Mara J. Horwitz

Serum 25-Hydroxyvitamin D Concentrations and Risk for Hip Fractures

Context Vitamin D supplementation may help prevent fractures, but the relationship between blood vitamin D concentrations and fracture risk is unclear. Contribution These authors observed an increased risk for hip fracture among women with lower serum 25-hydroxyvitamin D [25(OH) vitamin D] concentrations that was independent of measures of frailty, body mass index, physical function, and falls. Caution The authors did not measure bone mineral density (BMD), so they could not determine whether 25(OH) vitamin D concentrations give different information about fracture risk than that offered by BMD. Implication Low serum 25(OH) vitamin D concentrations seem to be associated with a higher hip fracture risk. The Editors Vitamin D deficiency is common in older adults, especially during the winter (1) and in homebound populations (2), general medical inpatients (3), and community-dwelling women admitted to the hospital with acute hip fracture (4). A recently published evidence-based report on vitamin D and bone health (5) found the level of evidence for an association between serum 25-hydroxyvitamin D [25(OH) vitamin D] concentrations and fracture risk to be inconsistent (5). Since publication of that review, 1 prospective study (6) reported no relationship between serum 25(OH) vitamin D concentrations and fractures, whereas another (7) reported a significantly lower risk for hip fracture with 25(OH) vitamin D concentrations greater than 60 nmol/L. Vitamin D concentration could be associated with fractures in several ways. It could influence muscle strength and balance, both of which contribute to falls and disability (810). The association between 25(OH) vitamin D concentrations and fracture may also be influenced by renal function, because renal insufficiency has been linked to fracture (11) and to vitamin D deficiency (12). Several interactions between vitamin D and estrogen receptors have been described (13); hormone therapy has been shown to reverse abnormalities in vitamin D metabolism (14), and low vitamin D concentrations have also been linked to higher bone turnover (15, 16). Thus, sex-steroid hormones and bone turnover could contribute to the association between 25(OH) vitamin D concentration and fractures. We conducted a nested casecontrol study within the WHI-OS (Womens Health Initiative Observational Study) among 400 case-patients with adjudicated incident hip fracture and 400 control participants. We tested whether low serum 25(OH) vitamin D concentrations are associated with a higher risk for hip fractures in community-dwelling women and whether this relationship may be mediated by poor physical functioning, frailty, falls, sex-steroid hormones, renal function, or bone turnover. Methods Study Population Our study population came from the WHI-OS, a prospective cohort study that enrolled 93676 women between 1994 and 1998 at 40 U.S. clinical centers (age range, 50 to 79 years). Study methods are described in detail elsewhere (17). In brief, women were eligible if they were postmenopausal, were unlikely to move or die within 3 years, were not enrolled in the WHI clinical trials, and were not currently participating in any other clinical trial. The human subjects review committees from each participating institution approved the study. Follow-up and Outcome Ascertainment We sent women questionnaires annually to report any hospitalization and other outcomes, including fractures. As of August 2004, median follow-up duration was 7.1 years (range, 0.7 to 9.3 years). At that time, 3.7% of participants had withdrawn or were lost to follow-up and 5.3% had died. We reviewed medical records to verify cases of hip fracture, and blinded central adjudicators confirmed the cases (18). We excluded patients with pathologic hip fractures. Nested CaseControl Study Design The present study is a casecontrol study nested within the prospective design of WHI-OS. We excluded women who had a history of hip fracture; were receiving hormone therapy up to 1 year before enrollment; or were currently receiving androgens, selective estrogen receptor modulators, antiestrogens, or other osteoporosis treatments (bisphosphonates, calcitonin, or parathyroid hormone). We also excluded women with insufficient serum stored or of unknown ethnicity, leaving 39793 eligible participants. Of these, 404 women had a hip fracture. We randomly selected 400 of these women to form the incident hip fracture group. For each case-patient, we selected 1 control participant who was within 1 year of the case-patients age at screening, was of matching race or ethnicity, and had their blood drawn within 120 days of the case-patients blood draw date; 99% of case-patients and control participants were matched within 30 days. Baseline Clinical Variables We divided clinical centers into 3 geographic regions on the basis of latitude: northern (>40 N), middle (35 to 40 N), and southern (<35 N). We ascertained all covariates at baseline. Clinic interviewers recorded current use of prescription medications by direct inspection of medicine containers. We entered prescription names into the WHI database and assigned drug codes by using Medispan software (First DataBank, San Bruno, California). Average amounts of elemental calcium and vitamin D preparations were entered directly from supplement containers. Dietary intakes of calcium and vitamin D were assessed by using a semiquantitative food-frequency questionnaire (19). Total calcium and vitamin D intake was defined as the sum of diet and supplements. We used questionnaires to ascertain date of birth, race or ethnicity, age at menopause, history of any fracture after age 55 years, smoking, parental history of hip fracture, self-rated health status, and alcohol consumption. We classfied physical activity on the basis of frequency and duration of walking and mild, moderate, and strenuous activities in the previous week. We calculated kilocalories of energy expended in 1 week as the metabolic equivalent (kcal hours/week per kg) (20). We measured physical function by using the RAND Short Form-36 physical function scale, which comprises 10 items measuring whether health now limits physical function in moderate or vigorous activity (2 items); strength to lift, carry, stoop, bend, or stair climb (4 items); ability to walk various distances without difficulty (3 items); and self-care (1 item) (21). The scale is scored from 0 to 100, with higher scores indicating better physical function. We compared women with a score greater than 90 versus those with a score less than or equal to 90, a cutoff value corresponding to the median score. We computed a frailty score, which included self-reported muscle weakness and impaired walking speed (RAND Short Form-36 physical function scale score <75), exhaustion (RAND Short Form-36 vitality scale score <55), low physical activity (lowest quartile of physical activity), and unintended weight loss between baseline and 3 years of follow-up (22). A woman was considered frail if she reported 3 or more of these indicators. Weight was measured on a balance-beam scale with the participant dressed in indoor clothing without shoes. Height was measured by using a wall-mounted stadiometer. Body mass index was calculated as weight (in kg) divided by height (in m2). Laboratory Procedures Laboratory personnel blinded to casecontrol status obtained a 12-hour fasting blood sample at the baseline visit, which was processed and stored at 80C according to strict quality control procedures (23). Serum 25(OH) vitamin D concentrations and sex-steroid hormone levels were measured at the Reproductive Endocrine Research Laboratory at the University of Southern California. 25-Hydroxyvitamin vitamin D was measured by using a radioimmunoassay with DiaSorin reagents (DiaSorin, Stillwater, Minnesota). The sensitivity of the assay was 3.75 nmol/L. The interassay coefficients of variation were 11.7%, 10.5%, 8.6%, and 12.5% at 14.0, 56.8, 82.5, and 122.5 nmol/L, respectively. Estradiol and testosterone concentrations were quantified by using sensitive and specific radioimmunoassays after organic solvent extraction and celite column partition chromatography (2427). The intra- and interassay coefficients of variation were 7.9% and 8% to 12%, respectively, for estradiol and 6% and 10% to 12%, respectively, for testosterone. We calculated bioavailable hormone concentrations by using mass action equations (2830). We measured sex hormonebinding globulin by using a solid-phase, 2-site chemiluminescent immunoassay. The intra- and interassay coefficients of variation were 4.1% to 7.7% and 5.8% to 13%, respectively. Serum cystatin C, a marker of renal function that is independent of age and weight, was measured at Medical Research Laboratories International, Highland Heights, Kentucky, by using the Dade Behring BN-II nephelometer and Dade Behring reagents (Dade Behring, Ramsey, Minnesota) in a particle-enhanced immunonepholometric assay. Serum C-terminal telopeptide of type I collagen and aminoterminal procollagen extensions propeptide were measured by immunoassay (Synarc, Lyon, France). Statistical Analysis We used chi-square and t tests to compare baseline characteristics between case-patients with hip fracture and matched control participants. We assigned 25(OH) vitamin D concentrations to quartile categories defined on the basis of the distribution in the control participants. To further assess confounding, we compared baseline characteristics across quartiles of 25(OH) vitamin D concentrations in case-patients and control participants combined. We calculated the P values for trend by using logistic regression and coding the variable of interest as a continuous variable. We assessed the association between serum 25(OH) vitamin D concentrations and incident hip fracture in conditional logistic regression models that retained the matched casecontrol design. We first examined the unadjusted associations and then adjusted for age, b

Serum 25-hydroxyvitamin D and clinical fracture risk in a multiethnic cohort of women: The women's health initiative (WHI)

Low 25‐hydroxyvitamin D [25(OH)D] levels have been linked to hip fracture in white women. To study the association of 25(OH)D with risk of fracture in multiethnic women, we performed a nested case‐control study within the prospective Womens Health Initiative (WHI) Observational Study. Incident fractures were identified in 381 black, 192 Hispanic, 113 Asian, and 46 Native American women over an average of 8.6 years. A random sample of 400 white women who fractured was chosen. One control individual was selected per case and matched on age, race/ethnicity, and blood draw date. 25(OH)D, parathyroid hormone, and vitamin D–binding protein (DBP) were measured in fasting baseline serum. Conditional logistic regression models were used to calculate the odds ratio (OR) and 95% CI. In multivariable models, higher 25(OH)D levels compared with levels less than 20 ng/mL were associated with a lower risk of fracture in white women (20 to <30 ng/mL: OR = 0.82, 95% CI 0.58–1.16; ≤30.0 ng/mL: OR = 0.56, 95% CI 0.35–0.90; p trend = 0.02). In contrast, higher 25(OH)D (≥20 ng/mL) compared with levels less than 20 ng/mL were associated with a higher risk of fracture in black women (OR = 1.45, 95% CI 1.06–1.98; p trend = 0.043). Higher 25(OH)D (≥30.0 ng/mL) was associated with higher fracture risk in Asian women after adjusting for DBP (OR = 2.78, 95% CI 0.99–7.80; p trend = 0.04). There was no association between 25(OH)D and fracture in Hispanic or Native American women. Our results suggest divergent associations between 25(OH)D and fracture by race/ethnicity. The optimal level of 25(OH)D for skeletal health may differ in white and black women.

Continuous PTH and PTHrP Infusion Causes Suppression of Bone Formation and Discordant Effects on 1,25(OH)2Vitamin D

Osteoblast activity and plasma 1,25(OH)2vitamin D are increased in HPT but suppressed in HHM. To model HPT and HHM, we directly compared multiday continuous infusions of PTH versus PTHrP in humans. Continuous infusion of both PTH and PTHrP results in marked and prolonged suppression of bone formation; renal 1,25(OH)2D synthesis was stimulated effectively by PTH but poorly by PTHrP.

Parathyroid Hormone-Related Protein for the Treatment of Postmenopausal Osteoporosis: Defining the Maximal Tolerable Dose

CONTEXT PTH is the only approved skeletal anabolic agent for the treatment of human osteoporosis. Unlike PTH, which is a mixed anabolic and catabolic agent, PTHrP displays features suggesting that it may be a pure anabolic agent when intermittently administered. The full dose range of PTHrP is unknown. OBJECTIVES The primary objective of the study was to define the complete therapeutic window and dose-limiting toxicities of PTHrP. The secondary objective was to determine whether PTHrP retains a pure anabolic profile at the highest usable doses. DESIGN This was a single-blinded, two-part, dose-escalating clinical trial. SETTING The study was conducted in a university academic setting. PATIENTS OR OTHER PARTICIPANTS Participants included 41 healthy postmenopausal women between the ages of 45 and 75 yr. INTERVENTION INTERVENTIONs included PTHrP(1-36) or placebo in a dose-escalating design for 3 wk. MAIN OUTCOME MEASURES Safety measures (hypercalcemia, nausea, vomiting, hemodynamics, flushing, miscellaneous) and bone turnover markers were measured. RESULTS Intermittent PTHrP was administered safely and without serious adverse events in subjects receiving 500 and 625 microg/d for 3 wk. Subjects receiving 750 microg/d developed mild hypercalcemia. Bone turnover markers suggested that even at the highest doses, daily sc PTHrP may not activate bone resorption, i.e. may be purely anabolic. Interestingly, when hypercalcemia occurred, it may have resulted not from bone resorption but from activation of intestinal calcium absorption by 1,25 dihydroxyvitamin D. CONCLUSIONS In doses as high as 750 microg/d, in contrast to PTH, intermittently administered PTHrP appears to act as a pure skeletal anabolic agent. Surprisingly, PTHrP in the high doses studied activates 1,25 dihydroxyvitamin D production. Dosing information obtained herein can be used to design a longer term head-to-head comparative efficacy trial of PTHrP vs. PTH.

Adipokines and the Risk of Fracture in Older Adults

Adiponectin and leptin are adipokines that influence bone metabolism in vitro and in animal models. However, less is known about the longitudinal association of leptin and adiponectin with fracture. We tested the hypothesis that low leptin and high adiponectin levels are each individually associated with fracture risk in a prospective cohort study in Memphis and Pittsburgh among 3075 women and men aged 70 to 79 years from the Health Aging and Body Composition (Health ABC) study. There were 406 incident fractures (334 nonvertebral and 72 vertebral) over a mean of 6.5 ± 1.9 years. Cox regression was used to estimate the hazard ratios for fracture. Sex modified the association between adiponectin and fracture (p = .025 for interaction). Men with the highest adiponectin level (tertile 3) had a 94% higher risk of fracture [hazard ratio (HR) = 1.94; 95% confidence interval (CI) 1.20–3.16] compared with the lowest tertile (tertile 1; p = .007 for trend) after adjusting age, race, body mass index (BMI), education, diabetes, weight change, and hip bone mineral density (BMD). Among women, after adjusting for age and race, this association was no longer significant (p = .369 for trend). Leptin did not predict fracture risk in women (p = .544 for trend) or men (p = .118 for trend) in the multivariate models. Our results suggest that adiponectin, but not leptin, may be a novel risk factor for increased fracture risk independent of body composition and BMD and that these relationships may be influenced by sex. More research is needed to understand the physiologic basis underlying these sex differences.

Comparison of the minimal model and the hyperglycemic clamp for measuring insulin sensitivity and acute insulin response to glucose

Glucose clamp techniques are established methods for assessment of insulin sensitivity and secretion. The minimal model technique (MMT) has been proposed as an alternative approach to the hyperinsulinemic-euglycemic clamp technique for determination of an insulin sensitivity index (ISI), but has not been directly compared with the hyperglycemic clamp for measurement of ISI or insulin secretion. To address this issue, the present study was undertaken to compare determinations of ISI and the acute insulin response to glucose (AIRg) obtained using the MMT with similar measures obtained from a hyperglycemic clamp. Measures for ISI and AIRg obtained from MMT analysis of a tolbutamide-modified frequently sampled intravenous glucose tolerance test (FSIGT) were compared with similar measures obtained from a 3-hour hyperglycemic clamp performed at a plasma glucose level of 10 mmol/L (180 mg/dL). Paired comparisons were performed in 14 women with normal glucose tolerance. Significant positive correlation coefficients were obtained for both ISI (r = .88, P < .001) and AIRg (r = .75, P < .005) between the MMT and clamp studies. We conclude that indices for ISI and AIRg obtained with the MMT are highly correlated with those obtained using the hyperglycemic clamp. The MMT is a valid alternative to the hyperglycemic clamp for assessing insulin sensitivity and AIRg.

A Comparison of Parathyroid Hormone‐Related Protein (1–36) and Parathyroid Hormone (1–34) on Markers of Bone Turnover and Bone Density in Postmenopausal Women: The PrOP Study

Parathyroid hormone‐related protein (PTHrP)(1‐36) increases lumbar spine (LS) bone mineral density (BMD), acting as an anabolic agent when injected intermittently, but it has not been directly compared with parathyroid hormone (PTH)(1‐34). We performed a 3‐month randomized, prospective study in 105 postmenopausal women with low bone density or osteoporosis, comparing daily subcutaneous injections of PTHrP(1‐36) to PTH(1‐34). Thirty‐five women were randomized to each of three groups: PTHrP(1‐36) 400 µg/day; PTHrP(1‐36) 600 µg/day; and PTH(1‐34) 20 µg/day. The primary outcome measures were changes in amino‐terminal telopeptides of procollagen 1 (PINP) and carboxy‐terminal telopeptides of collagen 1 (CTX). Secondary measures included safety parameters, 1,25(OH)2 vitamin D, and BMD. The increase in bone resorption (CTX) by PTH(1‐34) (92%) (p < 0.005) was greater than for PTHrP(1‐36) (30%) (p < 0.05). PTH(1‐34) also increased bone formation (PINP) (171%) (p < 0.0005) more than either dose of PTHrP(1‐36) (46% and 87%). The increase in PINP was earlier (day 15) and greater than the increase in CTX for all three groups. LS BMD increased equivalently in each group (p < 0.05 for all). Total hip (TH) and femoral neck (FN) BMD increased equivalently in each group but were only significant for the two doses of PTHrP(1‐36) (p < 0.05) at the TH and for PTHrP(1‐36) 400 (p < 0.05) at the FN. PTHrP(1‐36) 400 induced mild, transient (day 15) hypercalcemia. PTHrP(1‐36) 600 required a dose reduction for hypercalcemia in three subjects. PTH(1‐34) was not associated with hypercalcemia. Each peptide induced a marked biphasic increase in 1,25(OH)2D. Adverse events (AE) were similar among the three groups. This study demonstrates that PTHrP(1‐36) and PTH(1‐34) cause similar increases in LS BMD. PTHrP(1‐36) also increased hip BMD. PTH(1‐34) induced greater changes in bone turnover than PTHrP(1‐36). PTHrP(1‐36) was associated with mild transient hypercalcemia. Longer‐term studies using lower doses of PTHrP(1‐36) are needed to define both the optimal dose and full clinical benefits of PTHrP.

The Calcemic Response to Continuous Parathyroid Hormone (PTH)(1-34) Infusion in End-Stage Kidney Disease Varies According to Bone Turnover: A Potential Role for PTH(7-84)

CONTEXT Factors contributing to PTH resistance in dialysis patients remain elusive. OBJECTIVES The study assessed the skeletal and biochemical response to 46 h of PTH(1-34) infusion in dialysis patients. DESIGN The study was a prospective, controlled assessment of response to PTH(1-34). SETTING The study was performed at the University of California, Los Angeles, General Clinical Research Center. PARTICIPANTS Nineteen dialysis patients and 17 healthy volunteers were studied. INTERVENTION PTH(1-34) was infused at a rate of 8 pmol/kg x h for 46 h. Bone biopsy was performed in all dialysis patients. MAIN OUTCOME MEASURES Serum calcium, phosphorus, 1,25-dihydroxyvitamin D, PTH (four separate assays), and FGF-23 were determined at baseline and h 7, 23, 35, and 46 of the infusion. RESULTS Serum calcium levels rose in healthy volunteers (9.2 +/- 0.1 to 11.9 +/- 0.3 mg/dl; P < 0.01) and in dialysis patients with adynamic/normal bone turnover (9.0 +/- 0.3 to 10.7 +/- 0.7 mg/dl; P < 0.05) but did not change in dialysis patients with high bone turnover. Serum phosphorus levels declined in healthy volunteers (3.9 +/- 0.1 to 3.5 +/- 0.1 mg/dl; P < 0.05) but increased in all dialysis patients (6.7 +/- 0.4 to 8.0 +/- 0.3 mg/dl; P < 0.05). Full-length PTH(1-84) declined in all subjects; however, PTH(7-84) fragments declined only in healthy subjects and in dialysis patients with normal/adynamic bone but remained unchanged in dialysis patients with high bone turnover. CONCLUSIONS The skeleton of dialysis patients with high bone turnover is resistant to the calcemic actions of PTH. PTH(7-84) may contribute to this phenomenon.

Parathyroid Hormone and Parathyroid Hormone-Related Protein Analogs as Therapies for Osteoporosis

Osteoporotic fractures result in significant morbidity and mortality. Anabolic agents reverse the negative skeletal balance that characterizes osteoporosis by stimulating osteoblast-dependent bone formation to a greater degree than osteoclast-dependent bone resorption. Parathyroid hormone (PTH) and parathyroid hormone- related protein (PTHrP) are peptide hormones, which have anabolic actions when administered intermittently. The only FDA-approved anabolic bone agent for the treatment of osteoporosis in the United States is PTH 1-34, or teriparatide, administered by daily subcutaneous injections. However, PTH 1-84 is also available in Europe. Synthetic human PTHrP 1-36 and a PTHrP 1-34 analog, BA058, have also been shown to increase lumbar spine bone density. These agents and several other PTH and PTHrP analogs, including some which are not administered as injections, continue to be investigated as potential anabolic therapies for osteoporosis.

Lactation and Bone Turnover: A Conundrum of Marked Bone Loss in the Setting of Coupled Bone Turnover

CONTEXT Mothers who exclusively breastfeed lose up to 10% of their bone mass. This is primarily mediated by PTHrP, in combination with low estrogen levels. The mechanisms underlying this marked bone loss are unknown. Uncoupling of bone turnover, which is seen in other prototypical states of bone loss, would seem the likely explanation. However, the most current markers of bone turnover have not been studied in human lactation. OBJECTIVES The purpose of this study was to assess bone formation in lactating humans using the most current bone turnover markers. DESIGN AND PARTICIPANTS We conducted a prospective cohort study with repeated measures of bone metabolism in a volunteer sample of 49 women, recruited into three study groups: lactating, bottle feeding, and healthy controls. The postpartum women were studied at 6-8 and 12-14 wk postpartum, whereas the controls were studied at the follicular phase of their menstrual cycles. OUTCOME MEASURES Biochemical markers of bone turnover were assessed. RESULTS Mean serum C-telopeptide of type I collagen, a sensitive marker of bone resorption, was approximately 2-fold higher in lactating women as compared with bottle-feeding and healthy controls (P = 0.037 and P < 0.001, respectively). Surprisingly, amino-terminal telopeptides of procollagen 1, the most current marker of bone formation, bone-specific alkaline phosphatase, and osteocalcin were all significantly higher in the lactating group as compared with controls (P < 0.001, P = 0.002, and P < 0.001, respectively). CONCLUSIONS In contrast to prototypical states of rapid bone loss (myeloma, cancer, and immobilization) in which markers of bone turnover display marked uncoupling, lactational bone loss, as assessed in this small exploratory study, is distinct, showing comparably rapid bone loss in the face of apparent osteoclast-osteoblast coupling.