Anne L. Schafer

Quantification of vertebral bone marrow fat content using 3 Tesla MR spectroscopy: reproducibility, vertebral variation, and applications in osteoporosis.

To determine the reproducibility of proton MR spectroscopy (1H‐MRS) for assessing vertebral bone marrow adiposity at 3 Tesla (T); to evaluate variation of marrow adiposity at different vertebral levels; and to demonstrate the feasibility of using 1H‐MRS at 3T for evaluating marrow adiposity in subjects with low bone density.

Effects of antiresorptive therapies on glucose metabolism: Results from the FIT, HORIZON-PFT, and FREEDOM trials

In rodent models, undercarboxylated osteocalcin (ucOC) acts as a hormone that promotes insulin sensitivity and secretion. If ucOC plays a similar role in humans, then antiresorptive therapies, which reduce ucOC levels, may increase the risk of insulin resistance and diabetes. We tested whether antiresorptive therapies result in higher fasting glucose, increased weight, or greater diabetes incidence in post hoc analyses of three randomized, placebo‐controlled trials in postmenopausal women: Fracture Intervention Trial (FIT) (N = 6151) of alendronate (4 years), Health Outcomes and Reduced Incidence with Zoledronic Acid Once Yearly Pivotal Fracture Trial (HORIZON‐PFT) (N = 7113) of zoledronic acid (3 years), and Fracture Reduction Evaluation of Denosumab in Osteoporosis Every 6 Months (FREEDOM) trial (N = 7076) of denosumab (3 years). Fasting glucose was measured annually in FIT and HORIZON in a subset of women, and every 6 months in FREEDOM in all participants. Weight was measured annually in all trials. Incident diabetes was identified from adverse event reports, initiation of diabetes medication, or elevated fasting glucose. Differences in fasting glucose changes from randomization to trial conclusion between treatment and placebo groups were not statistically significant: −0.47 mg/dL in FIT, 0.20 mg/dL in HORIZON‐PFT, and 0.09 mg/dL in FREEDOM, all p > 0.6. Weight change differed between treatment and placebo groups in FIT (0.32 kg, p = 0.003) and FREEDOM (0.31 kg, p = 0.023) but not in HORIZON‐PFT (0.15 kg, p = 0.132). In the three trials combined, diabetes occurred in 203 and 225 women assigned to treatment or placebo, respectively. Diabetes incidence was not increased in any of the treatment groups or in the pooled estimate (pooled relative risk [RR] = 0.90; 95% confidence interval [CI] 0.74–1.10). Antiresorptive therapy does not have a clinically important effect on fasting glucose, weight, or diabetes risk in postmenopausal women. Contrary to predictions from mouse models, reduced bone turnover does not appear to play a significant role in glucose metabolism in humans.

Change in undercarboxylated osteocalcin is associated with changes in body weight, fat mass, and adiponectin: parathyroid hormone (1-84) or alendronate therapy in postmenopausal women with osteoporosis (the PaTH study).

CONTEXT The undercarboxylated form of the osteoblast-secreted protein osteocalcin has favorable effects on fat and glucose metabolism in mice. In human subjects, cross-sectional studies suggest a relevant association. OBJECTIVE We investigated whether changes in undercarboxylated osteocalcin (ucOC) during osteoporosis treatment are associated with changes in metabolic parameters. DESIGN, SETTING, PARTICIPANTS, AND INTERVENTIONS We measured ucOC in sera from a subset of osteoporotic postmenopausal women who were treated with PTH(1-84) or alendronate (n = 64 and n = 33, respectively) during the Parathyroid Hormone and Alendronate study. MAIN OUTCOME MEASURES We measured serum adiponectin, leptin, and insulin and analyzed existing data on body weight, fat mass, and serum glucose concentration. Three-month changes in ucOC levels were evaluated as predictors of 12-month changes in indices of fat and glucose metabolism. RESULTS ucOC levels increased with PTH(1-84) and decreased with alendronate administration (P ≤ 0.01 for both treatment groups). Three-month change in ucOC was inversely associated with 12-month changes in body weight (standardized β = -0.25, P = 0.04) and fat mass (β = -0.23, P = 0.06), after adjustment for the treatment group. Three-month change in ucOC was positively associated with a 12-month change in adiponectin (β = 0.30, P = 0.01), independent of change in fat mass. There were no interactions between treatment and change in ucOC on changes in weight, fat mass, or adiponectin. CONCLUSIONS PTH(1-84) increases and alendronate decreases ucOC levels. Changes in ucOC induced by PTH(1-84) and alendronate are associated with changes in metabolic indices. These associations are consistent with observations from animal models and support a role for ucOC in the skeletal regulation of energy metabolism in humans.

Fat infiltration of muscle, diabetes, and clinical fracture risk in older adults

CONTEXT Older adults with type 2 diabetes are at higher risk for fracture compared with nondiabetic adults after adjustment for their higher bone mineral density. Infiltration of muscle by fat predicts increased risk of hip fracture. OBJECTIVE We investigated whether fat infiltration of muscle, which is greater in diabetic adults, is associated with all clinical fracture and whether it accounts for the increased fracture risk in those with diabetes. DESIGN, SETTING, AND PARTICIPANTS Data were analyzed from the Health, Aging, and Body Composition Study, a cohort of community-dwelling adults aged 70-79 yr. Glucose metabolism status and x-ray attenuation of thigh muscle were determined at baseline for 2762 participants. MAIN OUTCOME MEASURES During a mean 8.2 ± 2.3 yr follow-up, 331 participants reported at least one clinical fracture. RESULTS Fat infiltration of muscle was higher in those with diabetes or impaired glucose metabolism than in those with normal glucose metabolism (P < 0.001). Fat infiltration of muscle was independently associated with a 19% increased risk of incident clinical fracture (multivariate hazard ratio = 1.19; 95% confidence interval = 1.04-1.36); this association did not differ across glucose metabolism groups (P for interaction = 0.65). As previously reported, diabetes was associated with a greater fracture risk compared with normal glucose metabolism (hazard ratio = 1.42; 95% confidence interval = 1.07-1.89) after adjustment for bone mineral density, but further adjustment for fat infiltration of muscle did not attenuate this association. CONCLUSIONS Fat infiltration of muscle predicts clinical fracture in older adults. Although fat infiltration of muscle is higher among those with diabetes, it does not account for their increased fracture risk.

Intestinal Calcium Absorption Decreases Dramatically After Gastric Bypass Surgery Despite Optimization of Vitamin D Status

Roux‐en‐Y gastric bypass (RYGB) surgery has negative effects on bone, mediated in part by effects on nutrient absorption. Not only can RYGB result in vitamin D malabsorption, but the bypassed duodenum and proximal jejunum are also the predominant sites of active, transcellular, 1,25(OH)2D‐mediated calcium (Ca) uptake. However, Ca absorption occurs throughout the intestine, and those who undergo RYGB might maintain sufficient Ca absorption, particularly if vitamin D status and Ca intake are robust. We determined the effects of RYGB on intestinal fractional Ca absorption (FCA) while maintaining ample 25OHD levels (goal ≥30 ng/mL) and Ca intake (1200 mg daily) in a prospective cohort of 33 obese adults (BMI 44.7 ± 7.4 kg/m2). FCA was measured preoperatively and 6 months postoperatively with a dual stable isotope method. Other measures included calciotropic hormones, bone turnover markers, and BMD by DXA and QCT. Mean 6‐month weight loss was 32.5 ± 8.4 kg (25.8% ± 5.2% of preoperative weight). FCA decreased from 32.7% ± 14.0% preoperatively to 6.9% ± 3.8% postoperatively (p < 0.0001), despite median (interquartile range) 25OHD levels of 41.0 (33.1 to 48.5) and 36.5 (28.8 to 40.4) ng/mL, respectively. Consistent with the FCA decline, 24‐hour urinary Ca decreased, PTH increased, and 1,25(OH)2D increased (p ≤ 0.02). Bone turnover markers increased markedly, areal BMD decreased at the proximal femur, and volumetric BMD decreased at the spine (p < 0.001). Those with lower postoperative FCA had greater increases in serum CTx (ρ = −0.43, p = 0.01). Declines in FCA and BMD were not correlated over the 6 months. In conclusion, FCA decreased dramatically after RYGB, even with most 25OHD levels ≥30 ng/mL and with recommended Ca intake. RYGB patients may need high Ca intake to prevent perturbations in Ca homeostasis, although the approach to Ca supplementation needs further study. Decline in FCA could contribute to the decline in BMD after RYGB, and strategies to avoid long‐term skeletal consequences should be investigated.

Six Months of Parathyroid Hormone (1–84) Administered Concurrently Versus Sequentially with Monthly Ibandronate Over Two Years: The PTH and Ibandronate Combination Study (PICS) Randomized Trial

CONTEXT PTH therapy improves bone mineral density (BMD) and decreases fractures in postmenopausal osteoporosis, but cost and the burden of daily injections limit its use. OBJECTIVE We evaluated two novel approaches to the use of 6 months of PTH therapy over 2 yr. DESIGN, SETTING, PARTICIPANTS, AND INTERVENTIONS We conducted a randomized, double-blinded trial of two combinations of daily PTH(1-84) and monthly ibandronate in 44 postmenopausal women with low bone mass. Participants received either 6 months of concurrent PTH and ibandronate, followed by 18 months of ibandronate (concurrent) or two sequential courses of 3 months of PTH followed by 9 months of ibandronate (sequential) over 2 yr. MAIN OUTCOME MEASURES Bone turnover markers were measured. Areal and volumetric BMD were assessed by dual-energy x-ray absorptiometry and quantitative computed tomography, respectively. RESULTS Over 2 yr, areal BMD at the spine and hip increased similarly in both groups, with 7.5 and 8.2% increases in spine BMD in the concurrent and sequential arms, respectively (difference -0.6%, 95% confidence interval=-3.4-2.1%). Volumetric BMD also increased similarly between groups. With concurrent therapy, mean N-propeptide of type I collagen increased 75% between baseline and month 1 and then declined. With sequential therapy, the second 3-month PTH course increased N-propeptide of type I collagen markedly (209%), although to a lesser absolute degree than the first. CONCLUSIONS Six months of PTH(1-84), used over 2 yr with a bisphosphonate in either of our dosing regimens increased BMD substantially. Short PTH courses may provide the benefits of anabolic osteoporosis therapy with reduced burden for patients.

Laboratory reproducibility of biochemical markers of bone turnover in clinical practice

SummaryTo determine the laboratory reproducibility of urine N-telopeptide and serum bone-specific alkaline phosphatase measurements, we sent identical specimens to six US commercial labs over an 8-month period. Longitudinal and within-run laboratory reproducibility varied substantially. Efforts to improve the reproducibility of these tests are needed.IntroductionWe assessed the laboratory reproducibility of urine N-telopeptide (NTX) and serum bone-specific alkaline phosphatase (BAP).MethodsSerum and urine were collected from five postmenopausal women, pooled, divided into identical aliquots, and frozen. To evaluate longitudinal reproducibility, identical specimens were sent to six US commercial labs on five dates over an 8-month period. To evaluate within-run reproducibility, on the fifth date, each lab was sent five identical specimens. Labs were unaware of the investigation.ResultsLongitudinal coefficients of variation (CVs) ranged from 5.4% to 37.6% for NTX and from 3.1% to 23.6% for BAP. Within-run CVs ranged from 1.5% to 17.2% for NTX. Compared to the Osteomark NTX assay, the Vitros ECi NTX assay had significantly higher longitudinal reproducibility (mean CV 7.2% vs. 30.3%, p < 0.0005) and within-run reproducibility (mean CV 3.5% vs. 12.7%, p < 0.0005).ConclusionsReproducibility of urine NTX and serum BAP varies substantially across US labs.

Changes in vertebral bone marrow fat and bone mass after gastric bypass surgery: A pilot study☆ , ☆☆ ,★

Bone marrow fat may serve a metabolic role distinct from other fat depots, and it may be altered by metabolic conditions including diabetes. Caloric restriction paradoxically increases marrow fat in mice, and women with anorexia nervosa have high marrow fat. The longitudinal effect of weight loss on marrow fat in humans is unknown. We hypothesized that marrow fat increases after Roux-en-Y gastric bypass (RYGB) surgery, as total body fat decreases. In a pilot study of 11 morbidly obese women (6 diabetic, 5 nondiabetic), we measured vertebral marrow fat content (percentage fat fraction) before and 6 months after RYGB using magnetic resonance spectroscopy. Total body fat mass declined in all participants (mean ± SD decline 19.1 ± 6.1 kg or 36.5% ± 10.9%, p<0.001). Areal bone mineral density (BMD) decreased by 5.2% ± 3.5% and 4.1% ± 2.6% at the femoral neck and total hip, respectively, and volumetric BMD decreased at the spine by 7.4% ± 2.8% (p<0.001 for all). Effects of RYGB on marrow fat differed by diabetes status (adjusted p=0.04). There was little mean change in marrow fat in nondiabetic women (mean +0.9%, 95% CI -10.0 to +11.7%, p=0.84). In contrast, marrow fat decreased in diabetic women (-7.5%, 95% CI -15.2 to +0.1%, p=0.05). Changes in total body fat mass and marrow fat were inversely correlated among nondiabetic (r=-0.96, p=0.01) but not diabetic (r=0.52, p=0.29) participants. In conclusion, among those without diabetes, marrow fat is maintained on average after RYGB, despite dramatic declines in overall fat mass. Among those with diabetes, RYGB may reduce marrow fat. Thus, future studies of marrow fat should take diabetes status into account. Marrow fat may have unique metabolic behavior compared with other fat depots.

Serum 25-hydroxyvitamin D concentration does not independently predict incident diabetes in older women

To investigate whether 25‐hydroxyvitamin D concentration was associated with incident diabetes in a large cohort of older women.

Gastric bypass in obese rats causes bone loss, vitamin D deficiency, metabolic acidosis, and elevated peptide YY

BACKGROUND Metabolic bone disease and bariatric surgery have long been interconnected. The objective of this study is to better understand the mechanisms of bone mass loss after Roux-en-Y gastric bypass (RYGB) surgery. We evaluated mineral homeostasis and bone mass in diet-induced obese (DIO) rats after RYGB or sham surgery. METHODS Twelve DIO male Sprague Dawley rats underwent RYGB (n = 8) or sham (n = 4) surgery at 21 weeks of age. Postoperatively, animals ate an ad libitum 40% fat, normal calcium diet and were euthanized 22 weeks later. Serum and urine chemistries, insulin, leptin, bone turnover markers (BTM), and calciotropic and gut hormones were measured before and 22 weeks after surgery. Femurs were analyzed using microcomputed tomography (µCT). RESULTS Compared to sham, RYGB animals had lower serum bicarbonate, calcium, 25-hydroxyvitamin D, insulin, and leptin levels with higher serum parathyroid hormone, peptide YY, and urinary calcium at 43 weeks of age. Sham control rats gained weight and had coupled decreases in formation (P1NP and OC) and unchanged resorption (CTX) BTMs. Comparatively, RYGB animals had higher serum CTX and OC but even lower P1NP levels than controls. µCT revealed lower trabecular bone volume, number, and thickness and lower cortical bone volume, thickness, and moment of inertia relative to controls. CONCLUSION In rats with DIO, long-term RYGB-associated bone resorption appears to be driven in part by vitamin D malabsorption and secondary hyperparathyroidism. Other mechanisms, such as chronic acidosis, changes in fat-secreted hormones, and persistently elevated gut-derived hormone peptide YY, may also contribute to observed bone mass differences. Further investigation of these potential contributors to bone loss may lead to new targets for skeletal maintenance after RYGB.