SwePub - search: WFRF:(Zoulakis Michail)

Enumeration	Reference	Cover	Find
1.	Rudäng, Robert, et al. (author) Bone material strength is associated with areal BMD but not with prevalent fractures in older women. 2016 In: Osteoporosis international : a journal established as result of cooperation between the European Foundation for Osteoporosis and the National Osteoporosis Foundation of the USA. - : Springer Science and Business Media LLC. - 1433-2965. ; 27:4, s. 1585-1592 Journal article (peer-reviewed)abstract Reference point indentation is a novel method to assess bone material strength index (BMSi) in vivo. We found that BMSi at the mid-tibia was weakly associated with spine and hip areal bone mineral density but not with prevalent fracture in a population-based cohort of 211 older women.
2.	Sundh, Daniel, 1985, et al. (author) A High Amount of Local Adipose Tissue Is Associated With High Cortical Porosity and Low Bone Material Strength in Older Women 2016 In: Journal of Bone and Mineral Research. - : Wiley. - 0884-0431 .- 1523-4681. ; 31:4, s. 749-757 Journal article (peer-reviewed)abstract Obesity is associated with increased risk of fractures, especially at skeletal sites with a large proportion of cortical bone, such as the humerus and ankle. Obesity increases fracture risk independently of BMD, indicating that increased adipose tissue could have negative effects on bone quality. Microindentation assesses bone material strength index (BMSi) in vivo in humans. The aim of this study was to investigate if different depots of adipose tissue were associated with BMSi and cortical bone microstructure in a population based group of 202 women, 78.2 +/- 1.1 (mean +/- SD) years old. Bone parameters and subcutaneous (s.c.) fat were measured at the tibia with an XtremeCT device. BMSi was assessed using the OsteoProbe device, and based on at least 11 valid reference point indentations at the mid-tibia. Body composition was measured with dual X-ray absorptiometry. BMSi was inversely correlated to body mass index (BMI) (r=-0.17, p=0.01), whole body fat mass (r=-0.16,p=0.02), and, in particular, to tibia s.c. fat (r=-0.33, p<0.001). Tibia s.c. fat was also correlated to cortical porosity (Ct.Po; r=0.19, p=0.01) and cortical volumetric BMD (Ct.vBMD; r=-0.23, p=0.001). Using linear regression analyses, tibia s.c. fat was found to be independent of covariates (age, height, log weight, bisphosphonates or glucocorticoid use, smoking, calcium intake, walking speed, and BMSi operator) and associated with BMSi (=-0.34,p<0.001), Ct.Po (=0.18, p=0.01), and Ct.vBMD (=-0.32, p<0.001). BMSi was independent of covariates associated with cortical porosity (=-0.14, p=0.04) and cortical volumetric BMD (=0.21, p=0.02) at the distal tibia, but these bone parameters could only explain 3.3% and 5.1% of the variation in BMSi, respectively. In conclusion, fat mass was independently and inversely associated with BMSi and Ct.vBMD, but positively associated with Ct.Po, indicating a possible adverse effect of adipose tissue on bone quality and bone microstructure. Local s.c. fat in tibia was most strongly associated with these bone traits, suggesting a local or paracrine, rather than systemic, negative effect of fat on bone. (c) 2015 The Authors. Journal of Bone and Mineral Research published by Wiley Periodicals, Inc. on behalf of American Society for Bone and Mineral Research (ASBMR).

Sundh, Daniel, 1985, et al. (author)
A High Amount of Local Adipose Tissue Is Associated With High Cortical Porosity and Low Bone Material Strength in Older Women
2016
In: Journal of Bone and Mineral Research. - : Wiley. - 0884-0431 .- 1523-4681. ; 31:4, s. 749-757
Journal article (peer-reviewed)abstract
- Obesity is associated with increased risk of fractures, especially at skeletal sites with a large proportion of cortical bone, such as the humerus and ankle. Obesity increases fracture risk independently of BMD, indicating that increased adipose tissue could have negative effects on bone quality. Microindentation assesses bone material strength index (BMSi) in vivo in humans. The aim of this study was to investigate if different depots of adipose tissue were associated with BMSi and cortical bone microstructure in a population based group of 202 women, 78.2 +/- 1.1 (mean +/- SD) years old. Bone parameters and subcutaneous (s.c.) fat were measured at the tibia with an XtremeCT device. BMSi was assessed using the OsteoProbe device, and based on at least 11 valid reference point indentations at the mid-tibia. Body composition was measured with dual X-ray absorptiometry. BMSi was inversely correlated to body mass index (BMI) (r=-0.17, p=0.01), whole body fat mass (r=-0.16,p=0.02), and, in particular, to tibia s.c. fat (r=-0.33, p<0.001). Tibia s.c. fat was also correlated to cortical porosity (Ct.Po; r=0.19, p=0.01) and cortical volumetric BMD (Ct.vBMD; r=-0.23, p=0.001). Using linear regression analyses, tibia s.c. fat was found to be independent of covariates (age, height, log weight, bisphosphonates or glucocorticoid use, smoking, calcium intake, walking speed, and BMSi operator) and associated with BMSi (=-0.34,p<0.001), Ct.Po (=0.18, p=0.01), and Ct.vBMD (=-0.32, p<0.001). BMSi was independent of covariates associated with cortical porosity (=-0.14, p=0.04) and cortical volumetric BMD (=0.21, p=0.02) at the distal tibia, but these bone parameters could only explain 3.3% and 5.1% of the variation in BMSi, respectively. In conclusion, fat mass was independently and inversely associated with BMSi and Ct.vBMD, but positively associated with Ct.Po, indicating a possible adverse effect of adipose tissue on bone quality and bone microstructure. Local s.c. fat in tibia was most strongly associated with these bone traits, suggesting a local or paracrine, rather than systemic, negative effect of fat on bone. (c) 2015 The Authors. Journal of Bone and Mineral Research published by Wiley Periodicals, Inc. on behalf of American Society for Bone and Mineral Research (ASBMR).

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