通过一种新型水凝胶进行局部皮肤二氧化碳应用可加速大鼠骨折修复。
Topical cutaneous CO2 application by means of a novel hydrogel accelerates fracture repair in rats.
作者信息
Koga Takaaki, Niikura Takahiro, Lee Sang Yang, Okumachi Etsuko, Ueha Takeshi, Iwakura Takashi, Sakai Yoshitada, Miwa Masahiko, Kuroda Ryosuke, Kurosaka Masahiro
机构信息
Department of Orthopaedic Surgery (T.K., T.N., S.Y.L., E.O., T.I., M.M., R.K., and M.K.) and Division of Rehabilitation Medicine (T.U. and Y.S.), Kobe University Graduate School of Medicine, 7-5-1 Kusunoki-cho, Chuo-ku, Kobe 650-0017, Japan. E-mail address for T. Niikura:
出版信息
J Bone Joint Surg Am. 2014 Dec 17;96(24):2077-84. doi: 10.2106/JBJS.M.01498.
BACKGROUND
We previously demonstrated that topical cutaneous application of CO2, by means of a hydrogel in which the CO2 readily dissolves, increases blood flow and oxygen dissociation from hemoglobin in the soft tissues surrounding bone. In the present study, we utilized a rat fracture model to test the hypothesis that application of this treatment to fractured limbs would accelerate fracture repair.
METHODS
A closed femoral shaft fracture was created in each rat. Topical cutaneous application of CO2 by means of a hydrogel was performed five times a week for up to four weeks in the CO2/hydrogel group (n = 60). Sham treatments were performed in the control group (n = 60). Radiographic, histological, immunohistochemical, laser Doppler perfusion imaging, real-time polymerase chain reaction, and biomechanical assessments were performed.
RESULTS
Radiographic fracture union was evident at week 3 in twelve (86%) of fourteen animals in the CO2/hydrogel group compared with five (36%) of fourteen in the control group (p < 0.05; 95% CI [confidence interval] for the difference in union rate, 2.26% to 99.64%). Histological assessment revealed promotion of endochondral ossification in the CO2/hydrogel group. Immunohistochemical assessment at week 2 showed significantly greater capillary density in the CO2/hydrogel group (p < 0.05; 95% CI for the difference, 161 to 258 per mm(2)). Laser Doppler perfusion imaging demonstrated that the blood flow in the fractured limb was significantly greater at weeks 2 and 3 in the CO2/hydrogel group (p < 0.05; 95% CI for the difference, 8.4% to 22.4% and 6.7% to 19.0%, respectively). Gene expression of chondrogenic, osteogenic, and angiogenic markers was significantly greater in the CO2/hydrogel group at several time points. Ultimate stress, extrinsic stiffness, and failure energy (relative to the contralateral limb) were significantly greater in the CO2/hydrogel group at week 3 (p < 0.05; 95% CI for the difference, 24.8% to 67.5%, 4.0 % to 22.7%, and 9.6% to 58.8%, respectively). There were no significant differences between the groups with respect to any outcome measure at week 4.
CONCLUSIONS
Topical cutaneous application of CO2 by means of a hydrogel accelerated fracture repair in association with the promotion of angiogenesis, blood flow, and endochondral ossification. .
背景
我们之前证明,通过二氧化碳易于溶解的水凝胶对皮肤进行局部应用二氧化碳,可增加骨周围软组织中的血流以及血红蛋白的氧解离。在本研究中,我们利用大鼠骨折模型来检验对骨折肢体应用这种治疗方法会加速骨折修复这一假设。
方法
在每只大鼠身上制造闭合性股骨干骨折。在二氧化碳/水凝胶组(n = 60)中,每周通过水凝胶对皮肤进行5次二氧化碳局部应用,持续4周。在对照组(n = 60)中进行假治疗。进行了放射学、组织学、免疫组织化学、激光多普勒灌注成像、实时聚合酶链反应和生物力学评估。
结果
在二氧化碳/水凝胶组的14只动物中,有12只(86%)在第3周时放射学骨折愈合明显,而对照组的14只中有5只(36%)(p < 0.05;愈合率差异的95%置信区间[CI]为2.26%至99.64%)。组织学评估显示二氧化碳/水凝胶组软骨内成骨得到促进。第2周的免疫组织化学评估显示二氧化碳/水凝胶组的毛细血管密度显著更高(p < 0.05;差异的95% CI为每平方毫米161至258个)。激光多普勒灌注成像表明,在第2周和第3周时,二氧化碳/水凝胶组骨折肢体的血流显著更大(p < 0.05;差异的95% CI分别为8.4%至22.4%和6.7%至19.0%)。在几个时间点,二氧化碳/水凝胶组中软骨生成、骨生成和血管生成标志物的基因表达显著更高。在第3周时,二氧化碳/水凝胶组的极限应力、外在刚度和破坏能量(相对于对侧肢体)显著更大(p < 0.05;差异的95% CI分别为24.8%至67.5%、4.0%至22.7%和9.6%至58.8%)。在第4周时,两组在任何结果指标方面均无显著差异。
结论
通过水凝胶对皮肤进行局部应用二氧化碳与促进血管生成、血流和软骨内成骨相关,加速了骨折修复。
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