson PA

Subjects

Adrenal Cortex anatomy & histology, Adrenal Cortex physiology, Animals, Blood Pressure, Calcium blood, Corticosterone blood, Desoxycorticosterone blood, Female, Hypertension etiology, Hypertension pathology, Organ Size, Parathyroid Glands physiology, Rats, Thyroid Gland physiology, Adrenal Cortex ultrastructure, Hypertension prevention & control, Parathyroid Glands surgery, Regeneration, Thyroidectomy

Abstract

Thyroparathyroidectomy (TPX) prevents adrenal regeneration hypertension (ARH) in female rats and concomitantly inhibits regeneration of the adrenal cortex. Removal of the thyroid gland plays the major role in preventing ARH inasmuch as parathyroidectomized adrenal-enucleated (PX-AE) rats became hypertensive, whereas thyroparathyroidectomized adrenal-enucleated rats (TPX-AE + PT) did not. Inhibition of adrenocortical regneration by TPX is reflected by a significant decrease in adrenal weight, volume of cortical parenchymal tissue per gland, and average cell volume at three weeks, compared with the regenerating adrenal gland in adrenal-enucleated thyroid-parathyroid-intact (AE) rats. Mitochondria in TPX-AE rats resembled closely those from zona fasciculata cells of a normal adrenal gland; stereologic techniques for electron microscopic examination confirmed that mitochondrial volume/cell and surface area of total mitochondrial membranes/cell (outer/inner membranes plus cristae) of adrenocortical cells from TPX-AE rats did not differ significantly from those of AE animals. The surface area of mitochondrial cristae of TPX-AE rats, however, was significantly greater than that of AE rats, whereas the surface area of the inner/outer mitochondrial membrane of the TPX-AE group was decreased significantly as compared with that of the AE group. The diameter of mitochondria in TPX-AE rats was larger than in the AE group, although the number of mitochondria/cell was significantly less in TPX-AE rats than in AE rats. Although TPX had no significant effect on the levels of DOC or corticosterone in the serum of quiescent AE rats as compared with TPX-AE rats, the rise in DOC in the serum after ether stress was blunted in the TPX-AE group as compared with that in the AE group. The rise in corticosterone in the TPX-AE group was comparable to that of the AE animals. Thus, partial inhibition of adrenal regeneration in TPX-AE rats in combination with a blunted rise in DOC levels in response to stress may well contribute to the prevention of ARH.

Published

1980

2. Parathyroidectomy ameliorates vascular lesions induced by deoxycorticosterone in the rat.

Author

Nickerson PA and Conran RM

Subjects

Animals, Calcium blood, Female, Hypertension chemically induced, Kidney pathology, Myocardium pathology, Nephrectomy, Organ Size, Parathyroid Hormone blood, Rats, Blood Vessels pathology, Desoxycorticosterone, Hypertension prevention & control, Parathyroid Glands surgery

Abstract

The systolic blood pressures of rats that underwent parathyroidectomies and uninephrectomies reached hypertensive levels after implantation of deoxycorticosterone (DOC) pellets and were compared to those in rats with intact parathyroids bearing 20-mg or 50-mg pellets of DOC. Parathyroidectomy, however, ameliorated the incidence and severity of cardiac and renal lesions induced by DOC. The beneficial effect of parathyroidectomy on vascular lesions may well be attributable at least in part to a reduced level of calcium in the serum or to the absence of parathyroid hormone, which is involved directly in the regulation of calcium transport and influx into the cell. Parathyroidectomy significantly reduced the compensatory renal hypertrophy and splenomegaly induced by DOC, although cardiac hypertrophy and hepatomegaly induced by DOC were not affected by parathyroidectomy.

Published

1981