Bone Turnover Markers in Patients with Type 2 Diabetes and Their Correlation with Glycosylated Haemoglobin Levels

Capoglu, Ilyas; Özkan, Adem; Özkan, Behzat; Umudum, Zuhal

doi:10.1177/147323000803600629

Cited by 17 publications

(15 citation statements)

References 23 publications

(19 reference statements)

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“…Treatment with MET for 24 weeks had no apparent effect on serum sclerostin levels, but significantly decreased bone turnover, as assessed by serum markers of bone formation (P1NP) and bone resorption (CTX). A decrease in bone turnover has been previously reported after MET treatment (30,31), but a similar decrease in bone turnover has also been observed after improvement of glycemic control using other therapeutic regimens, such as diet or insulin administration (32). However, the different effects on bone turnover observed in our study in the PIO-treated patients despite a similar control of glucose metabolism demonstrate that the two agents have different effects on bone metabolism that are independent of their glucose-lowering action.…”

Section: Discussionsupporting

confidence: 85%

Distinct effects of pioglitazone and metformin on circulating sclerostin and biochemical markers of bone turnover in men with type 2 diabetes mellitus

Lierop

Hamdy

Meer

et al. 2012

European Journal of Endocrinology

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Objective: Patients with type 2 diabetes mellitus (T2DM) have an increased risk of fractures and thiazolidinediones (TZDs) increase this risk. TZDs stimulate the expression of sclerostin, a negative regulator of bone formation, in vitro. Abnormal sclerostin production may, therefore, be involved in the pathogenesis of increased bone fragility in patients with T2DM treated with TZDs. Methods: We measured serum sclerostin, procollagen type 1 amino-terminal propeptide (P1NP), and carboxy-terminal cross-linking telopeptide of type I collagen (CTX) in 71 men with T2DM treated with either pioglitazone (PIO) (30 mg once daily) or metformin (MET) (1000 mg twice daily). Baseline values of sclerostin and P1NP were compared with those of 30 healthy male controls. Results: Compared with healthy controls, patients with T2DM had significantly higher serum sclerostin levels (59.9 vs 45.2 pg/ml, P!0.001) but similar serum P1NP levels (33.6 vs 36.0 ng/ml, PZ0.39). After 24 weeks of treatment, serum sclerostin levels increased by 11% in PIO-treated patients and decreased by 1.8% in MET-treated patients (PZ0.018). Changes in serum sclerostin were significantly correlated with changes in serum CTX in all patients (rZ0.36, PZ0.002) and in PIO-treated patients (rZ0.39, PZ0.020), but not in MET-treated patients (rZ0.17, PZ0.31). Conclusions: Men with T2DM have higher serum sclerostin levels than healthy controls, and these levels further increase after treatment with PIO, which is also associated with increased serum CTX. These findings suggest that increased sclerostin production may be involved in the pathogenesis of increased skeletal fragility in patients with T2DM in general and may specifically contribute to the detrimental effect of TZDs on bone.

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Section: Discussionsupporting

confidence: 85%

Distinct effects of pioglitazone and metformin on circulating sclerostin and biochemical markers of bone turnover in men with type 2 diabetes mellitus

Lierop

Hamdy

Meer

et al. 2012

European Journal of Endocrinology

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“…The glycemic control seems not to change s-BAP, ucOC, s-PTH, s-25OHD, and s-adiponectin, while u-PYR and s-IGF-1 seem to increase, and u-DPD, u-HP, u-calcium, and u-NTX seem to decrease (Gregorio et al, 1994; Rosato et al, 1998; Capoglu et al, 2008; Kanazawa et al, 2009b). S-OC may not change, increase, or decrease during glycemic control (Gregorio et al, 1994; Capoglu et al, 2008; Kanazawa et al, 2009b, 2011a), where a short period of glycemic control increase s-OC, intermediate periods decrease s-OC, and the longest available period of glycemic control (2 years) increase s-OC (Rosato et al, 1998). The previously proposed positive effect of glycemic control on OC may be present, however the link between OC and glycemic control seems ambiguous due to the different reports.…”

Section: Discussionmentioning

confidence: 99%

“…Over time, u-NTX does not seem to change in T1D. During glycemic control through 12 months T2D may decrease in u-NTX (Capoglu et al, 2008), while shorter periods do not seem to affect u-NTX.…”

Section: Data On Markersmentioning

confidence: 99%

Diabetes, Biochemical Markers of Bone Turnover, Diabetes Control, and Bone

Starup-Linde

2013

Front. Endocrinol.

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Diabetes mellitus is known to have late complications including micro vascular and macro vascular disease. This review focuses on another possible area of complication regarding diabetes; bone. Diabetes may affect bone via bone structure, bone density, and biochemical markers of bone turnover. The aim of the present review is to examine in vivo from humans on biochemical markers of bone turnover in diabetics compared to non-diabetics. Furthermore, the effect of glycemic control on bone markers and the similarities and differences of type 1- and type 2-diabetics regarding bone markers will be evaluated. A systematic literature search was conducted using PubMed, Embase, Cinahl, and SveMed+ with the search terms: “Diabetes mellitus,” “Diabetes mellitus type 1,” “Insulin dependent diabetes mellitus,” “Diabetes mellitus type 2,” “Non-insulin dependent diabetes mellitus,” “Bone,” “Bone and Bones,” “Bone diseases,” “Bone turnover,” “Hemoglobin A Glycosylated,” and “HbA1C.” After removing duplicates from this search 1,188 records were screened by title and abstract and 75 records were assessed by full text for inclusion in the review. In the end 43 records were chosen. Bone formation and resorption markers are investigated as well as bone regulating systems. T1D is found to have lower osteocalcin and CTX, while osteocalcin and tartrate-resistant acid are found to be lower in T2D, and sclerostin is increased and collagen turnover markers altered. Other bone turnover markers do not seem to be altered in T1D or T2D. A major problem is the lack of histomorphometric studies in humans linking changes in turnover markers to actual changes in bone turnover and further research is needed to strengthen this link.

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“…The effects of metformin on systemic bone biomarker concentrations have also been investigated as an indirect assessment of its drug‐related skeletal impact. Several studies in adults with T2D, along with one study in adults with non‐alcoholic fatty liver disease, suggest that extended treatment with metformin results in a decrease in biomarkers of bone turnover including Procollagen type 1 amino‐terminal propeptide (P1NP) and carboxy‐terminal collagen crosslinks (CTX), related, in some studies, to the improvement in glycemic control . These changes are not necessarily confirmed, however, following shorter duration of metformin exposure …”

Section: Drugs and Bonementioning

confidence: 99%

Diabetes pharmacotherapy and effects on the musculoskeletal system

Kalaitzoglou

Fowlkes

Popescu

et al. 2018

Diabetes Metabolism Res

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Summary Persons with type 1 or type 2 diabetes have a significantly higher fracture risk than age‐matched persons without diabetes, attributed to disease‐specific deficits in the microarchitecture and material properties of bone tissue. Therefore, independent effects of diabetes drugs on skeletal integrity are vitally important. Studies of incretin‐based therapies have shown divergent effects of different agents on fracture risk, including detrimental, beneficial, and neutral effects. The sulfonylurea class of drugs, owing to its hypoglycemic potential, is thought to amplify the risk of fall‐related fractures, particularly in the elderly. Other agents such as the biguanides may, in fact, be osteo‐anabolic. In contrast, despite similarly expected anabolic properties of insulin, data suggests that insulin pharmacotherapy itself, particularly in type 2 diabetes, may be a risk factor for fracture, negatively associated with determinants of bone quality and bone strength. Finally, sodium‐dependent glucose co‐transporter 2 inhibitors have been associated with an increased risk of atypical fractures in select populations, and possibly with an increase in lower extremity amputation with specific SGLT2I drugs. The role of skeletal muscle, as a potential mediator and determinant of bone quality, is also a relevant area of exploration. Currently, data regarding the impact of glucose lowering medications on diabetes‐related muscle atrophy is more limited, although preclinical studies suggest that various hypoglycemic agents may have either aggravating (sulfonylureas, glinides) or repairing (thiazolidinediones, biguanides, incretins) effects on skeletal muscle atrophy, thereby influencing bone quality. Hence, the therapeutic efficacy of each hypoglycemic agent must also be evaluated in light of its impact, alone or in combination, on musculoskeletal health, when determining an individualized treatment approach. Moreover, the effect of newer medications (potentially seeking expanded clinical indication into the pediatric age range) on the growing skeleton is largely unknown. Herein, we review the available literature regarding effects of diabetes pharmacotherapy, by drug class and/or by clinical indication, on the musculoskeletal health of persons with diabetes.

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Bone Turnover Markers in Patients with Type 2 Diabetes and Their Correlation with Glycosylated Haemoglobin Levels

Cited by 17 publications

References 23 publications

Distinct effects of pioglitazone and metformin on circulating sclerostin and biochemical markers of bone turnover in men with type 2 diabetes mellitus

Distinct effects of pioglitazone and metformin on circulating sclerostin and biochemical markers of bone turnover in men with type 2 diabetes mellitus

Diabetes, Biochemical Markers of Bone Turnover, Diabetes Control, and Bone

Diabetes pharmacotherapy and effects on the musculoskeletal system

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