Radius In Men Research Articles

Bone turnover predicts change in volumetric bone density and bone geometry at the radius in men

SummaryPeripheral quantitative computed tomography scans of the distal and midshaft radius were performed in 514 European men aged 40–79 years at baseline and a median of 4.3 years later. Age-related changes in volumetric bone mineral density (vBMD) and bone geometry were greater in men with higher biochemical markers of bone turnover at baseline.IntroductionThis study aimed to determine prospective change in bone density and geometry at the radius in men and examine the influence of bone turnover markers and sex hormones on that change.MethodsMen aged 40–79 years were recruited from population registers in Manchester (UK) and Leuven (Belgium). At baseline, markers of bone formation (P1NP and osteocalcin) and resorption (β-cTX and ICTP) were assessed. Total and bioavailable testosterone and oestradiol were also measured. Peripheral quantitative computed tomography (pQCT) was used to scan the radius at distal and midshaft sites at the baseline assessment and a median of 4.3 years later.ResultsFive hundred fourteen men, mean (SD) age of 59.6 (10.5) years, contributed to the data. At the midshaft site, there was a significant decrease in mean cortical vBMD (−0.04 %/year), bone mineral content (BMC) (−0.1 %/year) and cortical thickness (−0.4 %/year), while total and medullary area increased (+0.5 and +2.4 %/year respectively). At the distal radius, total vBMD declined (−0.5 %/year) and radial area increased (+0.6 %/year). Greater plasma concentrations of bone resorption and formation markers were associated with greater decline in BMC and cortical area at the midshaft and total vBMD at the distal site. Increased bone resorption was linked with an increase in total and medullary area and decrease in cortical thickness at the midshaft. Sex hormone levels were unrelated to change in pQCT parameters.ConclusionsAge-related changes in vBMD and bone geometry are greater in men with higher biochemical markers of bone turnover at baseline. Sex hormones have little influence on change in pQCT parameters.

Influence of Polymorphisms in the RANKL/RANK/OPG Signaling Pathway on Volumetric Bone Mineral Density and Bone Geometry at the Forearm in Men

We sought to determine the influence of single-nucleotide polymorphisms (SNPs) in RANKL, RANK, and OPG on volumetric bone mineral density (vBMD) and bone geometry at the radius in men. Pairwise tag SNPs (r 2 ≥ 0.8) for RANKL (n = 8), RANK (n = 44), and OPG (n = 22) and five SNPs near RANKL and OPG strongly associated with areal BMD in genomewide association studies were previously genotyped in men aged 40–79 years in the European Male Ageing Study (EMAS). Here, these SNPs were analyzed in a subsample of men (n = 589) who had peripheral quantitative computed tomography (pQCT) performed at the distal (4%) and mid-shaft (50%) radius. Estimated parameters were total and trabecular vBMD (mg/mm3) and cross-sectional area (mm2) at the 4% site and cortical vBMD (mg/mm3); total, cortical, and medullary area (mm2); cortical thickness (mm); and stress strain index (SSI) (mm3) at the 50% site. We identified 12 OPG SNPs associated with vBMD and/or geometric parameters, including rs10505348 associated with total vBMD (β [95% CI] = 9.35 [2.12–16.58], P = 0.011), cortical vBMD (β [95% CI] = 5.62 [2.10–9.14], P = 0.002), cortical thickness (β [95% CI] = 0.08 [0.03–0.13], P = 0.002), and medullary area (β [95% CI] = −2.90 [−4.94 to −0.86], P = 0.005) and rs2073618 associated with cortical vBMD (β [95% CI] = −4.30 [−7.78 to −0.82], P = 0.015) and cortical thickness (β [95% CI] = −0.08 [−0.13 to −0.03], P = 0.001). Three RANK SNPs were associated with vBMD, including rs12956925 associated with trabecular vBMD (β [95% CI] = −7.58 [−14.01 to −1.15], P = 0.021). There were five RANK SNPs associated with geometric parameters, including rs8083511 associated with distal radius cross-sectional area (β [95% CI] = 8.90 [0.92–16.88], P = 0.029). No significant association was observed between RANKL SNPs and pQCT parameters. Our findings suggest that genetic variation in OPG and RANK influences radius vBMD and geometry in men.Electronic supplementary materialThe online version of this article (doi:10.1007/s00223-011-9532-y) contains supplementary material, which is available to authorized users.

High body mass index is associated with enhanced bone quality and reduced fracture risk at the distal radius in men and premenopausal women

High body mass index is associated with enhanced bone quality and reduced fracture risk at the distal radius in men and premenopausal women

Association of polymorphisms in forkhead box C2 and perilipin genes with bone mineral density in community-dwelling Japanese individuals

Evidence suggests the existence of a close relation between lipid metabolism and bone remodeling. We hypothesized that polymorphisms of genes that play a role in lipid metabolism, such as those for forkhead box C2 (FOXC2) and perilipin (PLIN), might affect bone mineral density (BMD). We thus examined the possible relationships between a -512C --> T polymorphism of FOXC2 and a 1243C --> T polymorphism of PLIN to BMD in community-dwelling Japanese women and men. The subjects (1129 men, 1114 women for FOXC2; 1122 men, 1112 women for PLIN) were aged 40 to 79 years and were randomly recruited to a population-based prospective cohort study of aging and age-related diseases in Japan. Genotypes for FOXC2 and PLIN were determined with a fluorescence-based allele-specific DNA primer assay system. The -512C --> T polymorphism of FOXC2 was associated with BMD for the distal and proximal radius in men and in premenopausal women as well as with BMD for the distal radius and total body in postmenopausal women, with the T allele being related to reduced BMD. The 1243C --> T polymorphism of PLIN was associated with BMD for the total body, lumbar spine, femoral neck, and trochanter in men, with the C allele being related to reduced BMD. This polymorphism of PLIN was not associated with BMD in all women. These results suggest that FOXC2 is a susceptibility locus for reduced BMD in Japanese men and women, and that PLIN constitutes such a locus in Japanese men.

Hormonal and Biochemical Determinants of Trabecular Microstructure at the Ultradistal Radius in Women and Men

Using high-resolution three-dimensional peripheral quantitative computed tomography (3D-pQCT) imaging, we recently described sex and age effects on bone microstructure at the ultradistal radius in men and women. Although bone volume/tissue volume decreased with age in both sexes, changes in trabecular number (TbN) and thickness (TbTh) in men were complex, with evidence for conversion of thick trabeculae into more numerous, thinner trabeculae in young men. Our objective was to define the relationship between hormonal and bone turnover variables and trabecular microstructure at the ultradistal radius. We conducted a population-based, cross-sectional study in the general community that included 205 women and 269 men, aged 21-97 yr. We measured correlation of bone volume/tissue volume, TbN, TbTh, and trabecular separation with hormonal and bone turnover variables. In young men (20-39 yr), TbTh and TbN were associated with serum IGF-I levels (r = 0.31, P < 0.05 and r = -0.35, P < 0.01, respectively). No associations were found between sex steroid levels (bioavailable estradiol or testosterone) or biochemical markers of bone turnover and trabecular parameters in young men or women. By contrast, in elderly men and women (>60 yr), sex steroids were the most consistently associated with trabecular microstructure, and bone turnover markers were variably associated with these parameters. In young men, the apparent conversion of thick trabeculae into more numerous, thinner trabeculae is most closely associated with declining IGF-I levels. By contrast, sex steroids are the major hormonal determinants of trabecular microstructure in elderly men and women.

Attainment of peak bone mass at the lumbar spine, femoral neck and radius in men and women: relative contributions of bone size and volumetric bone mineral density.

The age at which peak bone mineral content (peak BMC) is reached remains controversial and the mechanism underlying bone mass "consolidation" is still undefined. The aims of this study were to investigate; (1) the timing of peak BMC by studying bone size and volumetric BMD (vBMD) as separate entities and (2) to determine the relative contributions of bone size and vBMD to bone mass "consolidation". A total of 132 healthy Caucasian children (63 boys and 69 girls, ages 11-19 years) and 134 healthy Caucasian adults (66 men and 68 women, ages 20-50 years) were studied. BMC was measured by DXA at the AP and lateral lumbar spine (LS) femoral neck (FN) and ultradistal radius (UDR). vBMD and bone volume (size) were estimated. Bone mass "consolidation" was examined between age 16 years to the age peak bone values were attained. During growth, BMC and bone size increased steeply with age and approximately 80-90% of peak values were achieved by late adolescence. vBMD at the spine and UDR (in women) increased gradually, but vBMD at the FN and UDR in men remained almost constant. During "consolidation", bone size continued to increase with little change in vBMD. Peak vBMD at the lumbar spine was reached at 22 and 29 years in men and women, respectively, but earlier at the FN at 12 years. At the UDR peak vBMD was achieved at age 19 years in women, with little change in men. In conclusion, peak vBMD and bone size are almost fully attained during late adolescence. Although speculative, the lack of change in vBMD during consolidation implies that the continued increase in bone mass may primarily be due to increases in bone size rather than increases in either trabecular volume, cortical thickness or the degree of mineralisation of existing bone matrix (vBMD). Skeletal growth and maturation is heterogeneous, but crucial in understanding how the origins of osteoporosis may begin during childhood and young adulthood.

Bone mineral density and osteoarthritis: Data from the Baltimore Longitudinal Study of Aging

Background: Numerous cross-sectional studies have shown that persons with radiographic features of osteoarthritis (OA) of the hips and knees have higher adjusted levels of bone mineral density (BMD). Objective: Data from the Baltimore Longitudinal Study of Aging were examined to determine (1) whether persons with radiographic features of OA of the hands and knees had different rates of bone loss than subjects with normal knee radiographs, and (2) whether persons with normal knee radiographs who had higher adjusted levels of BMD were at greater risk of developing radiographic features of knee OA. Design: Longitudinal cohort study. Subjects: 298 Caucasian men and 139 Caucasian women aged 20 and above who had radiographs of the hands and knees read for features of OA and two or more measurements of BMD at the forearm at least 4 years apart. 179 Caucasian men and 110 Caucasian women aged 20 and above who had longitudinal knee radiographs on average 10 years apart, a subgroup of whom had baseline measurement of lumbar spine and/or femoral neck BMD. Results: Women with radiographic OA of the hand had a significantly greater adjusted rate of bone loss at the radius than women with normal hand radiographs; no such differences were noted in men for hand OA. There were no significant differences in adjusted rate of bone loss at the radius in men or women by presence of radiographic knee OA. Higher BMD at the lumbar spine but not at the femoral neck was associated with an increased risk of developing incident radiographic knee OA after adjustment for age, gender, and body mass index. Conclusions: These data demonstrate that persons with radiographic OA lose bone at different rates than those with normal radiographs and that this relationship varies between the site of OA and the site of measurement of BMD. In addition, they further support a role for higher bone mass in the development of radiographic knee OA. Further studies are needed to examine the relationship between changes in bone mass and radiographic progression of OA.

The annual incidence and seasonal variation of fractures of the distal radius in men and women over 25 years in Dorset, UK

Adults who suffer fractures of the distal radius are at increased risk of further osteoporosis related fractures and represent a high-risk group in whom therapies are available to reduce the risk. We have undertaken a prospective study of distal radius fracture patients over the age of 25 years to establish the extent of the problem in Dorset. All patients presenting with any forearm fracture to hospitals serving Dorset residents during 1 year were identified. Fracture type was assessed following scrutiny of the hospital notes. Analysis included calculation of rates per 10,000 population using Dorset Health Authority population estimates and seasonal variation. Ninety-six percent of all patients presented to three of the seven hospitals. One thousand six hundred and eighty-eight individuals with a diagnosis of forearm fracture were identified but only 1300 had a fracture of the distal radius. There was a female:male ratio of 3.9:1. In women, the incidence of distal radius fracture rose from a premenopausal baseline of 10 per 10,000 population per year to a peak of 120 per 10,000 population per year over 85 years. In men, the fracture incidence gradually increased from 10 per 10,000 before 65 years to 33 per 10,000 after 85 years. There was a detectable seasonal variation. Our data are in keeping with recent surveys in Europe and suggest that a change in the incidence of fracture of the distal radius with age has occurred over the last 30 years.

Osteoporosis and apolipoprotein E genotype in older adults: the Rancho Bernardo study.

Recent studies reported an association between apolipoprotein E (ApoE) 4 and osteoporosis. We examined the association of ApoE 4 genotype with bone mineral density (BMD), bone loss and fracture risk in 596 men and 332 community-dwelling women aged 45-95 years. Women were postmenopausal and not using estrogen. At the baseline visit, BMD was measured at the ultradistal and midshaft radius using single photon densitometry, and at the hip and lumbar spine using dual-energy X-ray absorptiometry. Hip and lumbar spine BMD levels were remeasured 4 years later. Self-reported fractures were confirmed by radiology reports in 95% of cases. ApoE allele distribution did not vary by age; 25% of men and 20% of women had one ApoE 4 allele. There were no differences in BMD at the lumbar spine, total hip, ultradistal or midshaft radius in men or women with the ApoE 4 allele compared with men or women without the ApoE 4 allele. After an average 4 year interval, there were also no differences in the annualized percent change in BMD at the hip or lumbar spine in men or women with or without an ApoE 4 allele. One or more clinical fractures were reported by 55 men and 109 women. Fewer, not more, clinical fractures were reported in men and women with an ApoE 4 allele; these differences were not statistically significant (p = 0.21 and p = 0.62, respectively). These data do not support the hypotheses that there is an association between ApoE genotype and BMD, bone loss or osteoporotic fractures in older community-dwelling men or women.

Endogenous sex steroids and bone mineral density in older women and men: the Rancho Bernardo Study.

This study examines the associations between endogenous sex steroids and bone mineral density (BMD), using data from a geographically defined cohort in Rancho Bernardo, California. Participants were community-dwelling women and men aged 50-89 years who took part in a study of endogenous sex steroid measurement between 1984-1987 and who had BMD measured in 1988-1991. Those taking corticosteroids or estrogen at the time of sex steroid determination were excluded. The main study outcomes were BMD of the ultradistal radius, midshaft radius, lumbar spine, and total hip by sex steroid level, adjusted for age, body mass index, cigarette smoking, alcohol consumption, leisure exercise, use of thiazides, thyroid hormones, and former estrogen use (women only). At the time of the hormone measurements, the mean age of the 457 women was 72.1 years and that of the 534 men was 68.6 years. A statistically significant positive relation was seen between bioavailable estradiol and BMD at all sites in women and men. Total estradiol was significantly associated with BMD at all sites in women and at all but the ultradistal radius in men. Estrone had a global effect on BMD in women and was not measured in men. Higher bioavailable (but not total) testosterone levels were associated with higher BMD of the ultradistal radius, spine, and hip in men and the ultradistal radius in women. Dehydroepiandrosterone was positively associated with BMD of the midradius, spine, and hip in women and was not associated with BMD at any site in men. Of the sex steroids tested, bioavailable estrogen was most strongly associated with BMD in both women and men. We conclude that endogenous sex steroid levels are significantly related to bone density in older women and men. Individual variation in age-related bone loss may be partially accounted for by alterations in sex steroid levels with aging. Further study to elucidate safe environmental and medical methods to maintain optimal sex steroid levels in old age is needed.

Statistical evaluation of Monson's sphere in healthy permanent dentitions in man

The three-dimensional curvature of the mandibular dental arch was studied in 20 men and 20 women with sound dentitions and free from temporomandibular joint problems. The x, y, z coordinates of cusp tips of all but the third molars were obtained with a three-dimensional digitizer, and used to derive a spherical model of the curvature of the occlusal surfaces. From the best interpolating sphere the radii of the left and right curves of Spee (quasi-sagittal plane) and of the canine and molar curves of Wilson (frontal plane) were computed. The occlusal curvature of the mandibular arch was not significantly influenced by gender, even if, on average, all the computed variables were larger in men than women. The radii of the overall sphere, right and left curves of Spee, and curve of Wilson in the molar area were about 105 mm in men, and about 100 mm in women. A relatively large intrasample variability in arch curvature was found. The mean sphere radius in men was very close to the classical value of 4 in, confirming Monson's observations, but the relatively large intrasample variability prevented any definitive determination of a sexual dimorphism in the three-dimensional characteristics of occlusal curvature.