SFEBES2011 Poster Presentations Nursing practise (13 abstracts)
Leeds Teaching Hospitals NHS Trust, Leeds, West Yorkshire, UK.
Introduction: Within the setting of putative or established pituitary disease the primary disease process (i.e. Cushings disease), hormone deficits (i.e. sex steroids, GH), and inappropriate replacement therapy (i.e. glucocorticoids) are reputed to predispose to low bone mass.
Patients and Methods: We examined bone mass at the lumbar spine (LS) and total hip (TH) using DXA in 259 patients with an insult to the hypothalamopituitary axis (51.6±15.7 years; 133F; BMI 29.3±5.5 kg/m2). Mean duration of follow-up 11.4±9.5 years. In patients who were receiving treatment for osteoporosis the scan result immediately before therapeutic intervention was used in this analysis.
Results: In the cohort overall Z-scores at the LS and TH were +0.09±1.81 and +0.54±1.21 respectively. A Z-score of less than −2.0 was observed at the LS in 10.4% and at the TH in 2.2% of individuals. No difference was observed in bone mass between subgroups at either the LS or TH following stratification for the primary pathology (Table). Further analysis of bone mass (Z-scores) by the number of additional anterior pituitary hormone deficits revealed no evidence of a trend towards lower bone mass with greater degree of hypopituitarism.
n= | Lumbar spine (Z-score) | Total hip (Z-score) | |
NFPA | 72 | +0.136±1.676 | +0.663±1.054 |
Acromegaly | 35 | +0.553±1.632 | +0.813±1.109 |
Cushings Dis | 21 | +0.305±1.879 | +0.900±0.923 |
Hyperprolactinaemia | 39 | +0.419±1.436 | +0.789±1.052 |
Craniopharyngioma | 21 | −0.261±2.152 | +0.418±1.610 |
XRT-Induced | 10 | −0.410±1.847 | −0.267±1.533 |
Others | 61 | −0.333±2.037 | +0.128±1.269 |
Conclusion: The impact of hypopituitarism and hormone replacement therapy has negligible impact on bone mass in long-term survivors of patients with a putative or established insult to the hypothalamopituitary axis.