Despite an intriguing understanding of trabecular bone dynamics, little is known about corticosteroid-induced cortical bone loss and fractures. Recently, we verified a steroid-induced decrease in cortical bone volume and density using peripheral quantitative computed tomography (pQCT) in adult asthmatic patients given oral corticosteroids. Subsequently, the pQCT parameters and presence of vertebral fractures were investigated to further clarify the role of cortical bone quality in fractures in 86 postmenopausal (>5 years after menopause) asthmatic patients on high-dose oral steroid (>10 g cumulative oral prednisolone) (steroid group) and 194 age-matched controls (control group). Cortical and trabecular bone was subjected to measurement of various parameters using pQCT (Stratec XCT960). Relative Cortical Volume (RCV) was calculated by dividing the cortical area by the total bone area. Strength Strain Index (SSI) was determined in the radius based on the density distribution around the axis. Spinal fracture was assessed on lateral radiographs. Patients treated with high doses of oral steroid (>10 g cumulative oral prednisolone) were found to have an increased risk of fracture compared with control women receiving no steroid medication (odds ratio, 8.85; 95% CI, 4.21-18.60) after adjustment was made for years since menopause, body mass index and RCV. In both groups, the diagnostic and predictive ability of the pQCT parameters for vertebral fracture was assessed by the areas under their receiver operating characteristic (ROC) curves. All parameters were found to be significant predictors ( p<0.0001) in the control group. In the steroid group, however, the cortical bone mineral density (BMD) ( p = 0.001), RCV ( p<0.0001) and SSI ( p = 0.001) were found to be significant predictors, but not trabecular BMD ( p = 0.176). For comparison between the two groups, thresholds of all parameters for vertebral fracture were also calculated by the point of coincidence of sensitivity with specificity in ROC testing and the 90th percentile value. Although a rise in fracture threshold in the steroid group was suggested, considerable difference in the values obtained by the two methods of calculation precluded any conclusion. High-dose oral steroid administration was associated with an increased risk of fracture. Cortical bone parameters obtained by pQCT could play a role as good predictors of future corticosteroid-induced vertebral fractures.
Despite a deepening understanding of the influence of glucocorticoids (GC) on trabecular bone, little is known about GC-induced cortical bone loss. To elucidate the mechanism of GC-induced loss of cortical bone strength with particular reference to cortical bone loss, changes in cortical density, relative cortical volume, and the Strength Strain Index (SSI) based on biomechanical analyses of the geographic distribution of cortical bone material were measured. These parameters were compared, using peripheral quantitative computed tomography (pQCT), among the following age-matched groups: 68 postmenopausal asthmatic patients receiving high-dose oral GC in addition to inhaled GC (oral GC group), 68 postmenopausal asthmatic patients receiving only inhaled GC (inhaled GC group) and 69 postmenopausal controls without asthma or GC therapy (control group). Cortical bone mineral density (BMD) was measured, relative cortical volume was obtained by dividing the cortical area by the total bone area using pQCT (Stratec XCT960), and the Strength Strain Index (SSI) was calculated in the radius based on the density distribution around the axis. Spinal fracture was assessed on lateral radiographs. The number of vertebral fractures per patient correlated highly with cortical BMD, relative cortical volume and SSI values at the radius. The number of vertebral fractures per patient and the number of patients with fracture were similar between the control and inhaled GC group, both being significantly lower than those in the oral GC group. Total BMD, trabecular BMD, cortical BMD, relative cortical volume and SSI were similar between the first two, being significantly higher than in the last group. The slopes of cortical volume-density relationship, however, were identical among the three groups, indicating the persistence of cortical bone remodeling and a similar degree of calcification regardless of GC administration.
Vasoactive intestinal polypeptide (VIP) was administered as an iv bolus of 1 micrograms/kg BW to 8 acromegalic patients and in doses of 0.5 and 1 microgram/kg BW to 15 normal volunteers. Both systolic and diastolic blood pressures decreased, and pulse rate increased transiently after VIP injection. VIP stimulated PRL release from the anterior pituitary in normal subjects. Plasma PRL responses to VIP in women were dose dependent and larger than those in men. On the other hand, plasma GH levels rose markedly after VIP injection in all 6 patients with untreated acromegaly. In 2 patients studied after transsphenoidal microadenomectomy, there was no plasma GH response to VIP. In 2 other patients with inactive acromegaly as well as in normal subjects, VIP failed to affect plasma GH levels. In all 6 patients with active acromegaly, LRH (1-2 micrograms/kg BW, iv) did not increase plasma GH levels, but TRH (5-10 micrograms/kg BW, iv) caused significant increases in plasma GH, the magnitude of which was not similar to that of increases seen after VIP injection. Paradoxical GH responses to TRH were not observed in patients in the inactive phase after transsphenoidal surgery. These findings suggest that VIP stimulates GH release in vivo in acromegalic patients. A VIP test as well as a TRH test offer promise as simple and reliable techniques to evaluate the activity of acromegaly, particularly after transsphenoidal surgery.
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