Evaluation of Bone Disease in Morbidly Obese Women After Gastric Bypass and Risk Factors Implicated in Bone Loss

Background  In patients undergoing gastric bypass, massive weight loss and impairment of calcium intake and absorption in the duodenum and proximal jejunum may increase the risk of bone mass loss and fractures. However, few data are available regarding the impact of this surgery on the skeleton. The aim of our study was to examine the skeletal changes in a cohort of morbidly obese Caucasian women during the first year after gastric bypass and to analyse the factors implicated in the development of bone loss. Methods  Sixty-two morbidly obese white women aged 45.3 ± 8.9 years were studied. Anthropometric measurements, bone mineral density (BMD) screening using dual-energy X- ray absorptiometry and plasma determinations of calcium, phosphorus, parathyroid hormone (PTH), 25-hydroxyvitamin D [25(OH) D₃] and insulin-like growth factor-I (IGF-I) were made prior to and 12 months after surgery. Results  A year after surgery, BMD significantly decreased at the femoral neck (10.2 ± 5.7%) and at the lumbar spine (3.2 ± 4.4%). In the follow-up, 16.1% of women had osteopenia at the femoral neck and 19.3% at the lumbar spine, and 1.6% developed osteoporosis at the lumbar spine. Patients with bone disease were significantly older; the percentage of women with menopause was greater in this group and had lower initial and final values of lean mass. However, no differences in body mass index, weight loss, fat mass, calcium, PTH, 25(OH) D₃ or IGF-I values were found between groups. In the logistic regression analysis, lean mass 12 months after surgery and menopause were found to be the main determinants of osteopenia after adjusting for age with odds ratios of 0.82 and 9.13, respectively. Conclusions  There is a significant BMD loss at the femoral neck and lumbar spine a year after gastric bypass. Menopausal patients and those with greater lean mass loss are at greater risk and, consequently, should be closely followed up with periodic densitometries.     

Effect of raloxifene after recombinant teriparatide [hPTH(1–34)] treatment in postmenopausal women with osteoporosis

Summary Loss of bone mineral density occurs after discontinuation of teriparatide, if no subsequent treatment is given. Sequential raloxifene prevented rapid bone loss at lumbar spine and further increased bone mineral density (BMD) at femoral neck, whether raloxifene was started immediately or after a one-year delay following teriparatide treatment. Introduction We compared the sequential effects of raloxifene treatment with a placebo on teriparatide-induced increases in bone mineral density (BMD). A year of open-label raloxifene extended the study to assess the response with and without delay after discontinuation of teriparatide. Methods Following a year of open-label teriparatide 20 μg/day treatment, postmenopausal women with osteoporosis were randomly assigned to raloxifene 60 mg/day (n = 157) or a placebo (n = 172) for year 2, followed by a year of open-label raloxifene. BMD was measured by dual energy x-ray absorptiometry. Results The raloxifene and placebo groups showed a decrease in lumbar spine (LS) BMD in year 2 for raloxifene and placebo groups (−1.0 ± 0.3%, P = 0.004; and −4.0 ± 0.3%, P < 0.001, respectively); the decrease was less with raloxifene (P < 0.001). Open-label raloxifene treatment reversed the LS BMD decrease with a placebo, resulting in similar decreases 2 years after randomization (−2.6 ± 0.4% (raloxifene-raloxifene) and −2.7 ± 0.4% (placebo-placebo). At study end, LS and femoral neck (FN) BMD were higher than pre-teriparatide levels, with no significant differences between the raloxifene-raloxifene and placebo-raloxifene groups, respectively (LS: 6.1 ± 0.5% vs. 5.1 ± 0.5%; FN: 3.4 ± 0.6% vs. 3.0 ± 0.5%). Conclusion Sequential raloxifene prevented rapid bone loss at the LS and increased FN BMD whether raloxifene was started immediately or after a one-year delay following teriparatide treatment. Preliminary data presented previously at the International Osteoporosis Foundation World Congress on Osteoporosis, Toronto Canada June 2–6, 2006, abstract published: Adami S, Munoz-Torres M, Econs MJ, Sipos A, Xie L, Dalsky GP, McClung M, Felsenberg D, Brown JP, Brandi ML, San Martin J. Effect of raloxifene after teriparatide treatment in postmenopausal women with osteoporosis. Osteoporos Int. 2006;17(Suppl 2):S137.     

Ten-year prediction of osteoporosis from baseline bone mineral density: development of prognostic thresholds in healthy postmenopausal women. The Danish Osteoporosis Prevention Study

Osteopenia is common in healthy women examined in the first year or two following menopause. Short-term fracture risk is low, but we lack algorithms to assess long-term risk of osteoporosis. Because bone loss proceeds at only a few percent per year, we speculated that baseline bone mineral density (BMD) would predict a large proportion of 10-year BMD and be useful for deriving predictive thresholds. We aimed to identify prognostic thresholds associated with less than 10% risk of osteoporosis by 10 years in the individual participant, in order to allow rational osteodensitometry and intervention. We analyzed dual energy X-ray absorptometry (DXA) of the lumbar spine (LS) and femoral neck (FN) from 872 women, who participated in the non-HRT arms of the Danish Osteoporosis Prevention Study and had remained on no HRT, bisphosphonates or raloxifene since inclusion 10 years ago. We defined development of a T -score below –2.5 at the LS and/or FN or incident fracture as end-point, and we derived prognostic thresholds for baseline BMD, defining 90% NPV (negative predictive value) and 90% sensitivity, respectively. Seventy-six percent of the variation in BMD of the LS at 10 years was predicted by baseline BMD. In an individual participant, a baseline BMD T -score above –1.4 (FN or LS, whichever was lower) was associated with a 10-year risk of less than 10% of developing osteoporotic BMD or fracture. This covered 69% of the population. By contrast, participants with T -scores below –1.4 had a 56% risk of fracture or low BMD within 10 years. At the population level, baseline T -score cutoffs below 0 at the LS (68% of the population), 0 at the FN (72%) or –0.6 (62%) at the lower of the two sites capture 90% of the population that developed osteoporosis during the following 10 years. A BMD measurement, performed in the first two years following menopause, is a strong long-term predictor of BMD in healthy women. The association is strong enough to provide robust prognostic thresholds, which can be used to divide the population into two prognostic classes at menopause.     

Determinants of bone mineral density in Chinese-American women

Summary Few data are available regarding bone mineral density (BMD) and its determinants among Chinese Americans. We identified determinants of BMD among 359 Chinese-American women in order to identify risk factors for low BMD in this burgeoning population. BMD in Chinese-American women is influenced by a number of factors, including immigration. Introduction Osteoporosis and low BMD are common among Chinese women, including Chinese Americans, who are a growing population at risk for osteoporosis in the US. Few data are available regarding BMD and its determinants among Chinese-American women. Methods In this study, we examined predictors of BMD in 359 ambulatory Chinese-American women, ages 20–90, using stepwise multiple regression analysis. Variables in the model included age, weight, height, menarche age, years since menopause, immigration age, years in US, percentage of life in US, number of pregnancies, oral contraceptive use, family history of osteoporosis, family history of hip fracture, daily calcium intake, exercise, time outdoors, alcohol consumption and tobacco use. Results Among premenopausal women, weight was the strongest predictor of BMD, accounting for 10.5% of the variance at the lumbar spine (LS), 15.2% at the total hip (TH) and 16.6% at the femoral neck (FN). Time outdoors was also a positive predictor of BMD (1.4% at LS, 2.8% at TH and 1.6% at FN), while family history of osteoporosis (1.4% at TH) and age (3.7% at FN) were negative predictors. Among postmenopausal women, greater BMD at the LS and TH was associated with greater weight and earlier immigration age. Weight accounted for 16.4% of the variance at the LS and 19.8% at the TH; immigration age accounted for 3.1% of the variance at the LS and 4.1% at the TH. At the FN, years since menopause and weight were predictors of BMD, accounting for 14.4% and 8.7% of the variance, respectively. While older age at immigration had a negative effect on BMD, years in and proportion of life in the United States were not significant predictors of BMD. Conclusions Bone mineral density in Chinese-American women is influenced by a number of biological and lifestyle factors, including immigration. The results of this study provide new insights into risk factors for low bone density as they relate to environmental determinants in the growing population of Chinese-American women.     

Telomere length in leukocytes correlates with bone mineral density and is shorter in women with osteoporosis

Summary Telomere length decreases with age and is associated with osteoblast senescence. In 2,150 unselected women, leukocyte telomere length was significantly correlated with bone mineral density. Clinical osteoporosis was associated with shorter telomeres, suggesting that telomere length can be used as a marker of bone aging. Introduction The length of telomeres in proliferative cells diminishes with age. Telomere shortening and telomerase activity have been linked to in vitro osteoblast senescence and to increased secretion of pro-inflammatory cytokines. We explored whether bone mineral density correlates with telomere length in leukocytes. Materials and methods The relationship between leukocyte telomere length, bone mineral density (BMD) and osteoporosis (as defined by the World Health Organization) was examined in a cohort of 2,150 women from a population-based twin cohort aged 18–79. Results After adjusting for age, body mass index, menopausal status, smoking, hormone replacement therapy status, telomere length was positively correlated with BMD of the spine (p < 0.005), forearm (p < 0.013), but not the femoral neck (p < 0.06). Longer telomeres were associated with reduced the risk of clinical OP at two or more sites (odds ratio = 0.594 95% CI 0.42–0.84 p < 0.003) and in women over the age of 50, clinical osteoporosis was associated with 117 bp shorter telomere length (p < 0.02) equivalent to 5.2 years of telomeric aging. Conclusions Shortened leukocyte telomere length is independently associated with a decrease in BMD and the presence of osteoporosis in women. Our data provide evidence that leukocyte telomere length could be a marker of biological aging of bone.     

The Prevention of Osteoporosis Using Sequential Low-Dose Hormone Replacement Therapy with Estradiol-17β and Dydrogesterone

Low-dose hormone replacement therapy (HRT) in postmenopausal women may produce fewer side-effects but its efficacy in the prevention of bone loss and osteoporosis is not established. To address this we compared the effect of 1 mg estradiol-17β with a 2 mg dose, in combination with cyclical dydrogesterone, in the prevention of postmenopausal bone loss. We conducted a multicenter double-masked prospective randomized, placebo-controlled study in 595 apparently healthy postmenopausal women randomized to either placebo, or continuous oral estradiol-17β 1 mg or 2 mg with sequential dydrogesterone for 2 years. The primary endpoint was the percentage change from baseline in bone mineral density (BMD) in the lumbar spine (LS) and femoral neck (FN) of actively treated groups compared with placebo. Women taking either 1 mg or 2 mg estradiol-17β showed a significant increase in BMD of the LS (mean ± SD, 5.2 ± 3.8% and 6.7 ± 4.0% respectively, both p <0.001) whilst BMD in the placebo group decreased (–1.9 ± 4.0%). Increases were also observed in FN BMD in both treated groups (2.7 ± 4.2% and 2.5 ± 5.2% respectively, both p <0.001) in contrast to the placebo group (–1.8 ± 4.8%). The oldest women showed the greatest treatment response. One milligram estradiol-17β in combination with dydrogesterone is effective in conserving LS and proximal femur bone mass, both of which are clinically important sites of osteoporotic fracture, and is as effective as 2 mg in preventing FN bone. The lower dose of estradiol-17β is a particularly suitable treatment for osteoporosis management in older women since it should minimize side-effects and improve the acceptability of HRT. Received: 19 June 2000 / Accepted: 26 October 2000     

Vertebral Fracture Risk Is Reduced in Women Who Lose Femoral Neck BMD With Teriparatide Treatment

Response to osteoporosis therapy is often assessed by serial BMD testing. Patients who lose BMD without secondary causes of bone loss may be considered to be “nonresponders” to treatment. We examined vertebral fracture (VF) risk, change in lumbar spine (LS) BMD, and change in amino‐terminal extension peptide of procollagen type I (PINP) in postmenopausal women whose femoral neck (FN) BMD decreased, increased, or was unchanged after receiving teriparatide (TPTD) or placebo (PL) in the Fracture Prevention Trial. FN and LS BMD were measured at baseline and 12 mo. VFs were assessed by lateral spine radiographs at baseline and study endpoint. A BMD change from baseline of >4% was considered to be clinically significant. Decreases of >4% FN BMD were less common in women receiving TPTD (10%) versus PL (16%, p < 0.05), yet women on TPTD who lost FN BMD still had significant reductions in VF risk compared with PL (RR = 0.11; 95% CI = 0.03–0.45). VF risk reduction with TPTD compared with PL was similar across categories of FN BMD change from baseline at 12 mo (loss >4%, loss 0–4%, gain 0–4%, or gain >4%; interaction p = 0.40). Irrespective of FN BMD loss or gain, TPTD‐treated women had statistically significant increases in LS BMD and PINP compared with PL. In both groups, losses or gains in FN BMD at 12 mo corresponded to losses or gains in BMC rather than changes in bone area. In conclusion, loss of FN BMD at 12 mo in postmenopausal women with osteoporosis treated with TPTD is nevertheless consistent with a good treatment response in terms of VF risk reduction.     

Influence of weight and weight change on bone loss in perimenopausal and early postmenopausal Scottish women

Weight is recognized as an important factor in determining an individuals risk of osteoporosis. However, little is known about whether weight or weight change influences bone loss around the time of the menopause, and the relationship with energy intake and physical activity level remains largely undefined. Healthy premenopausal women (1,064 selected from a random population of 5,119 women aged 45–54 years at baseline) each had bone mineral density (BMD), weight and height measurements, and completed a food frequency and physical activity questionnaire. Of the original participants, 907 women (85.2%) returned 6.3 ± 0.6 years later for repeat BMD measurements, and 896 women completed the questionnaires. Bone loss at the hip (FN) and spine (LS) occurred before the menopause. Weight change rather than weight was associated with FN BMD loss (r=0.102, p=0.002), but weight at follow-up was associated with LS BMD change (r=0.105, p=0.002). Although an increase in physical activity level (PAL) appeared to be beneficial for FN BMD in women who were heavy weight gainers, PAL was associated with increased LS BMD loss in women who lost weight. For current HRT users, neither weight nor weight change was associated with change in BMD. Postmenopausal women not taking HRT should be made aware that low body weight or losing weight during this particularly vulnerable period may worsen bone loss.     

Response to Alendronate in Osteoporosis after Previous Treatment with Etidronate

Bisphosphonates such as etidronate and alendronate are widely accepted as effective agents for the treatment of osteoporosis. However, some physicians find the choice of which one to use in different patients, and the comparative magnitude of response, unclear. Fifty postmenopausal women with osteoporosis [group 1: 27 women who had received 3 years of previous cyclical etidronate treatment, mean age 70.5 years, bone mineral density (BMD) mean T-score lumbar spine (LS) −3.58 and femoral neck (FN) −2.51; group 2: 23 women who had not previously received cyclical etidronate treatment, mean age 73.7 years, BMD mean T-score LS −3.65 and FN −2.96] were treated with 10 mg alendronate daily, to determine whether pretreatment with etidronate affected the response to alendronate, and whether patients who did not respond to etidronate, responded to alendronate. There was a significant increase in LS BMD after 2 years of treatment with alendronate compared with baseline (group 1: 7.84%, p<0.001; group 2: 6.69%, p<0.001), but there was no statistical difference between the groups. In the group 1 patients there was a significant difference between the initial response (at the LS BMD) to 2 years of cyclical etidronate (1.86%) and later response to 2 years of alendronate (7.84%) (p<0.0001). The 10 patients who did not respond at the LS to etidronate alone, showed a significantly better response (mean BMD change +6.3%) when subsequently treated with alendronate (a net difference of 9.3%, p = 0.002). In 15 patients who did not respond at the FN to etidronate alone, the mean response to alendronate was +0.96% (a difference of 7%, p = 0.004). This study shows that pretreatment with 3 years of cyclical etidronate is not detrimental to the subsequent LS BMD response to alendronate. There is evidence that alendronate produced a greater bone density response than etidronate, and patients who did not respond to etidronate with an increase in LS bone density, subsequently did so following alendronate. Received: 22 June 1999 / Accepted: 18 January 2000     

Baseline BMD and Bone Loss at Distal Radius Measured by Peripheral Quantitative Computed Tomography in Peri- and Postmenopausal Hong Kong Chinese Women

The current study was designed to investigate the rate of bone loss in distal radius and its association with baseline volumetric bone mineral density (BMD) and years since menopause (YSM) in peri- and postmenopausal women using precise and multislice peripheral quantitative computed tomography (pQCT; Densiscan 2000). Two hundred and five healthy Hong Kong Chinese perimenopausal (n = 26) and postmenopausal (n = 179) women within 10 years of the onset of menopause were recruited. Anthropometric parameters and menstrual status were also measured. The linear regression model derived from the baseline volumetric BMD revealed a significant and slightly better correlation with YSM than age, with a YSM-related annual decline of 2.56%, 1.82% and 0.65% in trabecular BMD (tBMD), integral BMD (iBMD) and cortical BMD (cBMD), respectively. Follow-up measurements after a time interval of 12 months showed that the rate of bone loss was higher than the annual decline in BMD calculated from the baseline BMD, with decreases of 2.89%, 2.16% 0.91% in tBMD, iBMD and cBMD, respectively. Baseline BMD was associated with age or YSM (r ranges from −0.283 to −0.502; p<0.001 in all cases), but no relationship was found between annual rate of bone loss and age or YSM. The rate of bone loss did not correlate with baseline volumetric BMD values or YSM after dividing the subjects into fast bone losers (with annual tBMD loss ≥3%), normal bone losers (with annual tBMD loss ≥ 1% but <3%) or slow bone losers (with annual tBMD loss <1%). The rate of bone loss was greater in both trabecular and cortical bone of postmenopausal women within the first 3 menopausal years but was only significant in the iBMD as compared with perimenopausal and postmenopausal women over 7 years after onset of menopause. The percentage distribution of slow and fast bone losers was not found to be associated with YSM. As a total of only 4 fracture cases were documented, the study could not provide conclusive information on whether perimenopausal and early postmenopausal baseline volumetric BMD or rate of bone loss determines the development of osteoporosis or fracture occurrence. Received: 12 November 2001 / Accepted: 18 July 2002     

Clinical Performance of a Highly Portable, Scanning Calcaneal Ultrasonometer

The aim of this study was to establish a normative database, assess precision, and evaluate the ability to identify women with low bone mass and to discriminate women with fracture from those without for a highly portable, scanning calcaneal ultrasonometer: the QUS-2. Fourteen hundred and one Caucasian women were recruited for the study. Among them were 794 healthy women 25–84 years of age evenly distributed per 10-year period to establish a normative database. Of these, 171 aged 25–34 years were defined as the young normal group for the purpose of T-score determination. Precision was assessed within 1 day (short-term) and over a 16-week period (long-term) in 79 women aged 25–84 years. Five hundred twenty-eight women ranging from 50 to 84 years of age with or without prevalent fractures of the spine, hip or forearm were measured to compare the QUS-2 with bone mineral density (BMD) of the hip and spine. Mean calcaneal broadband ultrasound attenuation (BUA) was constant in healthy women from 25 to 54 years of age and decreased with increasing age thereafter. Short-term precision, with and without repositioning of the heel, and long-term precision yielded comparable results (BUA SDs of 2.1–2.4 dB/MHz, coefficients of variations (CVs) of 2.5–2.9%). Calcaneal BUA was significantly correlated with BMD of the total hip (TH), femoral neck (FN) and lumbar spine (LS) in 698 women (r= 0.6–0.7, all p<0.0001). A similar relationship was observed for LS BMD compared with either TH or FN BMD (r= 0.7, p<0.0001). Prevalence of osteoporosis in our population (WHO criteria) was 20%, 17%, 21%, and 24% for BUA, BMD of the TH, FN and LS, respectively. Age-adjusted values for a 1 SD reduction in calcaneal BUA and TH and FN BMD predicted prevalent fractures of the spine, forearm, and hip with significant (p<0.05) odds ratios of 2.3, 2.0 and 2.1, respectively. Areas under the receiver operating characteristic curves for age-adjusted bone mass values predicting prevalent fracture were 0.62 for BUA, 0.59 for TH BMD, 0.60 for FN BMD, and 0.57 for LS BMD; all statistically equivalent. We conclude that the QUS-2 calcaneal ultrasonometer exhibits reproducible clinical performance that is similar to BMD of the spine and hip in identifying women with low bone mass and discriminating women with fracture from those without. Received: 19 July 2000 / Accepted: 6 December 2000     

Sister’s fracture history may be associated with perimenopausal bone fragility and modifies the predictability of fracture risk

Summary  The present study investigated the effects of first degree relatives’ fractures on fracture incidence after the menopause. Sister’s, but not other relatives’, wrist or hip fracture history was associated with increased risk of fragility fractures after the menopause. This suggests genetic predisposition to bone fragility among postmenopausal women. Objective  The aim of the present study was to investigate the association between first degree relatives’ fractures and perimenopausal bone fragility. Materials and methods  The study sample of 971 perimenopausal women was extracted from randomly selected Kuopio Osteoporosis Risk Factor and Prevention cohort and measured with dual X-ray absorptiometry in femoral neck (FN) in baseline (1989–1991), in 5 years (1994–97), and in 10 years (1999–2001). All low-trauma energy fractures during the 10-year follow-up were recorded based on self-reports and validated from medical records. First degree relatives’ history of life-time hip and wrist fractures (exact classification or trauma energy not specified) was questioned by postal inquiries. Results  There was a significant correlation between fathers’ vs. brothers’ and mothers’ vs. sisters’ fractures (p < 0.01 in Pearson bivariate correlations). Sister’s, but not mother’s, father’s, or brother’s wrist and hip fractures were associated with significantly lowered 10-year fragility fracture-free survival rate (HR = 0.56, p = 0.006). Sisters’ or other relatives’ fractures were not associated with FN bone loss rate or bone mineral density (BMD) in the follow-up measurements (p = NS in ANCOVA). The predictive power of BMD for fragility fractures differed according to sisters’ fracture history: Baseline FN T score predicted fracture-free survival only among women without sisters’ fracture history (HR 0.62, p < 0.001 vs. women with sisters’ fracture in Cox regression). Conclusions  In conclusion, sisters’ fracture history is associated with 10-year fracture-free survival in perimenopausal women but not with BMD or its changes. Predictability of fragility fracture risk with BMD may depend on sister’s fracture history. This may indirectly suggest genetic predisposition to bone fragility independently of BMD.     

Natural history and risk factors for bone loss in postmenopausal Caucasian women: a 15-year follow-up population-based study

SUMMARY: In this 15-year follow-up study, we found that the estimated rate of bone loss at the femoral neck (FN) for women aged 45-68 was linear at a rate of 1.67% per year, but quadratic for lumbar spine (LS) at a rate of 3.12% initially, and slowing down with age. We also confirmed the protective role of HRT, increasing weight, and lean mass in long-term bone loss. INTRODUCTION: The objective was to describe the natural history of bone loss and explore the role of environmental factors in postmenopausal women over a 15-year period. METHODS: Bone mineral density (BMD) at the FN and the LS were measured in postmenopausal women from the Chingford Study. Height, weight, HRT status, and calcium/vitamin D supplement were assessed at each visit. Osteoarthritis of hip and spine was assessed by X-ray at baseline and at year 8. RESULTS: A total of 955 postmenopausal women with an average age of 54.7 at baseline were included. Both FN and LS BMD decreased significantly with age (p<0.0001). The decline was larger in the LS (-3.12% per year), which showed a quadratic relationship, than in the FN (-1.67% per year) with a linear relationship. The rate of bone loss was reduced by one third annually for the FN and LS respectively in current HRT users. Change in weight was positively associated with both DeltaFN and DeltaLS BMD (beta=0.16% and 0.09% change in DeltaFN and DeltaLS BMD per kilogramme change in weight respectively, p<0.0001 for both sites). Spine OA and progression were positively associated with DeltaLS BMD (beta=1.22% change in DeltaLS BMD per grade in spine OA and 0.45% change in DeltaLS BMD for patients who progressed, p<0.0001 for spine OA and p=0.002 for spine OA progression). Spine OA (beta=0.54% change in DeltaFN BMD per grade, p<0.0001), but not progression, and hip OA were positively associated with DeltaFN BMD. Furthermore, both age and body weight at baseline were positively associated with both DeltaFN and DeltaLS BMD (beta=0.02-0.04% change in DeltaFN and DeltaLS BMD per year increase in age at baseline and 0.004-0.007% change in DeltaFN and DeltaLS BMD per kilogramme increase in weight at baseline, all p<0.0001). CONCLUSION: This large population-based longitudinal study demonstrated that the decline of BMD over 15 years is linear with age for the FN, but quadratic for the LS. The study confirmed the protective role of HRT, increased weight and lean mass in long-term bone loss.     

Racial differences in bone loss and relation to menopause among HIV-infected and uninfected women

ObjectiveTo characterize changes in bone mineral density (BMD) according to race among HIV-infected and uninfected women, and to evaluate the relationship between race and menopause-related bone loss.MethodsDual X-ray absorptiometry measured BMD on study entry and a minimum of 18 months later in 246 HIV-infected and 219 HIV-uninfected women in the Menopause Study. Linear regression analyses determined percent annual BMD change at the total hip (TH), femoral neck (FN), and lumbar spine (LS) after adjusting for potential confounders. Race-stratified and HIV-infected subgroup analyses were performed.ResultsAt baseline, mean age was 45 years, 19% of women were postmenopausal. HIV-infected women were more likely to be black (58% vs. 38%), and had lower BMI and less cigarette exposure when compared to HIV-uninfected women. Women who were perimenopausal at baseline and postmenopausal at follow-up had the greatest TH bone loss (− 1.68%/yr, p < .0001) followed by those postmenopausal throughout (− 1.02%/yr, p = .007). We found a significant interaction between HIV status and race in multivariate analyses of BMD change at the FN and TH. In race-stratified analyses, HIV infection was associated with TH BMD loss in non-black women. Black women experienced greater menopause-associated decline in TH BMD compared with non-black women.ConclusionsThe association of HIV and BMD differs strikingly by race, as do the effects of the menopausal transition on bone. Determining the extent to which the effect of HIV on fracture risk varies by race will be crucial to identify HIV-infected women at greatest risk for osteoporotic fracture, particularly as they enter menopause.     

Estrogen receptor α CA dinucleotide repeat polymorphism is associated with rate of bone loss in perimenopausal women and bone mineral density and risk of osteoporotic fractures in postmenopausal women

Summary The association between a newly identified CA repeat polymorphism of the estrogen receptor alpha gene (ESR1) with osteoporosis was investigated. Postmenopausal women with <18 CA repeats had low BMD, increased rate of bone loss and increased fracture risk. Introduction Studies have shown that intronic dinucleotide repeat polymorphisms in some genes are associated with disease risk by modulating mRNA splicing efficiency. D6S440 is a newly identified intronic CA repeat polymorphism located downstream of the 5’-splicing site of exon 5 of ESR1. Methods The associations of D6S440 with bone mineral density (BMD), rate of bone loss and fracture risk were evaluated in 452 pre-, 110 peri- and 622 postmenopausal southern Chinese women using regression models. Results Post- but not premenopausal women with less CA repeats had lower spine and hip BMD. The number of CA repeats was linearly related to hip BMD in postmenopausal women (β = 0.008; p = 0.004). Postmenopausal women with CA repeats <18 had higher risks of having osteoporosis (BMD T-score<−2.5 at the spine: OR 2.46, 95% CI 1.30–4.65; at the hip: OR 3.79(1.64–8.74)) and low trauma fractures (OR 2.31(1.29–4.14)) than those with ≥18 repeats. Perimenopausal women with <18 CA repeats had significantly greater bone loss in 18 months at the hip than those with ≥18 repeats (−1.96% vs. −1.61%, p = 0.029). Conclusions ESR1 CA repeat polymorphism is associated with BMD variation, rate of bone loss and fracture risk, and this may be a useful genetic marker for fracture risk assessment. Funding Source: This project is supported by CRCG Grant, Bone Health Fund, Matching Grant and Osteoporosis and Endocrine Research Fund of the University of Hong Kong.     

Reduced bone mineral density in postmenopausal women self-reporting premenopausal wrist fractures

Postmenopausal fractures are associated with low bone mass; however, the role of low peak bone mass in young adults in determining subsequent osteoporosis suggests that premenopausal fractures may also be relevant. We therefore sought to determine whether a self-reported previous history of premenopausal wrist and nonwrist fractures could also be associated with bone density and therefore be used to predict osteoporosis. We recruited 453 volunteer women with a median age of 64 years (range 50-83 years), with no metabolic bone disease, previous femoral neck fracture, or prevalent vertebral fracture. Bone density at the femoral neck (FN) and lumbar spine (LS) was measured using a Lunar DPX-L. As expected, the 319 women who did not report any fracture had a higher T score at LS (-0.93 +/- 1.44) than the 134 women who reported a previous fracture at any site and at any age (T score -1.60 +/- 1.21, p < 0.001). The findings for the FN were similar. Compared with fracture-free women, the women who reported a first wrist fracture before menopause now had a lower LS T score (-1.77 +/- 1.20, n = 15, p < 0.05), whereas those who reported a nonwrist fracture showed no significant decrease in their LS T score (-1.26 +/- 1.00, n = 36). When both wrist and nonwrist fractures had occurred after menopause, the T score was significantly lower. Twenty percent of the fracture-free women were osteoporosis patients. After adjusting for body weight, age, hormonal replacement therapy (HRT), and hip fracture in the family, the relative risk (RR) of osteoporosis for premenopausal wrist fractures was 2.7 (95% confidence interval 1.4-4.3) vs. 1.2 (0.7-2.4) for women with premenopausal nonwrist fractures. We conclude that self-reported premenopausal wrist fractures, but no other fractures occurring before menopause, are likely to be associated with osteoporosis at 65 years of age, and therefore constitute strong grounds for screening.     

A C >T polymorphism located at position −1 of the Kozak sequence of CD40 gene is associated with low bone mass in Spanish postmenopausal women

SUMMARY: This study evaluated the association of a polymorphism in the CD40 gene with BMD and risk of osteopenia or osteoporosis in a population of 602 postmenopausal women. Results showed that women with the TT genotype had lower BMD at femoral neck and spine sites and increased risk of osteopenia or osteoporosis. INTRODUCTION: Recent findings have demonstrated that the CD40/CD40L system, which is of main importance for the immune system, can also be implied in the regulation of bone metabolism. The main objective of the present work has been to clarify whether single nucleotide polymorphisms (SNPs) affecting genes of CD40/CD40L system could be linked with abnormalities in the level of bone mineral density (BMD) in menopausal women. METHODS: We performed an association study of BMD values with a SNP located at position -1 of the Kozak consensus sequence of CD40 gene (rs1883832; C>T) in a population of 602 postmenopausal women. RESULTS: Women with the TT genotype (8.6% of women) displayed a reduction in femoral neck BMD (FN BMD) and lumbar spine BMD (LS BMD) of 6.2% and of 6.3%, respectively, as compared to women with CC + CT genotype. Logistic regression analysis adjusted for age, weight, and height showed that women with the TT genotype had increased risk for FN (odds ratio: 2.34; 95% CI: 1.12-4.89) and LS (odds ratio: 2.49; 95% CI: 1.19-5.24) osteopenia or osteoporosis. CONCLUSIONS: Women with the TT genotype in rs1883832 SNP affecting to Kozak consensus sequence of CD40 gene had lower BMD at FN and at LS sites and increased risk of osteopenia or osteoporosis.     

Association between DHEAS and Bone Loss in Postmenopausal Women: A 15-Year Longitudinal Population-Based Study

Our aim was to examine the association between serum dehydroepiandrosterone sulfate (DHEAS) at baseline and BMD change at the femoral neck (FN) and lumbar spine (LS) in postmenopausal women during a 15-year follow-up. All participants were from the Chingford Study. BMD at the FN and LS were measured eight times during the 15-year follow-up by dual-energy X-ray absorptiometry. DHEAS at baseline was measured using radioimmunoassay. Data on height, weight, and hormone-replacement therapy (HRT) status were obtained at each visit. Multilevel linear regression modeling was used to examine the association between longitudinal BMD change at the FN and LS and DHEAS at baseline. Postmenopausal women (n = 1,003) aged 45–68 years (mean 54.7) at baseline were included in the study. After adjustment for baseline age, estradiol, HRT, and BMI, BMD at the FN decreased on average 0.49% (95% CI 0.31–0.71%) per year; and the decline was slowed down by 0.028% per squared year. Increase of DHEAS (each micromole per liter) was associated with 0.49% less bone loss at the FN (95% CI 0.21–0.71%, P = 0.001). However, this strong association became slightly weaker over time. Similar but weaker results were obtained for LS BMD. Our data suggest that high serum DHEAS at baseline is associated with less bone loss at both FN and LS and this association diminishes over time. The nature of the association is unclear, but such an association implies that, in managing BMD loss, women might benefit from maintaining a high level of DHEAS.     

Relative Importance of Lean Mass and Fat Mass on Bone Mineral Density in a Group of Lebanese Postmenopausal Women

The aim of this study was to determine the relative importance of lean mass and fat mass on bone mineral density (BMD) in a group of Lebanese postmenopausal women. One hundred ten Lebanese postmenopausal women (aged 65–84 yr) participated in this study. Age and years since menopause were recorded. Body weight and height were measured and body mass index (BMI) was calculated. Body composition (lean mass, fat mass, and fat mass percentage) was assessed by dual-energy X-ray absorptiometry (DXA). Bone mineral content (BMC) of the whole body (WB) and BMD of the WB, the lumbar spine (L1–L4), the total hip (TH), the femoral neck (FN), the ultra distal (UD) Radius, and the 1/3 Radius were measured by DXA. The expressions WB BMC/height and WB BMD/height were also used. Weight, BMI, fat mass, and lean mass were positively correlated to WB BMC, WB BMC/height, WB BMD/height, and to WB, L1–L4, TH, FN, UD Radius, and 1/3 Radius BMD. However, using multiple linear regression analyses, fat mass was more strongly correlated to BMC and to BMD values than lean mass after controlling for years since menopause. This study suggests that fat mass is a stronger determinant of BMC and BMD than lean mass in Lebanese postmenopausal women.     

Genetic markers for ancestry are correlated with body composition traits in older African Americans

Summary Individual-specific percent European ancestry was assessed in 1,277 African Americans. We found significant correlations between proportion of European ancestry and several musculoskeletal traits, indicating that admixture mapping may be a useful strategy for locating genes affecting these traits. Introduction Genotype data for admixed populations can be used to detect chromosomal regions influencing disease risk if allele frequencies at disease-related loci differ between parental populations. We assessed evidence for differentially distributed alleles affecting bone and body composition traits in African Americans. Methods Bone mineral density (BMD) and body composition data were collected for 1,277 African and 1,790 European Americans (aged 70–79). Maximum likelihood methods were used to estimate individual-specific percent European ancestry for African Americans genotyped at 37 ancestry-informative genetic markers. Partial correlations between body composition traits and percent European ancestry were calculated while simultaneously adjusting for the effects of covariates. Results Percent European ancestry (median = 18.7%) in African Americans was correlated with femoral neck BMD in women (r = −0.18, p < 10⁻⁵) and trabecular spine BMD in both sexes (r = −0.18, p < 10⁻⁵) independently of body size, fat, lean mass, and other covariates. Significant associations of European ancestry with appendicular lean mass (r = −0.19, p < 10⁻¹⁰), total lean mass (r = −0.12, p < 10⁻⁴), and total body fat (r = 0.09, p < 0.002) were also observed for both sexes. Conclusions These results indicate that some population differences in body composition may be due to population-specific allele frequencies, suggesting the utility of admixture mapping for identifying susceptibility genes for osteoporosis, sarcopenia, and obesity. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.