Literature DB >> 24701964

Focal therapeutic irradiation induces an early transient increase in bone glycation.

Megan E Oest1, Timothy A Damron.   

Abstract

Advanced glycation end products (AGEs) are an abnormal modification of the collagenous matrix in bone, and their accumulation contributes to alteration of mechanical properties. Using a mouse model of focal external radiotherapy, we quantified the time-dependent changes in the glycation of bone collagen after 4 daily fractions of 5 Gy exposure to unilateral hindlimb. Fluorometric analysis of decalcified femurs demonstrated a significant and transient increase in the quantity of pentosidine, pyridinolines and nonspecific AGEs per unit of collagen at one week postirradiation. These differences did not persist at 4, 8, 12 or 26 weeks postirradiation. Radiation had no effect on bone collagen content. We hypothesize that following the transient increase in glycation products, these crosslinks are then removed as a result of increased postirradiation osteoclast activity and continued mineralization of the bone.

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Year:  2014        PMID: 24701964      PMCID: PMC4382799          DOI: 10.1667/RR13451.1

Source DB:  PubMed          Journal:  Radiat Res        ISSN: 0033-7587            Impact factor:   2.841


  44 in total

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9.  Contribution of the advanced glycation end product pentosidine and of maturation of type I collagen to compressive biomechanical properties of human lumbar vertebrae.

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2.  Long-term loss of osteoclasts and unopposed cortical mineral apposition following limited field irradiation.

Authors:  Megan E Oest; Veerle Franken; Timothy Kuchera; Judy Strauss; Timothy A Damron
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3.  Parathyroid hormone attenuates radiation-induced increases in collagen crosslink ratio at periosteal surfaces of mouse tibia.

Authors:  Megan E Oest; Bo Gong; Karen Esmonde-White; Kenneth A Mann; Nicholas D Zimmerman; Timothy A Damron; Michael D Morris
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5.  Parathyroid Hormone (1-34) Transiently Protects Against Radiation-Induced Bone Fragility.

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6.  Radiation-induced changes to bone composition extend beyond periosteal bone.

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7.  Relations Between Bone Quantity, Microarchitecture, and Collagen Cross-links on Mechanics Following In Vivo Irradiation in Mice.

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8.  Altered mechanical behavior of demineralized bone following therapeutic radiation.

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9.  Limited field radiation therapy results in decreased bone fracture toughness in a murine model.

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