Does Anticoagulant Medication Alter Fracture-Healing? A Morphological and Biomechanical Evaluation of the Possible Effects of Rivaroxaban and Enoxaparin Using a Rat Closed Fracture Model

Peter Michael Prodinger; Rainer Burgkart; Kilian Kreutzer; Franz Liska; Hakan Pilge; Andreas Schmitt; Martina Knödler; Boris Michael Holzapfel; Alexander Hapfelmeier; Thomas Tischer; Oliver Bissinger

doi:10.1371/journal.pone.0159669

Does Anticoagulant Medication Alter Fracture-Healing? A Morphological and Biomechanical Evaluation of the Possible Effects of Rivaroxaban and Enoxaparin Using a Rat Closed Fracture Model

Standard

Does Anticoagulant Medication Alter Fracture-Healing? A Morphological and Biomechanical Evaluation of the Possible Effects of Rivaroxaban and Enoxaparin Using a Rat Closed Fracture Model. / Prodinger, Peter Michael; Burgkart, Rainer; Kreutzer, Kilian; Liska, Franz; Pilge, Hakan; Schmitt, Andreas; Knödler, Martina; Holzapfel, Boris Michael; Hapfelmeier, Alexander; Tischer, Thomas; Bissinger, Oliver.

In: PLOS ONE, Vol. 11, No. 7, 25.07.2016, p. e0159669.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Prodinger, PM, Burgkart, R, Kreutzer, K, Liska, F, Pilge, H, Schmitt, A, Knödler, M, Holzapfel, BM, Hapfelmeier, A, Tischer, T & Bissinger, O 2016, 'Does Anticoagulant Medication Alter Fracture-Healing? A Morphological and Biomechanical Evaluation of the Possible Effects of Rivaroxaban and Enoxaparin Using a Rat Closed Fracture Model', PLOS ONE, vol. 11, no. 7, pp. e0159669. https://doi.org/10.1371/journal.pone.0159669

APA

Prodinger, P. M., Burgkart, R., Kreutzer, K., Liska, F., Pilge, H., Schmitt, A., Knödler, M., Holzapfel, B. M., Hapfelmeier, A., Tischer, T., & Bissinger, O. (2016). Does Anticoagulant Medication Alter Fracture-Healing? A Morphological and Biomechanical Evaluation of the Possible Effects of Rivaroxaban and Enoxaparin Using a Rat Closed Fracture Model. PLOS ONE, 11(7), e0159669. https://doi.org/10.1371/journal.pone.0159669

Vancouver

Prodinger PM, Burgkart R, Kreutzer K, Liska F, Pilge H, Schmitt A et al. Does Anticoagulant Medication Alter Fracture-Healing? A Morphological and Biomechanical Evaluation of the Possible Effects of Rivaroxaban and Enoxaparin Using a Rat Closed Fracture Model. PLOS ONE. 2016 Jul 25;11(7):e0159669. https://doi.org/10.1371/journal.pone.0159669

Bibtex

@article{9b130bf8dc054ccf95cbc2e1d8219e00,

title = "Does Anticoagulant Medication Alter Fracture-Healing? A Morphological and Biomechanical Evaluation of the Possible Effects of Rivaroxaban and Enoxaparin Using a Rat Closed Fracture Model",

abstract = "Low molecular weight heparin (LMWH) is routinely used to prevent thromboembolism in orthopaedic surgery, especially in the treatment of fractures or after joint-replacement. Impairment of fracture-healing due to increased bone-desorption, delayed remodelling and lower calcification caused by direct osteoclast stimulation is a well-known side effect of unfractioned heparin. However, the effect of LMWH is unclear and controversial. Recent studies strongly suggest impairment of bone-healing in-vitro and in animal models, characterized by a significant decrease in volume and quality of new-formed callus. Since October 2008, Rivaroxaban (Xarelto) is available for prophylactic use in elective knee- and hip-arthroplasty. Recently, some evidence has been found indicating an in vitro dose independent reduction of osteoblast function after Rivaroxaban treatment. In this study, the possible influence of Rivaroxaban and Enoxaparin on bone-healing in vivo was studied using a standardized, closed rodent fracture-model. 70 male Wistar-rats were randomized to Rivaroxaban, Enoxaparin or control groups. After pinning the right femur, a closed, transverse fracture was produced. 21 days later, the animals were sacrificed and both femora harvested. Analysis was done by biomechanical testing (three-point bending) and micro CT. Both investigated substances showed histomorphometric alterations of the newly formed callus assessed by micro CT analysis. In detail the bone (callus) volume was enhanced (sign. for Rivaroxaban) and the density reduced. The bone mineral content was enhanced accordingly (sign. for Rivaroxaban). Trabecular thickness was reduced (sign. for Rivaroxaban). Furthermore, both drugs showed significant enlarged bone (callus) surface and degree of anisotropy. In contrast, the biomechanical properties of the treated bones were equal to controls. To summarize, the morphological alterations of the fracture-callus did not result in functionally relevant deficits.",

author = "Prodinger, {Peter Michael} and Rainer Burgkart and Kilian Kreutzer and Franz Liska and Hakan Pilge and Andreas Schmitt and Martina Kn{\"o}dler and Holzapfel, {Boris Michael} and Alexander Hapfelmeier and Thomas Tischer and Oliver Bissinger",

year = "2016",

month = jul,

day = "25",

doi = "10.1371/journal.pone.0159669",

language = "English",

volume = "11",

pages = "e0159669",

journal = "PLOS ONE",

issn = "1932-6203",

publisher = "Public Library of Science",

number = "7",

}

RIS

TY - JOUR

T1 - Does Anticoagulant Medication Alter Fracture-Healing? A Morphological and Biomechanical Evaluation of the Possible Effects of Rivaroxaban and Enoxaparin Using a Rat Closed Fracture Model

AU - Prodinger, Peter Michael

AU - Burgkart, Rainer

AU - Kreutzer, Kilian

AU - Liska, Franz

AU - Pilge, Hakan

AU - Schmitt, Andreas

AU - Knödler, Martina

AU - Holzapfel, Boris Michael

AU - Hapfelmeier, Alexander

AU - Tischer, Thomas

AU - Bissinger, Oliver

PY - 2016/7/25

Y1 - 2016/7/25

N2 - Low molecular weight heparin (LMWH) is routinely used to prevent thromboembolism in orthopaedic surgery, especially in the treatment of fractures or after joint-replacement. Impairment of fracture-healing due to increased bone-desorption, delayed remodelling and lower calcification caused by direct osteoclast stimulation is a well-known side effect of unfractioned heparin. However, the effect of LMWH is unclear and controversial. Recent studies strongly suggest impairment of bone-healing in-vitro and in animal models, characterized by a significant decrease in volume and quality of new-formed callus. Since October 2008, Rivaroxaban (Xarelto) is available for prophylactic use in elective knee- and hip-arthroplasty. Recently, some evidence has been found indicating an in vitro dose independent reduction of osteoblast function after Rivaroxaban treatment. In this study, the possible influence of Rivaroxaban and Enoxaparin on bone-healing in vivo was studied using a standardized, closed rodent fracture-model. 70 male Wistar-rats were randomized to Rivaroxaban, Enoxaparin or control groups. After pinning the right femur, a closed, transverse fracture was produced. 21 days later, the animals were sacrificed and both femora harvested. Analysis was done by biomechanical testing (three-point bending) and micro CT. Both investigated substances showed histomorphometric alterations of the newly formed callus assessed by micro CT analysis. In detail the bone (callus) volume was enhanced (sign. for Rivaroxaban) and the density reduced. The bone mineral content was enhanced accordingly (sign. for Rivaroxaban). Trabecular thickness was reduced (sign. for Rivaroxaban). Furthermore, both drugs showed significant enlarged bone (callus) surface and degree of anisotropy. In contrast, the biomechanical properties of the treated bones were equal to controls. To summarize, the morphological alterations of the fracture-callus did not result in functionally relevant deficits.

AB - Low molecular weight heparin (LMWH) is routinely used to prevent thromboembolism in orthopaedic surgery, especially in the treatment of fractures or after joint-replacement. Impairment of fracture-healing due to increased bone-desorption, delayed remodelling and lower calcification caused by direct osteoclast stimulation is a well-known side effect of unfractioned heparin. However, the effect of LMWH is unclear and controversial. Recent studies strongly suggest impairment of bone-healing in-vitro and in animal models, characterized by a significant decrease in volume and quality of new-formed callus. Since October 2008, Rivaroxaban (Xarelto) is available for prophylactic use in elective knee- and hip-arthroplasty. Recently, some evidence has been found indicating an in vitro dose independent reduction of osteoblast function after Rivaroxaban treatment. In this study, the possible influence of Rivaroxaban and Enoxaparin on bone-healing in vivo was studied using a standardized, closed rodent fracture-model. 70 male Wistar-rats were randomized to Rivaroxaban, Enoxaparin or control groups. After pinning the right femur, a closed, transverse fracture was produced. 21 days later, the animals were sacrificed and both femora harvested. Analysis was done by biomechanical testing (three-point bending) and micro CT. Both investigated substances showed histomorphometric alterations of the newly formed callus assessed by micro CT analysis. In detail the bone (callus) volume was enhanced (sign. for Rivaroxaban) and the density reduced. The bone mineral content was enhanced accordingly (sign. for Rivaroxaban). Trabecular thickness was reduced (sign. for Rivaroxaban). Furthermore, both drugs showed significant enlarged bone (callus) surface and degree of anisotropy. In contrast, the biomechanical properties of the treated bones were equal to controls. To summarize, the morphological alterations of the fracture-callus did not result in functionally relevant deficits.

U2 - 10.1371/journal.pone.0159669

DO - 10.1371/journal.pone.0159669

M3 - SCORING: Journal article

C2 - 27455072

VL - 11

SP - e0159669

JO - PLOS ONE

JF - PLOS ONE

SN - 1932-6203

IS - 7

ER -