Biochemical bone marrow markers and their significance in postmenopausal osteoporosis--a new method in the diagnosis of osteoporosis?]

This study analyzes the qualification of biochemical markers in the diagnosis of osteoporosis and evaluates the potential of a multiparametric classification of premenopausal and non-osteoporotic as well as osteoporotic postmenopausal women, which is based on biochemical marker profiles. For this evaluation data of 29 women in the age between 28-74 years were used. The classification of osteoporosis was done by the trabecular density of the lumbar spine using qCT-measurements. The biochemical markers of formation and resorption AP, bAP, OC, ucOC, PICP, PYD, DPD, NTX, BSP and vitamin K were analyzed on day 1 and 42 in all patients. For vitamin K we found significant distribution differences between non-osteoporotic and osteoporotic women (p<0.005). The crosslinks PYD and DPD showed weakly significant differences. All other parameters exhibited non-significant results. Vitamin K acted with a sensitivity of 64% and a specificity of 82%. The used multiparameter classification process improved sensitivity and specificity considerably. The parameter profiles of OC/PYD, vitamin K/PYD and vitamin K/bAP revealed the highest sensitivities with specificities of more than 82%.     

Noninvasive markers of bone metabolism in the rhesus monkey: Normal effects of age and gender

Abstract: Measurement of bone turnover in conditions such as osteoporosis has been limited by the need for invasive iliac bone biopsy to reliably determine parameters of bone metabolism. Recent advances in the area of serum and urinary markers of bone metabolism have raised the possibility for noninvasive measurements; however, little nonhuman primate data exist for these parameters. The purpose of this experiment was to define the normal range and variability of several of the newer noninvasive bone markers which are currently under investigation in humans. The primary intent was to determine age and gender variability, as well as provide some normative data for future experiments in nonhuman primates. Twenty-four rhesus macaques were divided into equal groups of male and female according to the following age groupings: 3 years, 5–10 years, 15–20 years, and > 25 years. Urine was collected three times daily for a four-day period and measured for several markers of bone turnoverm including pyridinoline (PYD), deoxypyrodinoline (DPD), hydroxyproline, and creatinine. Bone mineral density measurements of the lumbar spine were performed at the beginning and end of the study period. Serum was also obtained at the time of bone densitometry for measurement of osteocalcin levels by radioimmunoassay. There were no significant differences in bone mineral density, urine PYD, or urine DPD based on gender. Bone density was lowest in the youngest animals, peaked in the 15–20-year group, but again decreased in the oldest animals. The osteocalcin, PYD, and DPD levels followed an inversely related pattern to bone density. The most important result was the relative age insensitivity of the ratio of PYD:DPD in monkeys up to age 20 years. Since bone density changes take months or years to become measurable and iliac biopsies are invasive, the PYD/DPD marker ratio may have important implications for rapid noninvasive measurement of the effects of potential treatments for osteoporosis in the non-human primate model.     

High-performance liquid chromatography method to analyze free and total urinary pyridinoline and deoxypyridinoline

The pyridinium cross-links pyridinoline (PYD) and deoxypyridinoline (DPD) are established markers of bone resorption measured in blood and urine and are used to investigate bone metabolism and manage bone diseases. Unfortunately, the currently observed interlaboratory variability caused by inconsistent assay calibration limits the optimal use of these markers. A high-performance liquid chromatography (HPLC)-based assay was developed using synthetic PYD and DPD as calibrators to analyze free and total PYD and DPD in urine. The spectroscopic characteristics of the synthetic calibrators were identical to those of calibrators isolated from bone. The mean intraassay variabilities of the HPLC method were 4.1 and 3.8%, respectively, for total DPD and PYD and 9.8 and 9.5%, respectively, for free DPD and PYD. The mean interassay variabilities were 9.1 and 8.2% for total DPD and PYD and 8.6 and 7.0% for free DPD and PYD, respectively. The mean recoveries were 98.1% for total DPD, 100.8% for total PYD, 98.6% for free DPD, and 94.9% for free PYD. The method exhibits a good correlation with a commercial immunoassay and with other HPLC assays currently used in hospital laboratories.     

Elucidation of the mechanism producing menaquinone-4 in osteoblastic cells

Vitamin K is an essential nutrient and a cofactor for the carboxylation of specific glutamyl residues of proteins to γ-glutamyl residues, which activates osteocalcin related to bone formation. Among vitamin K homologues, menaquinone-4 (MK-4) is the most active biologically, up-regulating the gene expression of bone markers, and thus has been clinically used in the treatment of osteoporosis in Japan. Recently, we confirmed that MK-4 was converted from dietary phylloquinone (PK), and then accumulated in various tissues at high concentrations. This system should play an important role in biological functions including bone formation, however, the pathway by which MK-4 is converted remains unclear. In this study, we studied the mechanism of MK-4’s conversion with chemical techniques using deuterated analogues.     

1,25(OH)2D3 inhibits the deleterious effects induced by high glucose on osteoblasts through undercarboxylated osteocalcin and insulin signaling

Diabetes mellitus (DM) is associated with multiple skeletal disorders, and vitamin D may play a functional role in the preservation of glucose tolerance. However, the relationship between vitamin D deficiency and DM is not well known. The aim of this study was to investigate the potential molecular link between 1,25(OH)(2)D(3) regulation and glucose homeostasis. Rat primary osteoblasts were cultured in different conditioned medium: normal glucose, high glucose, high glucose and insulin, high glucose and 1,25(OH)(2)D(3), high glucose and insulin and 1,25(OH)(2)D(3). The activity of osteoblasts was measured by cell viability, alkaline phosphatase and osteocalcin assay. The potential mechanism of how 1,25(OH)(2)D(3) affect insulin sensitivity was investigated by the assay of insulin receptor (IR) and vitamin D receptor (VDR) expression, and undercarboxylated osteocalcin (ucOC) level. The combined treatment has the strongest effect of inhibiting the deleterious effects induced by high glucose on osteoblasts, and it promoted the %ucOC value to approximately 40%, which is much higher than that in high glucose without treatment. Levels of IR and VDR of osteoblasts in combined treatment culture increased significantly compared with that in high glucose without treatment. So maybe 1,25(OH)(2)D(3) promotes insulin sensitivity of osteoblasts by activating insulin signaling and simultaneously stimulating ucOC secretion, which in turn regulate insulin production and sensitivity. 1,25(OH)(2)D(3) might be beneficial not only for diabetes, but also, for osteoporosis by promoting bone formation.     

Bone markers during a 6-month space flight: effects of vitamin K supplementation

Rapid bone loss is a serious health problem for astronauts during long lasting missions in space. We have recorded the changes of biochemical markers for bone metabolism in one of the astronauts during the 6-month space flight of the EUROMIR-95 mission. Immediately after launch both bone resorption markers and urinary calcium excretion increased about two fold, whereas bone formation markers remained unchanged. After 12 1/2 weeks the astronaut received vitamin K1 (10 mg/day for 6 weeks). Vitamin K is known to be involved in the formation of gamma-carboxyglutamate (Gla) in proteins, such as the calcium-binding bone Gla-proteins osteocalcin and matrix Gla-protein. Concomitant with the start of vitamin K treatment, the calcium-binding capacity of osteocalcin increased, and so did the urinary excretion of free Gla. This is suggestive for a subclinical vitamin K-deficiency in the astronaut before vitamin K-supplementation. During periods of high vitamin K status markers for bone formation (osteocalcin and bone alkaline phosphatase) had increased as compared to the first part of the flight. The mean increases were 14 and 23%, respectively. Our data suggest that increased intake of vitamin K may contribute to counteracting microgravity-induced loss of bone mass during long lasting space missions, but need confirmation in more astronauts.     

Effects of dietary vitamin k levels on bone quality in broilers

This study was conducted to evaluate the effects of dietary vitamin K (menadione) on bone quality in cage-raised broilers. Three hundred and sixty male broilers were randomly allotted to one of six treatments, with six replicate pens per treatment and 10 chicks per pen. Broilers were fed one of six diets including a control diet or the control diet plus graded levels of vitamin K (0.5 mg/kg, 2 mg/kg, 8 mg/kg, 32 mg/kg and 128 mg/kg). Water and feed were provided ad libitum during the 7-week experimental period. Results indicated that vitamin K supplementation of broilers diets significantly effected bone quality and feed efficiency. The treatment containing vitamin K at 8 mg/kg improved growth performance (during weeks 6 - 7) and bone quality (during weeks 0 - 3). In our study, hydroxyapatite binding capacity of serum osteocalcin (during weeks 0 - 3), bone breaking strength, bone flexibility, bone ash weight increased linearly (P < 0.05) and bone mineral density, bone mineral content increased quadratically (P < 0.05) with increasing supplementation of vitamin K. In conclusion, to gain optimum bone quality and broiler performance, our studies suggest that the concentration of vitamin K in broilers diets should be 8 mg/kg, 2 mg/kg, and 2 mg/kg, for the starter, grower and finisher phases, respectively. Furthermore, it was shown that the starter period is an important phase for improving bone quality. In addition, this study validated the mechanism of vitamin K effects on bone quality. Vitamin K boosts the carboxylation of osteocalcin and decreases the concentration of serum undercarboxylated osteocalcin enhancing hydroxyapatite binding capacity of serum osteocalcin and improving bone quality.     

绝经后骨质疏松患者血清I型胶原氨基末端、I型胶原羧基末端及骨钙素的表达变化及临床意义

摘要 目的：探讨绝经后骨质疏松患者血清I型胶原氨基末端（NTx）、I型胶原羧基末端（CTX）及骨钙素（BGP）的表达变化及临床意义。方法：选取我院2017年8月-2022年8月收治的60例绝经后骨质疏松患者作为研究对象,将其分为观察组,另选取同期来我院体检的60名绝经后健康志愿者作为对照组。对比两组患者NTx、CTX、BGP表达水平,并建立受试者特征工作（ROC）曲线分析NTx、CTX、BGP对绝经后骨质疏松的诊断效能。3个月后对所有患者进行门诊复查随访,将症状明显明显减轻,X线检查明显改善,骨密度值明显增加的35例绝经后骨质疏松患者分为预后良好组,将其余25例未达到上述标准的患者分为预后不良组,对比两组患者临床一般情况,并应用Logistic回归分析NTx、CTX、BGP对绝经后骨质疏松的预后预测价值。结果：两组受检者NTx、CTX、BGP表达水平对比差异显著,观察组NTx、CTX高于对照组,BGP低于对照组（P＜0.05）; NTx、CTX、BGP三者联合对绝经后骨质疏松的诊断效能优于单一检测（P＜0.05）;预后良好组与预后不良组患者年龄、BMI、合并基础疾病、病程、Ca表达水平对比无明显差异（P＞0.05）,预后良好组与预后不良组患者病情严重程度、骨密度T值、雌二醇、血清NTx、CTX、BGP表达水平对比差异显著（P＜0.05）;logistic回归分析结果表明：CTX、BGP为绝经后骨质疏松的预后不良的独立影响因素（P＜0.05）。结论：绝经后骨质疏松患者血清I型胶原氨基末端、I型胶原羧基末端表达水平高于非骨质疏松群体,骨钙素低于非骨质疏松群体,三者联合可提升绝经后骨质疏松的诊断效能。另外,CTX、BGP作为绝经后骨质疏松的预后不良的独立影响因素,CTX水平越高、BGP水平越低可能预示患者预后不良,因此临床需针对此类患者及时改良治疗措施,提升其预后水平。     

Vitamin K deficiency inhibits mineralization and enhances deformity in vertebrae of haddock (Melanogrammus aeglefinus L.)

Vitamin K has been known to regulate bone formation through osteocalcin synthesis by osteoblasts, which is important for mineralization and bone structure. The mechanism underlying the relationship of vitamin K with the changes of microanatomy is not fully understood, and our goal is to test whether bone deformities develop in association with vitamin K deficiency. Fish were fed a semi-purified diet containing either devoid (0.00 mg/kg diet) or adequate (40.0 mg/kg diet supplemented but 20.8 mg/kg analyzed) levels of vitamin K (menadione sodium bisulphite) for 20 weeks. At the end of 8 and 20 weeks, fish were subjected to gross examination and X-ray, and mineral content of the vertebrae was measured. The vertebrae were also subjected to histological, histomorphometric and enzyme histochemical examinations to determine the bone formation and resorption. Vitamin K deficiency primarily decreased bone mineralization and subsequently a decrease in bone mass thus resulted in an increased susceptibility to bone deformity. The occurrence of bone deformities coincided with an increased amount of osteoid tissue and decreased bone mineral content. Number of osteoblasts and osteoclasts were not affected by dietary vitamin K. In conclusion, vitamin K deficiency can impair bone mineralization and enhances bone deformities.     

The Use of Vitamins and Minerals in Skeletal Health: American Association of Clinical Endocrinologists and the American College of Endocrinology Position Statement

Abbreviations: 25(OH)D = 25-hydroxyvitamin D; BMD = bone mineral density; CV = cardiovascular; GI = gastrointestinal; IOM = Institute of Medicine; PTH = parathyroid hormone; RCT = randomized controlled trial; αTF = α-tocopherol; ucOC = undercarboxylated osteocalcin; VKA = vitamin K antagonist; WHI = Women's Health Initiative     

老年女性类风湿关节炎合并骨质疏松症的代谢特点分析

目的:探讨老年女性类风湿关节炎(RA)合并骨质疏松症的代谢特点。方法:选择老年绝经后女性RA患者共59例,检测患者血生化代谢指标如血糖、血脂、CRP等和骨代谢指标如骨钙素(OC)、β-胶原特殊序列(β-Crosslaps)甲状旁腺素(iPTH)等,并进行统计分析。结果:骨质疏松患者的绝经时间、病程长度、OC、β-Crosslaps、iPTH显著高于骨量正常和骨量减少的患者,25羟基维生素D显著低于骨量正常和骨量减少的患者(P均0.05)。RA患者的骨密度水平与是否使用激素和X线分期情况无关。结论:老年女性RA患者易发生骨质疏松,出现骨质疏松的RA女性患者绝经时间更长,可出现脂代谢紊乱及明显的维生素D缺乏,并具有高转换型骨代谢特点。     

Vitamin K and D association stimulates in vitro osteoblast differentiation of fracture site derived human mesenchymal stem cells

There is growing interest in osteoinductive agents for fracture healing especially in patients with non-union or delayed-union fractures. The aim of the present study is the assessment of the association of Vitamins D3 and K1 on proliferation and differentiation of human mesenchymal stem cells (hMSCs) derived from fracture sites in view of a possible clinical use. The synergic effect of Vitamin D3 and Vitamin K2 in preventing osteoporosis has been documented in clinical practice; however no reports investigating this association for fracture healing are present. Our data show a different outcome on cell proliferation linked to the different timing of drug administration as well as a synergic effect of the two vitamins on cell differentiation. The high level of osteocalcin and carboxylated osteocalcin detected in hMSCs treated with the association of the two vitamins in comparison with controls and with single vitamin administration underline the differentiation of these cells into osteoblastic phenotype. Our results indicate for the first time that vitamin D3 and K1 association is able to modulate in vitro the differentiation towards osteoblastic phenotype of hMSCs derived from fracture sites, thus offering clinicians a promising and low-cost strategy for reparative osteogenesis.     

Effects of physical training on bone mineral density and bone metabolism

The purpose of this study was to examine the influences of long-term walking training and walking and jumping training on bone mineral density (BMD) and bone metabolism. Data from 28 healthy premenopausal women was assessed. The subjects were divided into the walking group (WG; 17 women mean+/-SE age 35+/-2 years), and the walking and jumping group (WJG; 11 women mean+/-SE age 39+/-1 years). BMD was measured in the lumbar spine and proximal femur using dual energy X-ray absorptiometry (DXA). As markers of bone metabolism, this study was to measure bone formation markers, bone-alkaline phosphatase (B-ALP: measured by enzyme immunoassay/EIA) and osteocalcin (BGP: by radioimmunoassay/RI) as well as bone resorption markers, parathyroid hormone (PTH: measured by/RI) and type I collagen cross-linked N-telopeptides (NTx: by EIA). Despite the significant decrease in body weight (p<0.05), no corresponding decrease in BMD was observed. Moreover, no significant difference in bone markers BGP, PTH, and NTx was observed. B-ALP was significantly increased (p<0.05) after one year, and the rate of this increase was greater in the WJG than in the WG. It is thus concluded that walking training for one year is beneficial for the promotion of bone formation, and that jumping stimulus maintain BMD effectively.     

Novel effects of diets enriched with corn oil or with an olive oil/sunflower oil mixture on vitamin K metabolism and vitamin K-dependent proteins in young men

Little is known of how the fat components of diets influence the absorption and metabolism of vitamin K and the possible consequences to the synthesis of vitamin K-dependent (VKD) proteins in different target organs. We have evaluated the effects of two diets on circulating phylloquinone (K1) and triacylglycerols (TAG). One diet was enriched with corn oil (CO) (also rich in gamma-tocopherol) and the other with an olive/sunflower (O/SO) mixture (rich in alpha-tocopherol). Effects on gamma-carboxylation were assessed from coagulation assays and sensitive assays for undercarboxylated prothrombin (ucFII) and osteocalcin (ucOC). Total plasma matrix Gla-protein (MGP) was also measured. After an initial adjustment diet, 26 healthy young men were fed, in a crossover design, the O/SO or CO diet for 2 weeks. Mean intakes of K1 during consumption of adjustment, O/SO, and CO diets were 225 microg/day, 291 microg/day, and 291 microg/day, respectively. Mean fasting levels of TAG and K1 were both significantly reduced by the CO diet, but not by the O/SO diet. Neither diet reduced FII activity but ucFII became detectable in nine subjects, eight of whom showed this abnormality with both diets. The CO diet induced a rise in ucOC (P < 0.05), which was negatively correlated to ucFII (r = -0.71, P < 0.03). The CO but not O/SO diet induced a decrease of total circulating MGP. We conclude that both oils, notably CO, affected vitamin K absorption and/or metabolism which may increase the requirements for gamma-carboxylation. The mechanism is unclear but may result from interactions of vitamin K with PUFA and/or other lipid components such as vitamin E.     

Osteocalcin Is Not Associated with the Risk of Type 2 Diabetes: Findings from the EPIC-NL Study

Objective

To investigate whether total osteocalcin (tOC), uncarboxylated osteocalcin (ucOC) and percentage of uncarboxylated osteocalcin (%ucOC) are associated with the risk of type 2 diabetes.

Methods

This nested case control study included 1,635 participants, 833 incident diabetes cases and 802 non-diabetic control participants, aged 21–70 years from the EPIC-NL cohort. Baseline concentrations of tOC, ucOC and %ucOC were assessed. During 10 years of follow-up, diabetes cases were self-reported and verified against information from general practitioners or pharmacists. The association between the different forms of osteocalcin and diabetes risk was assessed with logistic regression adjusted for diabetes risk factors (waist circumference, age, sex, cohort, smoking status, family history of diabetes, hypertension, alcohol intake, physical activity and education) and dietary factors (total energy intake and energy adjusted intake of fat, fiber, protein and calcium).

Results

TOC concentration was not associated with diabetes risk, with an odds ratio (OR) of 0.97 (0.91–1.03) for each ng/ml increment after adjustment for diabetes risk factors and dietary factors. No association between ucOC and %ucOC and the risk of diabetes was observed either. In sex stratified analyses (P interaction = 0.07), higher %ucOC tended to be associated with an increased risk of type 2 diabetes in a multivariable model in women (OR 1.05 for each increment of 5% ucOC (1.00–1.11), P_trend = 0.08), but not in men (OR 0.96 for each increment of 5% ucOC (0.88–1.04)). When waist circumference was replaced by body mass index, none of the osteocalcin forms were associated with the risk of type 2 diabetes in the final model among both women and men.

Conclusions

Available evidence suggests that tOC, ucOC and %ucOC are each not associated with the risk of type 2 diabetes. However, more large-scale cohort studies are needed to clarify the presence of any association between the different forms of osteocalcin and the risk of type 2 diabetes.     

Dexamethasone, BMP-2, and 1,25-dihydroxyvitamin D enhance a more differentiated osteoblast phenotype: validation of an in vitro model for human bone marrow-derived primary osteoblasts

In vitro models of bone cells are important for the study of bone biology, including the regulation of bone formation and resorption. In this study, we have validated an in vitro model of human osteoblastic cells obtained from bone marrow biopsies from healthy, young volunteers, aged 20-31 years. Osteoblast phenotypes were induced by either dexamethasone (Dex) or bone morphogenetic protein-2 (BMP-2). Bone marrow was obtained from biopsies at the posterior iliac spine. Cells were isolated by gradient centrifugation and grown to confluence. Cells were treated with 1 nM 1,25-dihydroxyvitamin D (vitamin D), 100 nM Dex, and/or 100 ng/ml BMP-2. The osteoblast phenotype was assessed as alkaline phosphatase (AP) activity/staining, production of osteocalcin and procollagen type 1 (P1NP), parathyroid hormone (PTH)-induced cyclic adenosine mono-phosphate (cAMP) production, and in vitro mineralization. AP activity was increased by Dex, but not by BMP-2 treatment. P1NP production was decreased after Dex treatment, while BMP-2 had no effect on P1NP levels. Osteocalcin production was low in cultures not stimulated with vitamin D. Dex or BMP-2 treatment alone did not affect the basic osteocalcin levels, but in combination with vitamin D, BMP-2 increased the osteocalcin production, while Dex treatment completely suppressed osteocalcin production. Further, PTH-induced cAMP production was greatly enhanced by Dex treatment, whereas BMP-2 did not affect cAMP production. Finally, in vitro mineralization was greatly enhanced in cultures enriched with either BMP-2 or Dex. Cell proliferation was only increased significantly by Dex treatment. In conclusion, the model described produces cells with an osteoblastic phenotype, and both Dex and BMP-2 can be used as osteoblast inducers. However, the two treatments produce osteoblastic cells with different phenotypic characteristics, and a selective activation of some of the most important genes and functions of the mature osteoblast can thus be performed in vitro.     

Correlation Between Bone Markers and Bone Mineral Density in Postmenopausal Women with Osteoporosis

ObjectiveTo study the relationship between bone markers and bone mineral density (BMD) in an effort to identify their utility in postmenopausal women with osteoporosis.MethodsEighty-two consecutive postmenopausal women with untreated osteoporosis were included in the study. Forearm, spinal, and femoral BMD by dual-energy x-ray absorptiometry and markers of bone formation (serum osteocalcin and bone-specific alkaline phosphatase) and bone resorption (urinary free deoxypyridinoline) were measured in all patients. Patients with low serum vitamin D levels, secondary osteoporosis, or clinically significant systemic disease were excluded from the study. The patients were classified on the basis of BMD of the lumbar spine into the following 3 groups: mild (n = 23) (T score -2.5 through -3), moderate (n = 42) (T score -3.1 through -4), or severe (n = 17) (T score ≤-4.1) osteoporosis. One-way analysis of variance and Pearson correlation were used for statistical analysis, with a P value < .05 being considered significant.ResultsSerum osteocalcin was significantly different among the 3 study groups (4.1 ± 2.7, 4.5 ± 3.1, and 6.7 ± 5.6 ng/mL, respectively; P = .0349) and had a significant negative correlation with BMD (r² = -0.0779; P = .0168). Other bone markers such as bone-specific alkaline phosphatase and urinary free deoxypyridinoline did not correlate with the underlying BMD.ConclusionIn our study, osteocalcin was significantly correlated with BMD in postmenopausal women with osteoporosis. Other bone markers did not correlate with BMD. Further large-scale population data and analyses are needed to confirm these findings. (Endocr Pract. 2008;14:1102-1107)     

Beneficial effects of losartan on vascular injury induced by advanced glycosylation end products and their receptors in spontaneous hypertension rats

The purpose of this study was to examine the effects of ENA Actimineral Resource A (ENA-A), seaweed origin alkaline water, on postmenopausal osteoporosis in ovariectomized (OVX) rats. The 12-week old Wistar rats were divided randomly into 4 groups: ovariectomized (OVX), OVX plus 0.5% ENA-A, OVX plus 5% ENA-A and OVX plus 10% ENA-A. A histopathological analysis indicated that ENA-A could prevent OVX-induced bone loss by increasing femur trabecular bone area in a dose-dependent manner. ENA-A significantly (p < 0.05) increased serum estradiol levels, decreased serum osteocalcin activity and suppressed serum pyridinoline (PYD) levels. The in vitro effects of ENA-A were also studied using MC3T3-E1 cells. ENA-A significantly stimulated cell proliferation and increased both ALP activity and calcium deposition in a dose-dependent manner. These results suggest that the treatment of ovariectomized rats with ENA-A not only prevents bone resorption but also appears to maintain the cancellous bone structure of postmeopausal osteoporosis.