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BMC Musculoskeletal Disorders
Published in: BMC Musculoskeletal Disorders 1/2019

Open Access 01-12-2019 | Bone Defect | Research article

Topical cutaneous application of CO2 accelerates bone healing in a rat femoral defect model

Authors: Yu Kuroiwa, Tomoaki Fukui, Shunsuke Takahara, Sang Yang Lee, Keisuke Oe, Michio Arakura, Yohei Kumabe, Takahiro Oda, Tomoyuki Matsumoto, Takehiko Matsushita, Toshihiro Akisue, Yoshitada Sakai, Ryosuke Kuroda, Takahiro Niikura

Published in: BMC Musculoskeletal Disorders | Issue 1/2019

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Abstract

Background

Bone defects may occur because of severe trauma, nonunion, infection, or tumor resection. However, treatments for bone defects are often difficult and have not been fully established yet. We previously designed an efficient system of topical cutaneous application of carbon dioxide (CO2) using a novel hydrogel, which facilitates CO2 absorption through the skin into the deep area within a limb. In this study, the effect of topical cutaneous application of CO2 on bone healing was investigated using a rat femoral defect model.

Methods

In this basic research study, an in vivo bone defect model, fixed with an external fixator, was created using a rat femur. The affected limb was shaved, and CO2 was applied for 20 min/day, 5 days/week. In the control animals, CO2 gas was replaced with air. Radiographic, histological, biomechanical, and genetic assessments were performed to evaluate bone healing.

Results

Radiographically, bone healing rate was significantly higher in the CO2 group than in the control group at 4 weeks (18.2% vs. 72.7%). The degree of bone healing scored using the histopathological Allen grading system was significantly higher in the CO2 group than in the control group at 2 weeks (1.389 ± 0.334 vs. 1.944 ± 0.375). The ultimate stress, extrinsic stiffness, and failure energy were significantly greater in the CO2 group than in the control group at 4 weeks (3.2 ± 0.8% vs. 38.1 ± 4.8%, 0.6 ± 0.3% vs. 41.5 ± 12.2%, 2.6 ± 0.8% vs. 24.7 ± 5.9%, respectively.). The volumetric bone mineral density of the callus in micro-computed tomography analysis was significantly higher in the CO2 group than in the control group at 4 weeks (180.9 ± 43.0 mg/cm3 vs. 247.9 ± 49.9 mg/cm3). Gene expression of vascular endothelial growth factor in the CO2 group was significantly greater than that in the control group at 3 weeks (0.617 ± 0.240 vs. 2.213 ± 0.387).

Conclusions

Topical cutaneous application of CO2 accelerated bone healing in a rat femoral defect model. CO2 application can be a novel and useful therapy for accelerating bone healing in bone defects; further research on its efficacy in humans is warranted.
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Metadata
Title
Topical cutaneous application of CO2 accelerates bone healing in a rat femoral defect model
Authors
Yu Kuroiwa
Tomoaki Fukui
Shunsuke Takahara
Sang Yang Lee
Keisuke Oe
Michio Arakura
Yohei Kumabe
Takahiro Oda
Tomoyuki Matsumoto
Takehiko Matsushita
Toshihiro Akisue
Yoshitada Sakai
Ryosuke Kuroda
Takahiro Niikura
Publication date
01-12-2019
Publisher
BioMed Central
Published in
BMC Musculoskeletal Disorders / Issue 1/2019
Electronic ISSN: 1471-2474
DOI
https://doi.org/10.1186/s12891-019-2601-5

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