UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Physical activity is an important factor for healthy life of the humans. Its significance regards mostly the developmental age, when natural mobility of the youth prones to the proper growing of the skeleton and is important in the prevention and therapy of many diseases. The advantageous effect of regular physical activity and different sport disciplines on bone mass and density is described. In the young age, puberty is an ideal moment for attaining the maximal bone mass and density gain due to physical exercising. The possible harmful effect of exaggerated physical activity has been shown. It is connected with hormonal disorders - secondary amenorrhea, delay of menarche, increased injuries and BMD loss together with significant body mass reduction.
Pediatr Endocrinol Diabetes Metab 2008
PMID:[Value of physical activity for proper bone mass and bone mineral density attaining in children and adolescents]. 1857 48

Children and adolescents with poorly controlled type 1 diabetes mellitus (T1DM) are at risk for decreased bone mass. Growth hormone (GH) and its mediator, IGF-1, promote skeletal growth. Recent observations have suggested that children and adolescents with T1DM are at risk for decreased bone mineral acquisition. We examined the relationships between metabolic control, IGF-1 and its binding proteins (IGFBP-1, -3, -5), and bone mass in T1DM in adolescent girls 12-15 yr of age with T1DM (n = 11) and matched controls (n = 10). Subjects were admitted overnight and given a standardized diet. Periodic blood samples were obtained, and bone measurements were performed. Serum GH, IGFBP-1 and -5, glycosylated hemoglobin (HbA(1c)), glucose, and urine magnesium levels were higher and IGF-1 values were lower in T1DM compared with controls (p < 0.05). Whole body BMC/bone area (BA), femoral neck areal BMD (aBMD) and bone mineral apparent density (BMAD), and tibia cortical BMC were lower in T1DM (p < 0.05). Poor diabetes control predicted lower IGF-1 (r(2) = 0.21) and greater IGFBP-1 (r(2) = 0.39), IGFBP-5 (r(2) = 0.38), and bone-specific alkaline phosphatase (BALP; r(2) = 0.41, p < 0.05). Higher urine magnesium excretion predicted an overall shorter, lighter skeleton, and lower tibia cortical bone size, mineral, and density (r(2) = 0.44-0.75, p < 0.05). In the T1DM cohort, earlier age at diagnosis was predictive of lower IGF-1, higher urine magnesium excretion, and lighter, thinner cortical bone (r(2) >or=0.45, p < 0.01). We conclude that poor metabolic control alters the GH/IGF-1 axis, whereas greater urine magnesium excretion may reflect subtle changes in renal function and/or glucosuria leading to altered bone size and density in adolescent girls with T1DM.
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PMID:IGF-1 and IGF-binding proteins and bone mass, geometry, and strength: relation to metabolic control in adolescent girls with type 1 diabetes. 1884 35

Studies investigating the effect of leptin on bone mass were inconsistent and some related it to the effect of insulin. We intend in this cross-sectional study to investigate the effect of leptin on bone mass in type 1 diabetic patients. We recruited 42 patients with type 1 diabetes for which we determined weight, height, HbA1c, microalbuminuria, serum leptin, bone mineral content (BMC) and density (BMD), and body composition. The patients had an average age of 20.1 +/- 0.6 years, an average body mass index (BMI) of 23.6 +/- 0.5 kg/cm(2) and an average duration of diabetes of 9.1 +/- 1.0 years. The Z-score was not correlated with HbA1c or duration of the disease, and the average Z-score was not different in patients with microalbuminuria as compared to patients with no reported microalbuminuria. On the other hand, Z-score and BMC correlated negatively with leptin (r = -0.31; p = 0.04 and -0.60, p < 0.01, respectively). These correlations persisted after adjustment for fat mass. We conclude that not metabolic control of diabetes, but serum leptin has a negative effect on bone density in young patients with type 1 diabetes. This negative effect of leptin on bone density maybe, in part, due to deficiency of endogenous insulin secretion in these patients.
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PMID:Negative effect of leptin on bone mass in type 1 diabetes. 1869 Apr 7

Fetuin-A is a hepatic secretory protein that promotes bone mineralization in vitro. Whether fetuin-A levels are associated with BMD in humans is unknown. The Health Aging and Body Composition study enrolled 3075 well-functioning black and white persons 70-79 yr of age and measured BMD. This cross-sectional study measured serum fetuin-A using ELISA among a random sample of 508 participants within sex and race strata. Multivariate linear regression analysis evaluated the associations of fetuin-A with BMD. Among women (n = 257), higher fetuin-A levels were significantly associated with higher total hip (p = 0.02), lumbar spine (p = 0.03), and whole body BMD (p = 0.01) in models adjusted for age, race, diabetes, alcohol and tobacco use, physical activity, body mass index, C-reactive protein levels, calcium supplement, and estrogen use. For example, each SD (0.38 g/liter) higher level of fetuin-A was associated with 0.016 g/cm(2) higher total hip areal BMD. The association was of similar magnitude and direction for femoral neck BMD but did not reach statistical significance (p = 0.11). In contrast, among men (n = 251), fetuin-A had no significant associations with total hip (p = 0.79), lumbar spine (p = 0.35), whole body (p = 0.46), or femoral neck BMD (p = 0.54) in multivariable models. We conclude that higher fetuin-A levels are independently associated with higher BMD among well-functioning community-dwelling older women but not older men. Future studies should evaluate whether fetuin-A may refine fracture risk assessment in older women.
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PMID:Fetuin-A and BMD in older persons: the Health Aging and Body Composition (Health ABC) study. 1901 89

Although patients with type 2 diabetes (T2DM) have an increased risk of hip fracture, risk of vertebral fracture (VF) and its association with BMD are still unclear. We examined Japanese T2DM patients (161 men >50 yr and 137 postmenopausal women) and non-DM controls (76 and 622, respectively) by lateral spine radiography and DXA at the lumbar spine (L), femoral neck (FN), and radius (R). Logistic regression analysis adjusted for age, body mass index, and L-BMD showed that the presence of T2DM was an independent risk factor for prevalent VFs in women (OR = 1.86, p = 0.019) and men (OR = 4.73, p < 0.001). BMD at any site, however, was not significantly associated with the presence of prevalent VFs in T2DM patients, in contrast to the significant association in controls (at least p = 0.010). Comparison of T2DM patients with and without VFs showed no significant differences in BMD values, bone markers, or diabetes status. Receiver operating characteristic analysis showed that the absolute L-, FN-, and R-BMD values for detecting prevalent VFs were higher in T2DM patients than controls, whereas their sensitivity and specificity were lower. T2DM patients may have an increased risk of VFs independent of BMD or diabetic complication status, suggesting that bone quality may define bone fragility in T2DM.
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PMID:Diabetic patients have an increased risk of vertebral fractures independent of BMD or diabetic complications. 1904 38

Epidemiological observations support a positive relationship between cardiovascular diseases (CVD) and osteoporosis, where cholesterol has been indicated to be a possible link. Only a few studies have investigated the relation between lipids and BMD, but the association remains unclear. We studied the relationship between serum lipids and BMD of the calcaneus. A cross-sectional population-based study was performed, based on data from the Longitudinal Aging Study Amsterdam, including 620 men and 635 women, 65-88 yr of age. BMD was measured by quantitative ultrasound (QUS), velocity of sound (VOS; m/s), and broadband ultrasound attenuation (BUA; dB/MHz). Models were adjusted for age, body mass index, physical activity, smoking, alcohol, diabetes mellitus, hypertension, testosterone, and 25-hydroxyvitamin D. No association was found between total cholesterol (TC) and QUS. Men and women in the highest quartile of high-density lipoprotein cholesterol (HDL-c) had a significantly lower QUS (men-VOS: beta = -20.8, p = 0.00; BUA: beta = -5.2, p = 0.02; women-VOS: beta = -18.6, p = 0.00) compared with men and women in the lowest quartile. An even stronger positive association was seen between TC/HDL-c ratio and QUS (men-VOS: beta = 21.8, p = 0.00; BUA: beta = 5.5, p = 0.01; women-VOS: beta = 19.2, p = 0.00; BUA: beta = 3.6, p = 0.05). Our analysis shows that the lipid profile that is favorable in the prevention of CVD (i.e., high levels of HDL-c and low TC/HDL-c ratio) is unfavorable for QUS. These results indicate that HDL-c levels do not explain the association between osteoporosis and CVD.
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PMID:Lipid levels: a link between cardiovascular disease and osteoporosis? 1911 6

Heavier individuals have higher hip BMD and more robust femur geometry, but it is unclear whether values vary in proportion with body weight in obesity. We studied the variation of hip BMD and geometry across categories of body mass index (BMI) in a subset of postmenopausal non-Hispanic whites (NHWs) from the Women's Health Initiative Observational Cohort (WHI-OS). The implications on fracture incidence were studied among NHWs in the entire WHI-OS. Baseline DXA scans of hip and total body from 4642 NHW women were divided into BMI (kg/m(2)) categories: underweight (<18.5), healthy weight (18.5-24.9), overweight (25-29.9), and mild (30-34.9), moderate (35-39.9), and extreme obesity (>40). Femur BMD and indices of bone axial (cross-sectional area [CSA]) and bending strength (section modulus [SM]) were extracted from DXA scans using the hip structure analysis (HSA) method and compared among BMI categories after adjustment for height, age, hormone use, diabetes, activity level, femur neck-shaft angle, and neck length. The association between BMI and incident fracture was studied in 78,013 NHWs from the entire WHI-OS over 8.5 +/- 2.6 (SD) yr of follow-up. Fracture incidence (cases/1000 person-years) was compared among BMI categories for hip alone, central body (hip, pelvis, spine, ribs, and shoulder girdle), upper extremity (humerus and distal), and lower extremity (femur shaft and distal but not hip). Femur BMD, CSA, and SM were larger in women with higher BMI, but values scaled in proportion to lean and not to fat or total body mass. Women with highest BMI reported more falls in the 12 mo before enrollment, more prevalent fractures, and had lower measures of physical activity and function. Incidence of hip fractures and all central body fractures declined with BMI. Lower extremity fractures distal to the hip trended upward, and upper extremity incidence was independent of BMI. BMD, CSA, and SM vary in proportion to total body lean mass, supporting the view that bones adapt to prevalent muscle loads. Because lean mass is a progressively smaller fraction of total mass in obesity, femur BMD, CSA, and SM decline relative to body weight in higher BMI categories. Traumatic forces increase with body weight, but fracture rates at the hip and central body were less frequent with increasing BMI, possibly because of greater soft tissue padding. There was no evident protective effect in fracture rates at less padded distal extremity sites. Upper extremity fractures showed no variation with BMI, and lower extremity fracture rates were higher only in the overweight (BMI = 25-29.9 kg/m(2)).
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PMID:Does obesity really make the femur stronger? BMD, geometry, and fracture incidence in the women's health initiative-observational study. 1929 17

People with diabetes have increased risk of fracture disproportionate to BMD, suggesting reduced material strength (quality). We quantified the skeletal effects of type 1 diabetes in the rat. Fischer 344 and Sprague-Dawley rats (12 wk of age) were injected with either vehicle (Control) or streptozotocin (Diabetic). Forelimbs were scanned at 0, 4, 8, and 12 wk using pQCT. Rats were killed after 12 wk. We observed progressive osteopenia in diabetic rats. Trabecular osteopenia was caused by bone loss: volumetric BMD decreased progressively with time in diabetic rats but was constant in controls. Cortical osteopenia was caused by premature arrest of cortical expansion: cortical area did not increase after 4-8 wk in diabetic rats but continued to increase in controls. Postmortem muCT showed a 60% reduction in proximal tibial trabecular BV/TV in diabetic versus control rats, whereas moments of inertia of the ulnar and femoral diaphysis were reduced approximately 30%. Monotonic bending tests indicated that ulna and femora from diabetic animals were approximately 25% less stiff and strong versus controls. Estimates of material properties indicated no changes in elastic modulus or ultimate stress but modest ( approximately 10%) declines in yield stress for diabetic bone. These changes were associated with a approximately 50% increase in the nonenzymatic collagen cross-link pentosidine. Last, cyclic testing showed diminished fatigue life in diabetic bones at the structural (force) level but not at the material (stress) level. In summary, type 1 diabetes, left untreated, causes trabecular bone loss and a reduction in diaphyseal growth. Diabetic bone has greatly increased nonenzymatic collagen cross-links but only modestly reduced material properties. The loss of whole bone strength under both monotonic and fatigue loading is attributed mainly to reduced bone size.
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PMID:Type 1 diabetes in young rats leads to progressive trabecular bone loss, cessation of cortical bone growth, and diminished whole bone strength and fatigue life. 1933 53

TNF-alpha is a major etiologic factor of inflammatory bone diseases such as periodontitis and rheumatoid arthritis. In addition, patients with metabolic diseases such as chronic heart disease and diabetes have significantly increased plasma levels of TNF-alpha. Several lines of evidence show inhibition of osteoblastogenesis by TNF-alpha in vitro. Therefore, bone formation and osteogenesis in these patients might be inhibited because of TNF-alpha. However, little is known about the inhibitory role of TNF-alpha in bone formation/osteogenesis in vivo. The purpose of this study was to investigate the role of TNF-alpha in osteogenesis using a murine tooth extraction model. Lipopolysaccharide (LPS) was injected subcutaneously into the calvariae of either wildtype (WT) or TNF-alpha-deficient (KO) mice. The left incisor was extracted 4 days after LPS injection. The measuring area was established as the tooth socket under the mesial root of the first molar. A significant increase in serum TNF-alpha levels after LPS injection was observed in WT mice. The BMD of the tooth socket was significantly decreased by LPS injection 21 days after extraction in WT but not in KO mice. Histomorphometric analysis showed a significant decrease in the mineral apposition rate after LPS injection, which appeared at an early stage in WT but not in KO mice. Injection of a peptide that blocked the TNF-alpha signaling pathway by preventing transmission of the NF-kappaB signal recovered the inhibition of osteogenesis observed after LPS injection. In conclusion, TNF-alpha might play a major role in LPS-induced inhibition of osteogenesis under inflammatory conditions.
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PMID:LPS-induced inhibition of osteogenesis is TNF-alpha dependent in a murine tooth extraction model. 1941 99

The association of bone with the metabolic syndrome and its features, visceral fat accumulation or insulin resistance, remains unclear. We determined visceral and subcutaneous fat areas (V and S) by computed tomography on 187 men (28-83 years) and 125 postmenopausal women (46-82 years) with type 2 diabetes. Men whose V was 100 cm(2) or more had significantly lower urinary N-terminal cross-linked telopeptide of type-I collagen (p=0.005), higher femoral neck bone mineral density (FN-BMD) (p=0.004), and lower prevalence of vertebral fractures (VFs) (p=0.04) than controls. Fat mass, V, S, and lean body mass positively correlated with FN-BMD in men and with lumbar (L) and FN-BMD in women. When adjusted for weight, these correlations became negative. Urinary C-peptide positively correlated with FN-BMD in both genders. Multivariate logistic regression analysis adjusted for age, height, weight, L-BMD, duration of diabetes, and diabetes therapies identified V in men and urinary C-peptide in women as factors inversely associated with the presence of VFs [odds ratio (OR)=0.61 per SD increase, p=0.04, and OR=0.32, p=0.01, respectively]. These findings suggest that, of the components of the metabolic syndrome, body fat in gravity and hyperinsulinemia could increase FN-BMD in diabetic subjects. Visceral fat in men and hyperinsulinemia in women may protect against VFs independent of weight, L-BMD, diabetes duration, or therapies.
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PMID:Associations between components of the metabolic syndrome versus bone mineral density and vertebral fractures in patients with type 2 diabetes. 1944 53

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