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Orthopaedic Proceedings
Vol. 102-B, Issue SUPP_6 | Pages 59 - 59
1 Jul 2020
Chim Y Cheung W Chow SK
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It has been previously shown that Low-Magnitude High-Frequency Vibration (LMHFV) is able to enhance ovariectomy-induced osteoporotic fracture healing in rats. Fracture healing begins with the inflammatory stage, and all subsequent stages are regulated by the infiltration of immune cells such as macrophages and the release of inflammatory cytokines including tumor necrosis factor-alpha (TNF-α), interleukin-6 (IL-6) and interleukin-10 (IL-10). Therefore, the aim of this study was to investigate the effect of LMFHV treatment on the inflammatory response in osteoporotic fracture healing.

In this study, ovariectomy-induced osteoporotic and sham-operated closed-femoral fracture SD-rats were randomized into three groups: sham control (SHAM), ovariectomized control (OVX-C) or ovariectomized vibration (OVX-V) (n=36, n=6 per group per time point). LMHFV (35Hz, 0.3g) was given 20 min/day and 5 days/week to OVX-V group. SHAM operation and ovariectomy were performed at 6-month and closed femoral fracture was performed at 9-month. Callus morphometry was determined by callus width from weekly radiography. Local expressions of inducible nitric oxide synthase (iNOS) (macrophage M1 marker), CD206 (macrophage M2 marker), TNF-α, IL-6 and IL-10 were detected by immunohistochemistry and quantified by colour threshold in ImageJ, assessed at weeks 1 and 2 post-fracture. Significant difference between groups was considered at p≤0.05 by one-way ANOVA.

Callus formation was higher in OVX-V than that of OVX-C as shown by callus width at weeks 1 and 2 (p=0.054 and 0.028, respectively). Immunohistochemistry results showed that CD206 positive signal and the M2/M1 ratio which indicates the progression of macrophage polarization were significantly higher in OVX-V rats (p=0.053 and 0.049, respectively) when compared to OVX-C at week 1. Area fraction of TNF-α positive signal was significantly higher in SHAM and OVX-V rats at week 1 (p=0.01 and 0.033, respectively). IL-6 signal was also significantly higher in SHAM and OVX-V groups at week 1 (p=0.004 and 0.029, respectively). IL-10 expression was significantly lower in SHAM and OVX-V groups at week 1 (p=0.013 and 0.05, respectively).

Here we have shown that LMHFV treatment promoted the shift from pro-inflammatory stage towards anti-inflammatory stage earlier. It has been reported that the polarization of pro-inflammatory macrophages M1 to anti-inflammatory macrophages M2 was indicative of the endochondral ossification process in the long bone fracture model. Besides, we found that LMHFV treatment enhanced pro-inflammatory markers of TNF-α and IL-6 and suppressed anti-inflammatory marker of IL-10 at week 1, showing that inflammatory response was enhanced at week 1 post-fracture. These inflammatory cytokines involved in fracture healing were shown to coordinate different fracture healing processes such as mesenchymal stem cell recruitment and angiogenesis. Our previous study has demonstrated that ovariectomized rats exhibit lower levels of inflammatory response after fracture creation. Therefore, we report that LMHFV treatment can modulate macrophage polarization from M1 to M2 at an earlier time-point and partly restore the impaired inflammatory response in OVX bones at the early stage of fracture healing that may lead to accelerated healing of osteoporotic fracture as shown by promoted callus formation.


Orthopaedic Proceedings
Vol. 102-B, Issue SUPP_6 | Pages 77 - 77
1 Jul 2020
Choy VMH Wong RMY Chow SK Cheung W Cheng J
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Age-related fragility fractures are highly correlated with the loss of bone integrity and deteriorated morphology of the osteocytes. Previous studies have reported low-magnitude high-frequency vibration(LMHFV) promotes osteoporotic diaphyseal fracture healing to a greater extent than in age-matched normal fracture healing, yet how osteoporotic fractured bone responds to the mechanical signal has not been explored. As osteocytes are prominent for mechanosensing and initiating bone repair, we hypothesized that LMHFV could enhance fracture healing in ovariectomized metaphyseal fracture through morphological changes and mineralisation in the osteocyte Lacuno-canalicular Network(LCN). As most osteoporotic fractures occur primarily at the metaphysis, an osteoporotic metaphyseal fracture model was established.

A total of 72 six-month old female Sprague-Dawley rats (n=72) were obtained(animal ethical approval ref: 16–037-MIS). Half of the rats underwent bilateral ovariectomy(OVX) and kept for 3 months for osteoporosis induction. Metaphyseal fracture on left distal femur was created by osteotomy and fixed by a plate. Rats were then randomized to (1) OVX+LMHFV(20 mins/day and 5 days/week, 35Hz, 0.3g), (2) OVX control, (3) SHAM+LMHFV, (4) SHAM control. Assessments of morphological structural changes, functional markers of the LCN(Scanning Electron Microscopy, FITC-Imaris, immunohistochemistry), mineralization status(EDX, dynamic histomorphometry) and healing outcomes(X-ray, microCT, mechanical testing) were performed at week 1, 2 and 6 post-fracture. One‐way ANOVA with post-hoc test was performed. Statistical significance was set at p < 0.05.

Our results showed LMHFV could significantly enhance the morphology of the LCN. There was a 65.3% increase in dendritic branch points(p=0.03) and 93% increase in canalicular length(p=0.019) in the OVX-LMHFV group at week 2 post-fracture. Besides, a similar trend was also observed in the SHAM+LMHFV group, with a 43.4% increase in branch points and 53% increase in canaliculi length at week 2. A significant increase of E11 and DMP1 was observed in the LMHFV groups, indicating the reconstruction of the LCN. The decreasing sclerostin and increasing FGF23 at week 1 represented the active bone formation phase while the gradual increase at week 6 signified the remodelling phase. Furthermore, Ca/P ratio, mineral apposition rate and bone formation rate were all significantly enhanced in the OVX+LMHFV group. The overall bone mineral density in BV was significantly raised in the OVX+LMHFV group at week 2(p=0.043) and SHAM+LMHFV at week 6(p=0.04). Quantitative analysis of microCT showed BV/TV was significantly increased at week 2 in OVX+LMHFV group(p=0.008) and week 6(p=0.001) in both vibration groups. In addition, biomechanical testing revealed that the OVX+LMHFV group had a significantly higher ultimate load(p=0.03) and stiffness(p=0.02) at week 2.

To our best knowledge, this is the first report to illustrate LMHFV could enhance osteocytes' morphology, mineralisation status and healing outcome in a new osteoporotic metaphyseal fracture animal model. Our cumulative data supports that the mechanosensitivity of bone would not impair due to osteoporosis. The revitalized osteocyte LCN and upregulated osteocytic protein markers implied a better connectivity and transduction of signals between osteocytes, which may foster the osteoporotic fracture healing process through an enhanced mineralisation process. This could stimulate further mechanistic investigations with potential translation of LMHFV to our fragility fracture patients.