Comparison of DXA Hip Structural Analysis with Volumetric QCT

Hip structural analysis (HSA) estimates geometrical and mechanical properties from hip dual-energy X-ray absorptiometry (DXA) images and is widely used in osteoporosis trials. This study compares HSA to volumetric quantitative computed tomography (QCT) measurements in the same population. A total of 121 women (mean age 58 yr, mean body mass index 27 kg/m²) participated. Each woman received a volumetric QCT scan and DXA scan of the left hip. QCT scans were analyzed with in-house software that directly computed geometric and mechanical parameters at the neck and trochanteric regions. DXA HSA was performed with an implementation by GE/Lunar. Pair-wise linear regression of HSA variables was conducted by method to site matched QCT variables for bone density, cross-sectional area, and cross-sectional moment of inertia (CSMI) of the femur neck. HSA correlated well with QCT (r² = 0.67 for neck bone mineral density [BMD] and 0.5 for CSMI) and standard DXA at the neck (r² = 0.82 for BMD). HSA and volumetric QCT compared favorably, which supports the validity of a projective technique such as DXA to derive geometrical properties of the proximal hip.     

DXA Scanning of Acetabulum in Patients With Cementless Total Hip Arthroplasty

The aim of this study was to evaluate the reproducibility of bone mineral density (BMD) measurements of the periprosthetic bone in patients with hemispherical acetabular cups in cementless total hip arthroplasty (THA). Thirty patients were treated for primary osteoarthrosis with cementless THA. Dual-energy X-ray absorptiometry (DXA) scanning was performed with a pencil-beam bone densitometer (Norland XR-36). Accuracy and reproducibility was determined by double measurements of BMD in four regions of interest (ROI). The influence of patient postures including various pelvic inclination angles was evaluated as well. Pitman test for a combined netROI revealed a standard deviation ratio of 3.2 for the anterio-posterior scans related to the lateral position. The Wilkinson ROIs showed a high intraobserver agreement. With pelvic tilt increasing until 20 degrees , the precision of DXA scanning decreased. In conclusion, reproducibility of DXA scanning was high. This study demonstrated that the patients can be scanned in the supine position, and BMD measurement of the periacetabular bone can be performed using the Wilkinson model with four rectangular ROIs.     

腰椎定量CT与双能X线骨密度测量对老年男性骨质疏松的诊断效能比较

目的评估腰椎定量悦栽与双能X线骨密度测量诊断老年男性骨质疏松的效能。方法 连续选取2012年2月至2012年8月期间于北京积水潭医院干部科住院的老年男性患者,共59例,年 龄54耀92岁。本组病例均行腰椎正位和髋关节DXA及腰椎QCT检查,且两项检查间隔时间不超过 1个月。结果采用世界卫生组织（WHO )DXA -2. 5SD和国际临床骨密度学会（ISCD )腰椎QCT < 80 mg/cm3的骨质疏松诊断标准,DXA诊断本组病例腰椎、髋关节及腰椎或髋关节任一部位骨质疏松 的检出率分别为0%_、. 5豫和8. 5豫。腰椎QCT诊断本组病例骨质疏松的检出率为35. 6豫。其中腰 椎QCT诊断为骨质疏松而腰椎正位DXA未诊断者21例,占35. 6豫,其中3例CT显示有骨质疏松性 椎体骨折;腰椎QCT诊断为骨质疏松而髋关节DXA或任一部位DXA未诊断者均为16例,占 27. 1豫。结论 腰椎QCT比髋关节DXA及腰椎正位DXA对老年男性骨质疏松的诊断更敏感。腰 椎QCT骨密度测量对老年男性的骨质疏松诊断具有较高的临床价值。     

QCT和DXA对腰椎骨质疏松症检出率的Meta分析

目的 通过对定量CT（quantitative computed tomography,QCT）和双能X线吸收测量仪(dual-energy X-ray absorptiometry,DXA）腰椎骨质疏松症(osteoporosis ,OP)检出率研究数据进行Meta分析,了解QCT和DXA对腰椎OP的诊断价值。方法 检索 PubMed、Web of Science、Cochrane Library、万方、维普及中国知网中自建库以来至2022年1月1日的相关文献,提取目标数据。采用Stata 11.0软件进行数据分析,根据异质性检验结果选择固定效应模型或随机效应模型对数据进行汇总分析。结果 共纳入24篇研究,总样本量为4 008例,其中男性2 265例,女性1743例。24项研究间异质性显著,按随机效应模型分别汇总QCT和DXA对腰椎OP检出率为0.44(95 %CI：0.37~0.52)和0.17(95 %CI：0.14~0.21)。QCT对男、女性腰椎OP检出率分别为0.32(95 %CI：0.22~0.43)和0.45(95 %CI：0.33~0.58),DXA则分别为0.14(95 %CI：0.08~0.20)和0.24(95 %CI：0.17~0.30)。QCT在45~、60~岁和75岁及以上的人群中腰椎OP检出率分别为0.41(95 %CI：0.21~0.61)、0.43(95 %CI：0.33~0.54)和0.48(95 %CI：0.41~0.54),DXA则分别为0.30(95 %CI：0.12~0.49)、0.16(95 %CI：0.11~0.20)和0.15(95 %CI：0.10~0.21)。QCT和DXA对国内人群腰椎OP检出率分别为0.40(95 %CI：0.33~0.47)和0.15(95 %CI：0.12~0.19),对国外人群分别为0.68(95 %CI：0.43~0.93)和0.28(95 %CI：0.18~0.39)。QCT与DXA对腰椎OP检出率的差值(率差)定量合并结果为0.25(95 %CI：0.20~0.31),在男性为0.26(95 %CI：0.18~0.34),在女性为0.28(95 %CI：0.17~0.39),在45~、60~岁和75岁及以上人群中分别为0.10(95 %CI：0.06~0.14)、0.26(95 %CI：0.19~0.33)和0.30(95 %CI：0.18~0.41),及在国内外人群分别为0.23(95 %CI：0.17~0.29)和0.38(95 %CI：0.13~0.64)。结论 QCT比DXA对腰椎OP的检出率高,且QCT对男、女性和各年龄段及不同地区间人群的腰椎OP检出率均高于DXA,率差值随年龄的增加而增大,提示QCT对高年龄组腰椎OP的早期发现可能具有更高的价值。     

Trabecular Bone Score and Hip Structural Analysis in Patients With Atypical Femur Fractures

Bisphosphonate use has declined dramatically in recent years, partly because of fear of rare side effects like atypical femur fractures (AFFs). It is therefore desirable to have a diagnostic method to identify those at risk of AFF to prevent this serious complication. We compared trabecular microarchitecture and hip geometry between 30 patients with AFF and 141 controls of similar age and sex, using bisphosphonates. Trabecular bone score (TBS) and hip structural analysis (HSA) were used to assess trabecular microarchitecture and macroscopic hip geometry from dual-energy X-ray absorptiometry images of the lumbar spine and hip, respectively. General characteristics, TBS, and HSA were compared between patients with AFF and controls using Student's t tests and chi-square statistics. Associations between AFF and TBS and femur geometric characteristics by HSA were adjusted for sex, age, height, weight, ethnicity, duration of bisphosphonate use, and glucocorticoid use. Additionally, the analysis of TBS was adjusted for lumbar spine bone mineral density and the time difference between dual-energy X-ray absorptiometry scanning and the diagnosis of AFF. Patients with AFF had significantly higher body mass index than controls, had used bisphosphonates longer, and glucocorticoids and proton pump inhibitors more frequently. Sex-specific T-score was significantly higher in patients with AFF at the lumbar spine (p?=?0.004), but not at the femoral neck (p?=?0.190) after adjustment for age, height, and weight. TBS did not differ significantly between patients with AFF and controls. Neither neck shaft angle nor any geometric variables at the femoral shaft measured by HSA differed between patients with AFF and controls. At the narrow neck, patients with AFF had lower buckling ratio and higher centroid position, consistent with a lower risk of classical fragility hip fractures. The findings at narrow neck and higher bone mineral density might be explained by the fact that the majority of patients with AFF used bisphosphonates to prevent glucocorticoid-induced osteoporosis. Based on our results, TBS and HSA do not appear to have value in detecting patients at risk of AFF.     

Rheumatoid Arthritis is Associated With Less Optimal Hip Structural Geometry

The overall goal of this study was to assess the longitudinal changes in bone strength in women reporting rheumatoid arthritis (RA; n = 78) compared with nonarthritic control participants (n = 4779) of the Women's Health Initiative bone mineral density (WHI-BMD) subcohort. Hip structural analysis program was applied to archived dual-energy X-ray absorptiometry scans (baseline, years 3, 6, and 9) to estimate bone mineral density (BMD) and hip structural geometry parameters in 3 femoral regions: narrow neck (NN), intertrochanteric (IT), and shaft (S). The association between RA and hip structural geometry was tested using linear regression and random coefficient models. Compared with the nonarthritic control, the RA group had a lower BMD (p = 0.061) and significantly lower outer diameter (p = 0.017), cross-sectional area (p = 0.004), and section modulus (p = 0.035) at the NN region in the longitudinal models. No significant associations were seen at the IT regions or S regions, and the association was not modified by age, ethnicity, glucocorticoid use, or time. Within the WHI-BMD, women with RA group had reduced BMD and structural geometry at baseline, and this reduction was seen at a fixed rate throughout the 9 yr of study.     

Estimating Waist and Hip Circumference from Routine Clinical DXA

Introduction: Waist circumference and waist:hip ratio have body mass index-independent detrimental effects on health and mortality. Dual-energy X-ray absorptiometry (DXA) scans of the lumbar spine and hip can provide site-specific measures of soft-tissue thickness, and we hypothesized that this could be used to opportunistically estimate body circumference in patients undergoing DXA for osteoporosis assessment. Methodology: We assessed the correlation and explained variance (as coefficient of determination, R²) between directly measured body circumference (waist circumference, hip circumference, and waist:hip circumference ratio) with DXA-derived measures of soft tissue thickness (spine DXA tissue thickness, hip DXA tissue thickness, and spine:hip tissue thickness ratio) in 214 women and 96 men (mean age 66.1 and 63.7 yr, respectively) undergoing DXA screening for osteoporosis. Results: DXA-derived spine tissue thickness explained most of the variance in measured waist circumference (female R² 0.90, male R² 0.88). Explained variance was slightly lower for measured hip circumference (female R² 0.87, male R² 0.76) and waist:hip ratio (female R² 0.68, male R² 0.72). Final models predicted waist circumference with an adjusted R² 0.91, hip circumference with R² 0.86, and waist:hip ratio with R² 0.70. Conclusion: Routine clinical DXA measurements of the spine and hip can be used to estimate body circumference measurements.     

Bone Loss After Bariatric Surgery: Discordant Results Between DXA and QCT Bone Density

Several studies, using dual‐energy X‐ray absorptiometry (DXA), have reported substantial bone loss after bariatric surgery. However, profound weight loss may cause artifactual changes in DXA areal bone mineral density (aBMD) results. Assessment of volumetric bone mineral density (vBMD) by quantitative computed tomography (QCT) may be less susceptible to such artifacts. We assessed changes in BMD of the lumbar spine and proximal femur prospectively for 1 year using DXA and QCT in 30 morbidly obese adults undergoing Roux‐en‐Y gastric bypass surgery and 20 obese nonsurgical controls. At 1 year, subjects who underwent gastric bypass surgery lost 37 ± 2 kg compared with 3 ± 2 kg lost in the nonsurgical controls (p < 0.0001). Spine BMD declined more in the surgical group than in the nonsurgical group whether assessed by DXA (?3.3 versus ?1.1%, p = 0.034) or by QCT (?3.4 versus 0.2%, p = 0.010). Total hip and femoral neck aBMD declined significantly in the surgical group when assessed by DXA (?8.9 versus ?1.1%, p < 0.0001 for the total hip and ?6.1 versus ?2.0%, p = 0.002 for the femoral neck), but no changes in hip vBMD were noted using QCT. Within the surgical group, serum P1NP and CTX levels increased by 82% ± 10% and by 220% ± 22%, respectively, by 6 months and remained elevated over 12 months (p < 0.0001 for all). Serum calcium, vitamin D, and PTH levels remained stable in both groups. We conclude that moderate vertebral bone loss occurs in the first year after gastric bypass surgery. However, striking declines in DXA aBMD at the proximal femur were not confirmed with QCT vBMD measurements. These discordant results suggest that artifacts induced by large changes in body weight after bariatric surgery affect DXA and/or QCT measurements of bone, particularly at the hip. © 2014 American Society for Bone and Mineral Research.     

DXA、QCT和SPA方法测量47例绝经后妇女骨质疏松症的比较

以骨密度测量应用最广的３种方法（ＤＸＡ─双能ｘ线吸收法，ＱＣＴ─定量ＣＴ法和ＳＰＡ─单光子吸收法）测量绝经后妇女的骨矿密度，比较其测量值、诊断结果和相关关系。首先用ＳＰＡ法测量绝经后妇女１８１例，诊断骨质疏松（ＯＰ）４７例。三种方法测量骨矿密度的均值分别低于峰值骨量的Ｍ─２ｓ的９％、２１．４％和２１％，且ＤＸＡ和ＱＣＴ两种方法测量的均值都在骨折阈值范围内。ＤＸＡ和ＱＣＴ诊断４７例ＯＰ之间无显著性差异，当排除椎骨骨质增生后的ｘ２＝０．２３７，且ＤＸＡ和ＱＣＴ测量值之间为正相关，ｒ＝０．７９９，而ＤＸＡ、ＱＣＴ和ＳＰＡ之间的相关系数，ｒ＝０．１８５和０．２８５，ＤＸＡ诊断ＯＰ的敏感性为８６．６％，特异性为７０％。     

Bone Assessment in Children: Comparison of Fan-Beam DXA Analysis

Reference databases play a key role in the management of osteoporosis. The aim of this preliminary study was to compare the diagnostic consequences of using either an international or a local reference database in peripheral densitometry. For this purpose, standard curves for bone mineral density (measured by dual-energy X-ray absorptiometry at the distal and proximal forearm) were generated for healthy Hungarian men and women. In total, 303 healthy volunteers of both sexes (age range: 20–94 yr) were recruited from four osteoporosis centers. Subjects with medical conditions or taking medication affecting the bone metabolism were excluded. Bone densitometry was performed with pDEXA (Norland-Stratec, Fort Atkinson, WI) devices in each center after cross-calibration of the machines. The precision error of the forearm measurement was also determined (< 1% in vitro, and 1.2–2.5% in vivo). In females, the peak forearm density was detected in the 30–39-yr group. The density decreased by 8% per 5 yr in early postmenopausal females, and by 10% per 10 yr in late postmenopausal females. In males, the highest bone mineral density was found in the 30–39-yr group for the distal forearm, but 1 decade later for the proximal site. Subsequently, a 5% decrease in density occurred per 10 yr, except in the 8th decade, in which a 20% decrease was demonstrated. One thousand four hundred thirty-four patients with suspected osteoporosis were classified according to the forearm density T-scores using both the new Hungarian reference database and the international database provided by the manufacturer. Comparison of the results measured at the distal forearm with the two different databases led to similar outcomes. However, at the proximal site, one fifth of the female patients were reclassified from the low-density group to the normal group using the domestic normative database. An opposite difference was observed for the males: use of the Hungarian reference data resulted in 40% more men being categorized in the low-density group than when the international normal database was applied. Our results suggest that not only geographic differences, but also the reference database used, can influence the prevalence of the diagnosis of osteoporosis. Further data are currently being collected to increase the statistical power of the study.     

Association between bone indices assessed by DXA,HR-pQCT and QCT scans in post-menopausal women

Quantitative computed tomography (QCT), high-resolution peripheral QCT (HR-pQCT) and dual X-ray absorptiometry (DXA) scans are commonly used when assessing bone mass and structure in patients with osteoporosis. Depending on the imaging technique and measuring site, different information on bone quality is obtained. How well these techniques correlate when assessing central as well as distal skeletal sites has not been carefully assessed to date. One hundred and twenty-five post-menopausal women aged 56–82 (mean 63) years were studied using DXA scans (spine, hip, whole body and forearm), including trabecular bone score (TBS), QCT scans (spine and hip) and HR-pQCT scans (distal radius and tibia). Central site measurements of areal bone mineral density (aBMD) by DXA and volumetric BMD (vBMD) by QCT correlated significantly at the hip (r = 0.74, p < 0.01). Distal site measurements of density at the radius as assessed by DXA and HR-pQCT were also associated (r = 0.74, p < 0.01). Correlations between distal and central site measurements of the hip and of the tibia and radius showed weak to moderate correlation between vBMD by HR-pQCT and QCT (r = ?0.27 to 0.54). TBS correlated with QCT at the lumbar spine (r = 0.35) and to trabecular indices of HR-pQCT at the radius and tibia (r = ?0.16 to 0.31, p < 0.01). There was moderate to strong agreement between measuring techniques when assessing the same skeletal site. However, when assessing correlations between central and distal sites, the associations were only weak to moderate. Our data suggest that the various techniques measure different characteristics of the bone, and may therefore be used in addition to rather than as a replacment for imaging in clinical practice.     

Hip Fracture Risk and Proximal Femur Geometry from DXA Scans

In this retrospective study of hip fracture risk evaluation from hip dual-energy X-ray absorptiometry (DXA) scans, our objectives were to determine which part of the femoral neck length contributes most to the fracture risk and to define a geometric parameter better than hip axis length (HAL) for discriminating hip fracture patients. Forty-nine Caucasian women with a nontraumatic femoral neck fracture were matched on age to 49 normal women and on both age and femoral neck bone mineral density (BMD) to 49 unfractured women. In addition to BMD, geometric parameters including neck–shaft angle, neck width and several HAL segments were evaluated by discriminant analysis to determine which was the best hip fracture discriminator. Neck–shaft angle had a limited influence on the hip fracture risk. Age-related bone loss was associated with a neck width increase in unfractured and fractured patients. HAL was significantly longer in fractured patients and was a significant discriminator between fractured patients and normal controls. HAL was not significant as a discriminator between fractured and low-BMD unfractured patients. The intertrochanter–head center distance (from the intertrochanteric line to the femoral head center) coincides with the femoral lever arm and includes no segments that adapt to BMD changes, such as the greater trochanter–intertrochanter distance. Among all tested lengths, this segment was the part of HAL that discriminated best between fractured and low-BMD unfractured patients. A longer intertrochanter–head center distance increased the risk of femoral neck fracture among low-BMD patients. Including automatic measurement of this segment in standard DXA protocols may prove useful in identifying patients at high risk for hip fracture. At present, HAL remains the easier neck length to measure, but automatic evaluation of the intertrochanter–head center distance must be a goal for future image analysis development. Received: 11 April 2001 / Accepted: 3 January 2002     

Bone Radiomics Score Derived From DXA Hip Images Enhances Hip Fracture Prediction in Older Women

Dual-energy X-ray absorptiometry (DXA)-based bone mineral density testing is standard to diagnose osteoporosis to detect individuals at high risk of fracture. A radiomics approach to extract quantifiable texture features from DXA hip images may improve hip fracture prediction without additional costs. Here, we investigated whether bone radiomics scores from DXA hip images could improve hip fracture prediction in a community-based cohort of older women. The derivation set (143 women who sustained hip fracture [mean age 73 years, time to fracture median 2.1 years] versus 290 age-matched women [mean age 73 years] who did not sustain hip fracture during follow-up [median 5.5 years]) were split into the train set (75%) and the test set (25% hold-out set). Among various models using 14 selected features out of 300 texture features mined from DXA hip images in the train set, random forest model was selected as the best model to build a bone radiomics score (range 0 to 100) based on the performance in the test set. In a community-based cohort (2029 women, mean age 71 years) as the clinical validation set, the bone radiomics score was calculated using a model fitted in the train set. A total of 34 participants (1.7%) sustained hip fracture during median follow-up of 5.4 years (mean bone radiomics score 40 ± 16 versus 28 ± 12 in non-fractured, p < 0.001). A one-point bone radiomics score increment was associated with a 4% elevated risk of incident hip fracture (adjusted hazard ratio [aHR] = 1.04, p = 0.001) after adjustment for age, body mass index (BMI), previous history of fracture, and femoral neck T-score, with improved model fit when added to covariates (likelihood ratio chi-square 10.74, p = 0.001). The association between bone radiomics score with incident hip fracture remained robust (aHR = 1.06, p < 0.001) after adjustment for FRAX hip fracture probability. Bone radiomics scores estimated from texture features of DXA hip images have the potential to improve hip fracture prediction. © 2021 American Society for Bone and Mineral Research (ASBMR).     

Comparison of Postoperative Complications Following Metal-on-Metal Total Hip Arthroplasty With Other Hip Bearings in Medicare Population

Background

The use of metal-on-metal (MoM) hip bearings has declined in the recent years due to strong evidence of their high complication rates and early failure. Hip implants with highly cross-linked polyethylene liners and ceramic bearings have become the modern implants of choice. We sought to determine if MoM implants are associated with higher complication and revision rates when compared to other hip bearings in the Medicare population.

BMDs Derived From Total Body DXA are Strongly Correlated With Dedicated Hip and Spine BMD and are Associated With Prior Fractures in NHANES

Dedicated dual energy X-ray absorptiometry (DXA) bone mineral density (BMD) of the hip and spine are strongly associated with fractures, but it is not clear whether total body (TB) DXA measures correlate with dedicated DXA or relate to fractures. Using National Health and Nutrition Examination Survey (NHANES) data from years 2013–2014 and 2017–2018, we assessed Pearson correlations between dedicated and TB DXA measures. Associations with fractures were examined using self-reported prior fractures or fractures found on vertebral fracture assessment (VFA) using logistic regression models while controlling for age, gender, race/ethnicity, and body mass index. Among 1418 subjects from NHANES 2013–2014, we found signification correlations between all dedicated DXA BMD and TB DXA BMD measures. For dedicated spine BMD, the TB site with the strongest correlation was TB lumbar spine (r = 0.87, p < 0.001), while for dedicated total hip and femoral neck BMD, total body, pelvis, leg, and trunk BMD had the strongest correlations (r = 0.67–0.75, p < 0.001 for all). There were relatively few differences by sex or race/ethnicity. Findings were similar in 481 subjects from NHANES 2017–2018. In NHANES 2013–2014, there were 438 prior fractures in 370 subjects (26.3%). When controlling for age, gender, race/ethnicity, and body mass index, the adjusted odds ratio for fracture per T-score decrease of BMD were similar for TB BMD measures as for dedicated BMD measures (OR 1.10–1.28). In conclusion, total body DXA measures are correlated with hip and spine DXA and are strongly associated with prior fracture. Our results suggest that total body DXA measures are valid alternative sites to study BMD and fracture risk.     

Simulated increases in body fat and errors in bone mineral density measurements by DXA and QCT

Major alterations in body composition, such as with obesity and weight loss, have complex effects on the measurement of bone mineral density (BMD) by dual‐energy X‐ray absorptiometry (DXA). The effects of altered body fat on quantitative computed tomography (QCT) measurements are unknown. We scanned a spine phantom by DXA and QCT before and after surrounding with sequential fat layers (up to 12 kg). In addition, we measured lumbar spine and proximal femur BMD by DXA and trabecular spine BMD by QCT in 13 adult volunteers before and after a simulated 7.5 kg increase in body fat. With the spine phantom, DXA BMD increased linearly with sequential fat layering at the normal (p < 0.01) and osteopenic (p < 0.01) levels, but QCT BMD did not change significantly. In humans, fat layering significantly reduced DXA spine BMD values (mean ± SD: ?2.2 ± 3.7%, p = 0.05) and increased the variability of measurements. In contrast, fat layering increased QCT spine BMD in humans (mean ± SD: 1.5 ± 2.5%, p = 0.05). Fat layering did not change mean DXA BMD of the femoral neck or total hip in humans significantly, but measurements became less precise. Associations between baseline and fat‐simulation scans were stronger for QCT of the spine (r² = 0.97) than for DXA of the spine (r² = 0.87), total hip (r² = 0.80), or femoral neck (r² = 0.75). Bland‐Altman plots revealed that fat‐associated errors were greater for DXA spine and hip BMD than for QCT trabecular spine BMD. Fat layering introduces error and decreases the reproducibility of DXA spine and hip BMD measurements in human volunteers. Although overlying fat also affects QCT BMD measurements, the error is smaller and more uniform than with DXA BMD. Caution must be used when interpreting BMD changes in humans whose body composition is changing. © 2012 American Society for Bone and Mineral Research     

QCT Volumetric Bone Mineral Density and Vascular and Valvular Calcification: The Framingham Study

There is increasing evidence that bone and vascular calcification share common pathogenesis. Little is known about potential links between bone and valvular calcification. The purpose of this study was to determine the association between spine bone mineral density (BMD) and vascular and valvular calcification. Participants included 1317 participants (689 women, 628 men) in the Framingham Offspring Study (mean age 60 years). Integral, trabecular, and cortical volumetric bone density (vBMD) and arterial and valvular calcification were measured from computed tomography (CT) scans and categorized by sex‐specific quartiles (Q4 = high vBMD). Calcification of the coronary arteries (CAC), abdominal aorta (AAC), aortic valve (AVC), and mitral valve (MVC) were quantified using the Agatston Score (AS). Prevalence of any calcium (AS >0) was 69% for CAC, 81% for AAC, 39% for AVC, and 20% for MVC. In women, CAC increased with decreasing quartile of trabecular vBMD: adjusted mean CAC = 2.1 (Q4), 2.2 (Q3), 2.5 (Q2), 2.6 (Q1); trend p = 0.04. However, there was no inverse trend between CAC and trabecular vBMD in men: CAC = 4.3 (Q4), 4.3 (Q3), 4.2 (Q2), 4.3 (Q1); trend p = 0.92. AAC increased with decreasing quartile of trabecular vBMD in both women (AAC = 4.5 [Q4], 4.8 [Q3], 5.4 [Q2], 5.1 [Q1]; trend p = 0.01) and men (AAC = 5.5 [Q4], 5.8 [Q3], 5.9 [Q2], 6.2 [Q1]; trend p = 0.01). We observed no association between trabecular vBMD and AVC or MVC in women or men. Finally, cortical vBMD was unrelated to vascular calcification and valvular calcification in women and men. Women and men with low spine vBMD have greater severity of vascular calcification, particularly at the abdominal aorta. The inverse relation between AAC and spine vBMD in women and men may be attributable to shared etiology and may be an important link on which to focus treatment efforts that can target individuals at high risk of both fracture and cardiovascular events. © 2015 American Society for Bone and Mineral Research.     

Volumetric DXA (VXA): A new method to extract 3D information from multiple in vivo DXA images

Three‐dimensional geometric and structural measurements of the proximal femur are of considerable interest in understanding the strength of the femur and its susceptibility to fracture. Quantitative computed tomography (QCT) with a small voxel size (≤1 mm per side) is the current “gold standard” to examine the macrostructure of the femur, but it has a high effective radiation dose (approximately 2 to 5 mSv) and cost. Volumetric dual‐energy X‐ray absorptiometry (VXA) uses a commercially available DXA system (Hologic Discovery A) to reconstruct the proximal femur from four DXA scans delivering an effective radiation dose of 0.04 mSv. VXA was compared with QCT (voxel size of 0.29 × 0.29 × 1 mm) in 41 elderly women (age 82 ± 2.4 years) at slices located at the femoral neck and trochanteric regions of interest. For parameters of shape, the femoral neck axis length (FNAL) and the cross‐sectional slice area (SA), accuracy and strong linear correlations (r = 0.84 to 0.98) were demonstrated. Similar correlations (r = 0.81 to 0.97) were observed for the density parameters, the cross‐sectional bone area (CSA) and volumetric bone mineral density (vBMD). VXA also demonstrated strong correlations (r = 0.76 to 0.99) for the engineering parameters of the minimum, maximum, and polar cross‐sectional moments of inertia (CSMIs) and the section modulus (Z). We conclude that VXA is capable of generating a variety of 3D geometric and structural measurements that are highly correlated with QCT in elderly subjects in vivo. Moreover, the VXA measurements can be made with a commercially available DXA device at a very low radiation dose. © 2010 American Society for Bone and Mineral Research.