Bone diminution of osteoporotic females at different skeletal sites

Summary The bone mineral density (BMD) of the radius and spine was determined by photo absorptiometry in a large number of controls (radius: n=111; spine: n=85; age range: 50–79 years) and osteoporotic women (radius: n=98; spine n=140; age range: 50–79 years) with at least one “atraumatic” vertebral compression fracture. Compared to age-matched controls, the BMD of the osteoporotic women showed the following diminutions: sixth decade: radius:−9.1%; spine:−25%; femur: −33%; seventh decade: radius:−16%; spine: −19%; femur:−23%; eighth decade: radius: −21%; spine:−20%; femur:−24%. The BMD was significantly diminished at all sites in all decades but in contrast to the radius, the difference from controls was bigger in the spine and femur in the sixth decade than in the seventh and eighth decade. In the osteoporotic women there was a significant correlation between radius BMD and age (4=−0.56;P<0.01) but not between spine or femoral BMD and age. The femoral neck BMD was also determined in a subset group of female controls (n=68), patients with crush fractures of the spine without a fracture of the hip (n=46), and in patients with fractures of the proximal femur (n=21). There was no difference among these groups in mean age (64±7, range: 50–79 years). Patients with hip fracture and spine fracture showed bone diminution in all three regions that was significantly below controls (P<0.001). The Ward's triangle region was specially diminished (−35%) and as a consequence the neck BMD was low (−26%). Trochanteric density was lower (−25%) in spine fracture cases than in hip fracture (−16%). The difference between the two groups of osteoporotic women was significant (P<0.05). In the hip fractures cases, spine BMD was reduced only moderately compared to controls (−14%,P<0.01) and slightly elevated compared to spinal osteoporosis where the diminution was greater (−24%,P<0.001). Again, the difference between the two osteoporotic groups was significant (P<0.05). It appeared that spinal osteoporosis involved loss of bone from both the spine and hip, whereas femoral osteoporosis showed a preferential loss of bone from the femur neck region, and a lesser loss from the trochanter or the spine.     

Effective doses of ibandronate do not influence the 3-year progression of aortic calcification in elderly osteoporotic women

Animal experiments revealed conflicting results as to the impact of bisphosphonate treatment on atherosclerosis and related vascular calcification. The effect of long-term treatment with clinical doses of bisphosphonates on aortic calcification (AC) in an at-risk population of osteoporotic elderly women has not been assessed systematically. In the present analysis including 474 women (55–80 years) participating in two 3-year randomized, placebo-controlled clinical trials, we assessed the simultaneous impact of ibandronate given either orally (2.5 mg daily or 20 mg intermittently) or intravenously (0.5 mg or 1.0 mg IV every 3 months) on bone mass and AC. All women received calcium and vitamin D supplements. Bone mineral density (BMD) was measured at the lumbar spine and the total hip using dual-energy X-ray absorptiometry (DXA). Calcified deposits of the lumbar aorta (L1–L4) were visualized on lateral radiographs and severity was graded by a validated scoring system. Measurements were performed at baseline and at years 1, 2, and 3. At baseline, there was a significant inverse correlation between the severity of AC and BMD at the hip (r=–0.151, P=0.003), but not at the lumbar spine. The two oral doses and the 1.0 mg IV dose evoked statistically significant increases in both hip and spine BMD compared with placebo, whereas the effect of 0.5 mg was significant only at the hip (P<0.05). No differences in the yearly rate of progression or the 3-year change in AC was observed between the different intervention groups. Furthermore, there were no statistically significant correlations between the 3-year change in BMD and the simultaneous change in AC. These findings thus suggest that 3-year treatment with effective doses of ibandronate does not pose any cardiovascular risk in terms of altering vascular calcification.László B. Tankó, Gerong Qin contributed equally to the study.     

Relationship of body surface area with bone density and its risk of osteoporosis at various skeletal regions in women of mainland China

The aim of this study was to investigate the relationship between body surface area (BS) and bone mineral density (BMD) and the associated osteoporosis risk at various skeletal regions in women from mainland China. BMD was measured at the posteroanterior (PA) spine (L1–L4), supine lateral spine (L2–L4) including volumetric BMD (vBMD), hip including femoral neck, trochanter and total hip, and forearm, including radius+ulna ultradistal (R+UUD), 1/3 site (R+U1/3) and total region (R+UT) using a dual-energy X-ray absorptiometry (DXA) fan-beam bone densitometer (Hologic QDR 4500A) in 3418 females aged from 18 to 75 years. Data analysis revealed a positive correlation between BS and BMD at the various skeletal regions (r=0.114–0.373, all P=0.000), but no correlation with vBMD (r=0.000, P=0.934). Using the stepwise regression model, BMDs at various skeletal regions were dependent variables while height, weight, body mass index (BMI), BS and projective bone area (BA) were independent variables; BS was determined to be the most important variable that affected the PA spine, hip and forearm BMDs. Subjects were divided into three groups according to size: large BS group (LBSG), intermediate BS group (IBSG) and small BS group (SBSG). The BMD at different skeletal regions of subjects between groups exhibited a significant gradient difference, with LBSG>IBSG>SBSG, but this was not seen for vBMD. On the fitting curves where BMD varied with age at the PA spine, femoral neck, total hip and R+UUD, BMDs of LBSG were 6.93–9.29% higher than those of IBSG and 12.1–16.9 % higher than those of SBSG, whereas those of SBSG were 6.12–9.59% lower than those of IBSG at various skeletal regions, respectively. The prevalence rates and risks of osteoporosis of LBSG were significantly lower than those of SBSG and IBSG, whereas those of IBSG were obviously lower than those of SBSG at various skeletal regions, respectively, presenting a gradient difference among the three study groups, LBSG<IBSG<SBSG. Our study shows that the relationship between BS and BMD exceeds that between BMD and height or weight in women in mainland China. When areal BMD is employed, those with a larger BS have higher areal BMD and lower risks of osteoporosis while, conversely, those with a smaller BS have lower areal BMD, and therefore higher risk for osteoporosis. However, when vBMD is used, these differences diminish or even disappear.     

Bone mineral density of the spine and femur in healthy Saudis

The reference values of bone mineral density (BMD) were determined in healthy Saudis of both sexes and compared with US / northern European and other reference data. BMD was determined by dual-energy X-ray absorptiometry (DXA) at the lumbar spine and femur including subregions: trochanter, Wards triangle, and neck, in 1,980 randomly selected Saudis (age range 20–79 years; 915 males and 1,065 females) living in the Jeddah area. Age-related changes in BMD were similar to those described in US / northern European and Lebanese reference data. Decreases in BMD of males were evident (% per year): 0.3–0.8 (lumbar spine), 0.2–0.4 (femoral trochanter), 0.2–1.4 (Wards triangle), and 0.2–0.7 (femoral neck). Also, decreases in BMD of females were observed (% per year): 0.8–0.9 (lumbar spine), 0.7–0.9 (Wards triangle), and 0.3–0.7 (femoral neck). Using stepwise multiple regressions that included both body weight and height, the former had 2–4 times greater effect on BMD than the latter. Using the mean BMD of the <35-year-old group the T-score values were calculated for Saudis. The prevalence of osteoporosis in Saudis (50–79 years) at the lumbar spine using the manufacturers vs Saudi reference data was 38.3–47.7% vs 30.5–49.6 (P<0.000), respectively. Similarly, based on BMD of total femur, the prevalence of osteoporosis using the manufacturers vs Saudi reference data was 6.3–7.8% vs 1.2–4.7% (P<0.000), respectively. Saudis (50 years) in the lowest quartile of body weight exhibited higher prevalence of osteoporosis (25.6% in females and 15.5% in males) as compared to that of the highest quartiles (0.0% in females and 0.8% in males). The present study underscores the importance of using population-specific reference values for BMD measurements to avoid overdiagnosis and/or underdiagnosis of osteoporosis.     

Bone mineral density in Norwegian premenopausal women

The aims of this study were: 1) to determine bone mineral density (BMD) in different age groups, 2) to determine the prevalence of low BMD, and 3) to determine the possible association between BMD and a number of risk factors in Norwegian premenopausal women. BMD of the lumbar spine (L₂–L₄), total body, and the hip (total femur, femur neck, and trochanter) were measured using dual-energy X-ray absorptiometry (Prodigy, Lunar) in 145 randomly selected women aged 13–39 years. Information on other factors thought to influence BMD was obtained through questionnaire and a clinical interview. The group aged 25–29 years had the highest mean BMD in the total body, lumbar spine, and total femur while the group aged 13–19 years had the highest mean BMD in the femur neck and the trochanter. The mean BMD values of Norwegian premenopausal women were 3.4–5.1% higher than US/European reference data (P<0.05). Five percent of the study sample aged 20–39 years were defined with low BMD (Z-score <–2) using the standard values from this study. Weight-bearing physical activity, body weight, body height, and age were positively associated with BMD, whilst menstrual dysfunction and previous pregnancy were associated with lower BMD in some of the measurement sites. The results show that the factors associated with BMD are extensive, and the strategies to prevent low BMD have to be multifactorial. A follow-up study should be conducted on the study sample to investigate actual mean BMD values and BMD changes through time.     

Osteoporosis assessment by whole body region vs. site-specific DXA

The ability of regional data from whole body scans to provide an accurate assessment of site-specific BMD, osteoporosis prevalence and fracture risk has not been fully explored. To address these issues, we measured total body (TBBD) and site-specific BMD in an age-stratified population sample of 351 women (21–93 years) and 348 men (22–90 years). We found an excellent correlation between AP lumbar spine and total body lumbar spine subregion BMD (r ²=0.92), but weaker ones for total hip compared to pelvis region (r ²=0.72) or between total wrist and left arm subregion from the whole body scan (r ²=0.83). The error in estimating site-specific BMD from total body regions ranged from 4.3% (lumbar spine) to 11.2% (femoral neck) in women and from 4.9 to 11.1%, respectively, in men. Site-specific versus regional measurements at the lumbar spine and total hip/pelvis provided comparable overall estimates of osteoporosis prevalence, but disagreed on the status of individuals; measurements at whole body regions underestimated osteoporosis as assessed at the femoral neck or total wrist. All measurements were associated with a history of various fractures [age adjusted odds ratios (OR), 1.3 to 2.1 in women and 1.2 to 1.5 in men] and were generally interchangeable, but femoral neck BMD provided the best estimate of osteoporotic fracture risk in women (OR, 2.9; 95% CI, 1.7–5.0). Although there are strong correlations between BMD from dedicated scans of the hip, spine and distal forearm and corresponding regions on the whole body scan, the measurements provide somewhat different estimates of osteoporosis prevalence and fracture risk.     

Association between bone mineral densities and serum lipid profiles of pre- and post-menopausal rural women in South Korea

The objectives of this population-based study were to investigate the potential association between bone mineral density (BMD) and serum lipid profiles and to compare the effects of serum lipids on BMD at various skeletal sites in pre- and post-menopausal women. In July and August of 2004, BMD was measured at a variety of skeletal sites [lumbar spine (L_1–4), femoral neck, trochanter, Wards triangle, shaft and proximal total hip] using the GE/Bravo Lunar DPX dual-energy X-ray absorptiometer in a South Korean population-based sample of 375 pre-menopausal and 355 post-menopausal rural women aged 19–80 years. The levels of serum total cholesterol (TC) and low-density lipoprotein cholesterol (LDL-C) were inversely associated with BMD in both pre- and post-menopausal women. In the pre-menopausal women, correlations were shown only for lumbar 1–4 (TC: r =–0.12, P <0.05; LDL-C: r =–0.12, P <0.05), whereas in the post-menopausal women, no correlation was evident for the lumbar sites. In the post-menopausal subjects, the TC levels showed significant correlations with the BMD values at the trochanter ( r =–0.15, P <0.01), shaft ( r =–0.16, P <0.001) and proximal total hip ( r =–0.15, P <0.01) sites, while the LDL-C levels showed significant correlations with the BMD values at the neck ( r =–0.13, P <0.05), trochanter ( r =–0.21, P <0.001), shaft ( r =–0.20, P <0.001) and proximal total hip ( r =–0.20, P <0.001) sites. The levels of triglyceride (TG) were shown to have a significant positive correlation with BMD values at the trochanter site ( r =0.11, P =0.05) in the post-menopausal women; by contrast, subjects in a higher quartile of TG levels show lower lumbar BMD values in the pre-menopausal women. The levels of high-density lipoprotein cholesterol (HDL-C) were not associated with BMD values at any of the sites in the pre- and post-menopausal subjects. Our data indicate a relationship between BMD values and serum lipid levels and suggest differences between pre- and post-menopausal women in terms of the effects of serum lipids on BMD at various skeletal sites.     

Risk for developing osteoporosis in untreated premature menopause

Summary The bone mineral density (BMD) of the lumbar spine and proximal femur was determined by dual photon absorptiometry in 32 women with untreated premature menopause (cessation of menses before 45 years of age). The BMD of the spine and proximal femur in four obese patients was not different from the BMD of the age-matched controls. On the contrary, the BMD of the nonobese females with premature menopause was significantly lower with respect to the average values found in healthy young women, in age-matched and menopause-matched controls. The BMD deficit was greater over the lumbar spine than in the proximal femur. Forty three percent of nonobese patients were already under the vertebral fracture threshold and 25% of nonobese patients were below the hip fracture threshold. The BMD deficit in the lumbar spine was correlated to the loss observed in the femoral neck (r=0.59, P<0.001), in the trochanter (r=0.65, P<0.001) and in the Ward's triangle (r=0.73, P<0.001). A negative correlation was observed between years of menopause and the BMD of the lumbar spine (r=-0.39, P<0.05). The results indicate the high individual risk for osteoporotic fractures in nonobese females with untreated premature menopause. The BMD loss was greater over the skeletal areas that are predominantly composed of trabecular bone compared with cortical bone.     

Effects of dietary improvement on bone metabolism in elderly underweight women with osteoporosis: a randomised controlled trial

Malnutrition in elderly people contributes to osteoporosis and fracture. The aim of the study was to investigate the effects of nutritional improvement on bone metabolism in elderly community-dwelling women. A 12-month randomized controlled trial of 71 ambulant women aged 70 years with BMI 21 kg/m² and osteoporosis at the hip was undertaken. They received either calcium (1 g) and vitamin D (800 units of cholecalciferol) only (group 1: n=35) or calcium/vitamin D and one or two cartons of a nutritional supplement drink which provided 300 Kcal, 12 g protein, 11.6 g fat and 36.8 g carbohydrate per carton (group 2: n=36). Body composition and bone mineral density (BMD) were assessed at baseline and 12 months. Biochemical markers of bone turnover were measured at baseline and at 1, 3, 6, 9 and 12 months. Group 2 gained significantly more weight [mean (SD) group 1: 0.15 (2.45), group 2:2.66 (2.8) kg P<0.001] and fat mass [group 1: –0.26 (1.8), group 2:1.9 (1.7) kg P<0.001]. BMD at the spine, femoral neck and total hip did not change significantly, although there was a positive trend at the total hip in group 2 [group 1: –0.5 (5.2), group 2:1.25 (3.3)%, P=0.13]. In a subgroup analysis, irrespective of their treatment group, there was a significant difference in changes in BMD at the lumbar spine and total hip in those who lost body weight (A) compared to those who had maintained or increased their weight (B), [mean (SD) % change in BMD lumbar spine; A: –1.64 (3.75), B: 0.96 (2.75) P=0.013, total hip A: –2.09 (6.0), B: 1.04 (3.3), P=0.05)] A significant reduction in serum CTX, a marker of bone resorption, was seen in group 2 [% decrease at 3 months, group 1: 1 (8.7), Group 2: 32 (5.8), P<0.01]. Serum osteoprotegerin (OPG) increased significantly in group 2 with a maximal increase (27%) observed at 6 (P<0.01) and 9 months (P<0.05). A small increase in bone-specific alkaline phosphatase was seen at 12 months in group 2 [% increase group 1:5 (5), group 2: 17 (6), P=0.05]. Serum osteocalcin increased at 12 months in group 2 (P=0.01). Dietary improvement in elderly women with low BMI is associated with a reduction in bone resorption with a small but "net" positive effect on bone formation.     

Relationship Between Lipids and Bone Mass in 2 Cohorts of Healthy Women and Men

A number of recent findings seem to indicate that fat and bone metabolism are strictly connected. We investigated the relationship between lipid profile and bone mineral density (BMD) in 236 either pre- or postmenopausal women, aged 35–81 years, attending our osteoporosis center (clinic group). In order to verify the consistency of the results, 265 men and 481 women aged 68–75, participating in a population-based epidemiological investigation (community cohort), were also studied. Lumbar spine, femoral neck, total hip and total body BMD, total body fat, % fat mass and lean mass were measured using dual energy X-ray absorptiometry (DXA). In the clinic group, lumbar spine and hip BMD Z score values were both strongly related to all measured serum lipids: the relationship was negative for HDL cholesterol (P < 0.05) and Apo A lipoprotein (P < 0.000) and positive for LDL cholesterol (P < 0.05), Apo B lipoprotein (P < 0.001) and triglycerides (P < 0.05). When BMD values were adjusted for body weight and BMI, most relationships remained statistically significant. In the community cohort, total body and hip BMD values were strongly related in both men and women to age, body weight, height, BMI, fat mass, lean mass, % fat mass. Total body and hip BMD were significantly related to serum lipids in both women and men. The relationship was negative for HDL cholesterol and positive for total cholesterol, triglycerides and LDL cholesterol. Most of these relationships (triglycerides, HDL cholesterol, LDL/HDL cholesterol ratio in women, and all measured lipids in men) remained statistically significant (P values ranging from 0.000 to 0.03) when the BMD values were adjusted also for anthropometric measures (body weight, height, fat mass). This study demonstrates for the first time that the lipid profile is strictly related to bone mass in both men and women. The interpretation of this association remains hypothetical but it might open new perspectives for understanding the mechanisms controlling bone metabolism.     

A Comparison Study of the Reference Curves of Bone Mineral Density at Different Skeletal Sites in Native Chinese,Japanese, and American Caucasian Women

To understand the differences among reference curves for bone mineral density (BMD) for Chinese, Japanese, and American Caucasian women, we measured the BMD at the anteroposterior (AP) lumbar spine (L1–L4), lateral lumbar spine (L2–L4), hip (including the femoral neck, trochanter, intertrochanter, Wards triangle, and total hip), and ultradistal forearm by the dual-energy X-ray absorptiometry (DXA) in a total of 2728 healthy Chinese women, aged 5–96 years. Documented BMD data for Japanese women and device manufacturers BMD new reference databases (including the NHANES III dataset) for American Caucasian women were also used in this study. The cubic regression model was found to fit best in analyzing the age-associated variations of BMD at various sites in Chinese women, i.e., the equations had the largest coefficient of determination (R ²). At the AP/Lat spine, trochanter, intertrochanter, and Wards triangle, BMD reference curves for Chinese women were lower than those for Japanese or Caucasian women, while at the femoral neck, total hip, and ultradistal forearm, the reference curves for Chinese women were higher than those for Japanese women, with overlaps and crossing of the curves for some age spans in comparing the Chinese and Caucasian women. There were significant differences in the peak BMD (PBMD) at various sites among the Chinese, Japanese, and Caucasian women (P = 0.000). The PBMDs for Chinese women at the lumbar spine and various sites of the hip were 5.7% ± 2.1% (mean ± SD, range, 2.7–7.9%) lower than those for Japanese women and 5.1% ± 2.7% (range, 0.5–7.2%) lower than those for Caucasian women; however, the PBMDs for Chinese women were 26.2% higher than those for Japanese women and 10% higher than those for Caucasian women at the ultradistal forearm. After the PBMD, average T-scores of Chinese women for losses at the AP lumbar spine with increasing age were nearly identical to those for Japanese women, but both were greater than those for Caucasian women. The average T-scores for BMD loss at various sites in Chinese women were higher than those for both Japanese and Caucasian women except at the femoral neck, where the T-scores of Chinese women were exceeded by those of both Japanese and Caucasian women. Estimated from the T-score curve of BMD loss, the age of osteoporosis occurrence at the femoral neck in Chinese women was about 10 years later than that in Japanese or Caucasian women; at the AP spine, Chinese women were similar to Japanese women; at the other sites, the age for occurrence of osteoporosis in Chinese women was about 5–15 years earlier than that in either Japanese or Caucasian women. There are differences in prevalence or odds ratio (OR) of osteoporosis at the same skeletal region for Chinese, Japanese, and Caucasian women aged 50 years or at different skeletal regions in women of the same race. The prevalences of osteoporosis at various regions of the hip in Chinese women are 10.1–19.8% and ORs are 22.0–32.3, of which prevalence at the femoral neck is the lowest (10.1%); the prevalences of osteoporosis in Japanese women are 11.6–16.8% and ORs are 21.1–26.3, of which prevalence at the femoral neck is the lowest (11.6%); and the prevalences of osteoporosis in Caucasian women are 13.0–20.0% and ORs are 19.4–48.9, of which prevalence at the femoral neck is the highest (20%). In conclusion, racial differences in BMD reference curves, prevalences, and risks of osteoporosis at various skeletal sites exist among native Chinese, Japanese, and American Caucasian women.     

A Poly Adenosine Repeat in the Human Vitamin D Receptor Gene is Associated with Bone Mineral Density in Young Swedish Women

Peak bone mass (PBM) and subsequent bone loss are important risk factors for development of osteoporosis later in life, and twin studies have reported strong genetic influence on PBM. The genetic factor influencing PBM is polygenetic, and many genes most likely exert relatively small effects on bone mass. The poly adenosine (A) microsatellite in the 3 untranslated region (UTR) of the VDR gene has been associated with both prostate and breast cancer risk but little is known about the effect of bone mineral density (BMD). In this report the poly A microsatellite and the linked BsmI SNP have been investigated in a population-based cohort of 343 Swedish women, aged 20–39. BMD was measured by dual x-ray absorptiometry at the spine, proximal femur, total body and heel and by quantitative ultrasound at the heel. Correlations were found between VDR genotypes and BMD at lumbar spine L2-L4, (ss versus LL , P = 0.03 and BB versus bb, P = 0.02, respectively), with a similar pattern concerning total hip (ss versus LL, P = 0.12 and BB versus bb, P = 0.16 respectively). After corrections for age, height, fat and lean mass, the VDR BsmI genotype was still associated to BMD at the lumbar spine (BB versus bb, P = 0.03). The polymorphisms were in linkage disequilibrium (Chi-square = 566, P < 0.0001). In conclusion, genetic variation in the VDR is associated with BMD in premenopausal women, and further studies are needed to evaluate a possible functional role of the VDR 3UTR poly A repeat, a region that has shown to be of important for mRNA stability.     

Relationship between body composition and bone mineral density in healthy young and premenopausal Chinese women

This study investigated the relative contribution of fat mass and lean mass to bone mineral density (BMD) in young and premenopausal healthy Chinese women. The study was performed in 282 young and premenopausal healthy women with regular menstrual cycles. The BMD at lumbar spine (L2–L4), total hip and total body, together with fat mass and lean mass were assessed by dual-energy X-ray absorptiometry (DXA); body height, weight, waist and hip circumference were also measured, and body mass index (BMI) and waist-hip ratio were calculated. Fat mass was a major determinant for BMI, BMI and lean mass were positively related to L2–L4, total hip and total body bone density (P<0.001 for all), lean mass was the only independent factor contributing to BMD at L2–L4 (standardized coefficient =0.282, P<0.001), total hip (=0.336, P<0.001) and total body (=0.361, P<0.001) in multiple stepwise regression analysis. The correlation between BMI and BMD was improved after adjustment for fat mass, while decreased or even lost when lean mass was adjusted. These data suggested that in the Chinese population, lean mass is an important factor determining BMD in young and premenopausal women.     

Decreased Bone Mineral Density Is Correlated with Increased Subclinical Atherosclerosis in Older,but not Younger,Mexican American Women and Men: The San Antonio Family Osteoporosis Study

An association has been reported between cardiovascular disease (CVD) and osteoporosis, perhaps attributable to the presence of common risk factors. To assess this possibility, we measured areal bone mineral density (BMD) and carotid artery intimal medial thickness (IMT), a measure of preclinical atherosclerosis, in 535 women and 335 men from the San Antonio Family Osteoporosis Study. Variance decomposition methods were used to determine whether cross-sectional measures of areal BMD (measured by dual-energy X-ray absorptiometry) of the total hip, spine, and forearm were correlated with IMT, serum lipids, and/or C-reactive protein (CRP), a marker of inflammation, after accounting for known environmental factors. We observed significant inverse correlations of IMT and BMD at all bone sites in women >60 years of age (P < 0.001) and modest positive correlations (not significant) of IMT on hip BMD (P < 0.1) in women <60 years of age. Similarly, we observed negative correlations between IMT and forearm BMD in men >60 years of age (P < 0.001) and positive correlations in men <60 years of age (P = 0.05). Variation in risk factors for CVD, including serum levels of low- and high-density lipoprotein cholesterol, low-density lipoprotein particle size, triglycerides, paraoxonase 1 activity, and CRP did not account for the relationship between BMD and IMT in either older or younger men or women. In summary, our results demonstrate that decreased BMD is correlated with increased IMT in older (but not younger) Mexican American men and women, independent of serum CVD risk factors.     

Exercise maintains bone density at spine and hip EFOPS: a 3-year longitudinal study in early postmenopausal women

It is an important aim in the prevention of osteoporosis to stop or decelerate bone loss during the early postmenopausal years. Here we report on results of the 3-year EFOPS exercise trial in osteopenic women. The exercise strategy emphasized low-volume high-resistance strength training and high-impact aerobics. Forty-eight fully compliant women (55.1±3.3 years) with no medication or illness affecting bone metabolism participated in the exercise group (EG); 30 women (55.5±3.0 years) served as non-training controls (CG). At baseline there were no significant between-group differences with respect to physical fitness, bone mineral density, pain and nutritional status. The training consisted of two group training and two home training sessions per week. The study participants of both groups were individually supplemented with calcium and vitamin D (cholecalciferol). Bone mineral density (BMD) was measured by DXA at the lumbar spine, proximal femur and distal forearm and by QCT at the lumbar spine. Speed of sound and broadband ultrasound attenuation were determined at the calcaneus by quantitative ultrasound (QUS). Pain frequency and intensity at different skeletal sites were assessed via questionnaire. After 38 months, the following within-group changes were measured: DXA lumbar spine, EG: 0.8% n.s.; CG: –3.3% P <0.001; QCT trabecular ROI, EG: 1.1% n.s; CG: –7.7% P <0.001; QCT cortical ROI, EG: 5.3% P <0.001; CG: –2.6% P <0.001; DXA total hip: EG: –0.2% n.s; CG –1.9%, P <0.001; DXA distal forearm, EG: –2.8% P <0.001; CG: –3.8% P <0.001; BUA, EG: –0.3% n.s; CG –5.4% P <0.001; SOS, EG: 0.3% n.s; CG –1.0% P <0.001. At year 3 between-group differences relative to the exercise group were: DXA lumbar spine: 4.1% P <0.001; QCT trabecular ROI: 8.8% P <0.001; QCT cortical ROI: 7.9% P <0.001; DXA total hip: 2.1%, P <0.001; DXA distal forearm: 1.0% n.s.; BUA: 5.8% P <0.05; SOS: 1.3% P <0.001. Pain frequency and intensity in the spine significantly decreased in the exercise group and increased in the control group, while no between-group differences were detected in the main joints. In summary, over a period of 3 years our low-volume/high-intensity exercise program was successful to maintain bone mineral density at the spine, hip and calcaneus, but not at the forearm.     

Risk factors for low bone mineral density and the 6-year rate of bone loss among premenopausal and perimenopausal women

Risk factors that are associated with lower bone mineral density (BMD) may not necessarily be associated with increased bone loss among premenopausal and perimenopausal women. We determined risk factors for lower premenopausal and perimenopausal BMD while simultaneously determining risk factors for increased 6-year rate of bone loss among women aged 24–50 years within a population-based prospective cohort study. BMD of the lumbar spine and femoral neck, reported as t scores, were measured five times within the 6-year study among 614 women who were between the ages of 24 and 44 in 1992/1993. Rates of bone loss were calculated from the repeated BMD measurements. Risk factors for lower BMD over time at the lumbar spine included history of any fracture (P=0.005). The major risk factor for lower BMD over time at the femoral neck was family history of osteoporosis (P<0.002). The major protective factor for greater BMD over time at both skeletal sites was additional body weight (P<0.0001). Other protective factors for greater BMD over time at the femoral neck were modest alcohol consumption (P=0.0002) and high-school sports participation (P=0.002). Risk factors for greater bone loss at either skeletal site included postmenopausal status (P<0.0001 at the lumbar spine; P=0.01 at the femoral neck), and the reporting of a reproductive cancer (P<0.0001 at the lumbar spine; P=0.0008 at the femoral neck). Body weight was protective against bone loss at both skeletal sites (P<0.0001). Baseline age, calcium intake, smoking, and current physical activity were not associated with BMD or bone loss. The understanding of the relative importance of risk factors for both low BMD and bone loss may assist in the identification of women at greater risk for subsequent low postmenopausal BMD.     

Bone Mineral Density of the Spine and Femur in Early Postmenopausal Turkish Women with Endemic Skeletal Fluorosis

The aim of this prospective, comparative study was to investigate the bone mineral density (BMD) changes in a group of early postmenopausal Turkish women with endemic skeletal fluorosis and to study effects of endemic fluorosis on BMD. Bone mineral density of L₂–L₄ vertebra, femur neck, femur trochanter, and Wards triangle were measured in 45 female patients with endemic skeletal fluorosis and 41 age-matched controls by dual X-ray absorbtiometry (DXA). The BMD of L₂–L₄ vertebra and Wards triangle were higher in the endemic fluorosis group than in the control group (P < 0.001). Patients with endemic fluorosis had higher femur neck and femur trochanter BMDs than did controls (P < 0.01 and P < 0.05, respectively). There was a positive correlation between serum fluoride content and BMD at the spine (r = 0.345, P = 0.001), femoral neck (r = 0.274, P = 0.011), Wards triangle (r = 0.295, P = 0.006), and trochanter (r = 0.217, P = 0.045). In conclusion, higher bone mineral density levels were seen in early postmenopausal women with endemic skeletal fluorosis. BMD measurement is a tool in the diagnosis and management of this preventable crippling disease.     

The Association of Pelvic Bone Mineral Density and With Proximal Femoral and Spine Bone Mineral Density in Post-menopausal Women

Pelvic fragility fractures result in significant morbidity and their incidence has increased over the past 30 years. One of the main risk factors in skeletal fragility is bone mineral density (BMD). Most of the current literature has focused on understanding spine and hip BMD. We aimed to measure the BMD of pelvis in a cohort of post-menopausal women and compare it to BMD at other skeletal sites. A questionnaire regarding risk factors for osteoporosis was completed by each participant. DXA scan of the pelvis was performed using research software. Three areas of the pelvis corresponding to common fractures were defined on pelvic DXA: R1 = symphysis public, R2 = inferior public rami, R3 = superior public rami. Pelvic BMD was calculated as the average BMD of R1-3. BMD at each location was reported as mean and standard deviation (SD). ANOVA was used to compare BMD between R1-R3 and pelvis, femoral neck, total hip, and spine. Pearson correlation was used to correlate pelvic BMD to BMD of proximal femur and spine. BMD was compared in four participant groups: 1- osteoporosis in spine and hip, 2- osteoporosis in spine only, 3-osteoporosis in hip only, and 4- no osteoporosis in spine and hip. The effect of diabetes and obesity on BMD at various skeletal sites was analyzed. Among the one hundred postmenopausal women enrolled in the study, age was: 64 ± 8, 31% were obese (BMI ≥ 30), and 8% had a diagnosis of type 2 diabetes. Pelvic area R3 had significantly higher BMD than R1 or R2 (p < 0.001). Pelvic BMD (0.50 ± 0.16) was significantly lower than total hip (0.70 ± 0.20) and spine BMD (0.97 ± 0.19) (p < 0.001). Pelvic BMD correlated with BMD at other skeletal locations, with the highest correlation with total hip (total hip: R2: 0.70, femoral neck R2: 0.50, spine R2: 0.65). Pelvic BMD was significantly lower in patients with osteoporosis of both hip and spine compared to the group without osteoporosis at both locations (p = 0.02). Obesity and type 2 diabetes were both associated with significantly higher BMD at pelvis, spine, and total hip. Pelvic BMD is lower than at other skeletal sites and is highly correlated with total hip area bone density. Obesity and type 2 diabetes are associated with higher pelvic BMD. To establish guidelines for the treatment pelvic BMD, studies defining the association of pelvic BMD with pelvic fracture risk are needed.     

Bone mineral density and osteoporosis among a predominantly Caucasian elderly population in the city of São Paulo, Brazil

This cross-sectional study covered 301 individuals over 70 years of age—207 women (W) and 94 men (M)—living in the city of São Paulo, Brazil. Our aims were to evaluate the prevalence of low bone mineral density (BMD) in this population and the possible factors that influence BMD. The subjects were submitted to a bone densitometry scan (DXA) to evaluate the BMD at lumbar spine (LS), femoral neck (FN), trochanter (T), total femur (TF) and total body composition. At the time, the participants filled in a questionnaire about lifestyle habits, diet and medical history, as well as having blood samples taken to check hormone and biochemical levels. Anthropometric parameters were measured. Osteopenia and osteoporosis were defined in accordance with the criteria suggested by the World Health Organization. In the different sites studied, the prevalence of osteopenia and osteoporosis varied, in men ranging 33.3–57.4% and 6.4–16.1%, respectively, and in women ranging 36.6–56.5% and 22.2–33.2%, respectively. Weight was the variable that most strongly correlated with BMD at the proximal femur in both sexes (men, r =0.44–0.52; women, r =0.48–0.52) and with BMD at LS in women ( r =0.44). Height was the parameter that best correlated with BMD at LS in men ( r =0.34). In men follicle-stimulating hormone, growth hormone and glycemia correlated with BMD at T and TF, while plasma albumin only correlated with BMD at T. In women glycemia correlated with BMD at LS, and follicle-stimulating hormone correlated with BMD at FN, T and TF. In conclusion, we found a high prevalence of osteopenia and osteoporosis in this population, with weight being the best predictor of BMD. The prevalence of osteoporosis and osteopenia at FN was as high in men as that observed in women.     

Bone Mineral Density and Lifetime Physical Activity in South African Women

We investigated the relation between lifetime physical activity and bone mineral density (BMD) in South African women using data collected in a case-control study of breast cancer in relation to BMD. Subjects (n = 144) were of black African or mixed ancestral origin, and <60 years of age (mean age 42.6 ± 8.9 years). Cases had newly diagnosed breast cancer (n = 62) and controls were referred for conditions unrelated to BMD or breast cancer (n = 82). Physical activity data consisting of household, occupational and leisure-time activity, and activity for transport, were collected via questionnaire at 4 life stages (epochs), viz. 14–21, 22–34, 35–50, and 50+ years of age. Total energy (MET hrs) and peak strain scores were calculated. Lumbar spine and total proximal femur BMD were measured using dual-energy x-ray absorptiometry. BMD measures were similar between groups, therefore data were combined. BMD measures were unrelated to total lifetime physical activity. However, the major determinants of total proximal femur BMD included age, transport activity including walking and bicycling between the ages of 14 and 21 years, and current weight (adjusted r² = 0.33, P < 0.0001). The major determinants of lumbar spine BMD included age, household energy expenditure between the ages of 14 and 21 years, and current weight (adjusted r² = 0.23, P < 0.0001). Total peak bone strain score for activities between 14–21 years of age was also significantly correlated with lumbar spine BMD (r = 0.18, P < 0.05). Intraclass correlation coefficients to assess tracking of activity through epochs 1, 2, and 3 were high for total energy expenditure (0.96; 95%CI: 0.94–0.97), household (0.98; 95%CI: 0.97–0.99) and occupational activity (0.78; 95%CI: 0.71–0.84) and activity for transport (0.92; 95%CI: 0.89–0.94). These data suggest that walking or activities resulting in impact loading at a young age are associated with higher BMD in later years. In addition, our findings suggest tracking of physical activity over time.