THU417 Associations Between Glucose Metabolism And Trabecular Bone Score In Subjects With Acromegaly

Abstract

Abstract Disclosure: M. Kuzma: None. J. Payer: None. P. Vanuga: None. I. Sagova: None. D. Pavai: None. P. Jackuliak: None. Z. Killinger: None. Introduction: Previously, it was thought that increased risk of vertebral fractures (VF) in acromegaly is associated with impaired trabecular bone. More recently, cortical bone was proposed as one of the fracture risk determinant. However, trabecular compartment is still decreased. Glucose intolerance is a frequent complication of acromegaly and is directly attributable to the excess circulating growth hormone and IGF-1 concentrations and thus possibly lead to trabecular bone detoriation.Objectives: To assess effect of glucose metabolism on DXA-derived bone parameters, such as bone mineral density (BMD), trabecular bone score (TBS), cortical and trabecular vBMD, surface BMD and cortical thickness of proximal femur among patients with acromegaly. Patients and methods: In total, 70 consecutive patients (24 males/56 female, mean age = 55.6 years) with acromegaly based on current ADA guidelines were divided in two subgroups according to glucose metabolism(GM): abnormal GM (n=35; 14 males/21 females; 15 with active disease) and normal GM (n=35;10 Males /25 Females; 11 with active disease). Subjects were prospectively followed up for two years. At baseline and year 2; all subjects had pituitary hormonal measures, fasting plasma glucose (FPG), HBA1c, C-peptide, insulin resistance index (IRI) and DXA measurement performed. From DXA, BMD, TBS and 3D-Shaper parameters were derived. Results: At baseline; subjects with abnormal GM had lower TBS (1.166±0.15) in comparison to normal GM subjects (1.232±0.12; p<0.05). Insulin like growth factor 1 (IGF-1), FPG, HBA1c, C-peptide, IRI and bone parameters was correlated in simple regression model. FPG, HBA1c, C-peptide and IRI was negatively associated with TBS. No correlation between GM parameters and other bone measures was observed. Multiple regression model of all GM parameters weighted by IGF-1 revealed HBA1c as a significant predictor of TBS value (Estimate =-0,054; p=0.04). At year 2; FPG and HBA1c was negatively associated with TBS. In multiple regression IGF-1-weighted model, no significant predictor of TBS was observed. Conclusion: Acromegaly subjects with abnormal GM have lower TBS in comparison to those with normal GM. The best GM parameter to predict TBS in acromegaly was HBA1c. This study showed that trabecular bone microstructure, as indirectly assessed by TBS, is likely resulting of impaired glucose metabolism. Presentation: Thursday, June 15, 2023