Bone turnover markers (BTMs) follow distinct trends after fractures and limited evidence suggests differential levels in BTMs in patients with delayed healing. The effect of vitamin D, and other factors that influence BTMs and fracture healing, is important to elucidate the use of BTMs as surrogates of fracture healing. We sought to determine whether BTMs can be used as early markers of delayed fracture healing, and the effect of vitamin D on BTM response after fracture. A total of 102 participants aged 18 to 50 years (median 28 years (interquartile range 23 to 35)), receiving an intramedullary nail for a tibial or femoral shaft fracture, were enrolled in a randomized controlled trial comparing vitamin D3 supplementation to placebo. Serum C-terminal telopeptide of type I collagen (CTX; bone resorption marker) and N-terminal propeptide of type I procollagen (P1NP; bone formation marker) were measured at baseline, six weeks, and 12 weeks post-injury. Clinical and radiological fracture healing was assessed at three months.Aims
Methods
Exosomal miRNA have been shown to regulate many myogenic and osteogenic pathways involved in injury repair and healing. It is also known that rehabilitation and exercise can improve muscle mass and bone growth. The mechanisms by which this occurs in vivo are well studied, but the impact exosomes and their associated miRNA cargo have is unclear. With this knowledge and question in mind, we hypothesized that C2C12 myoblasts subjected to in vitro mechanical stimulus (“exercise”) would exhibit improved exosome production and differentially expressed miRNA cargo when compared to their static (“unexercised”) counterparts. C2C12 myoblasts were cultured using the FlexCell FX-5000TT bioreactor. Two exercise regimens were programmed: 1) low intensity regimen (LIR) (0–15% strain at 0.5 Hz for 24 hours) 2) high intensity interval regimen (HIIR) (12–22% strain at 1 Hz for 10 minutes followed by 50 minutes of rest repeated for 24 hours). Unexercised (static) cells were cultured in parallel. Exosomes were isolated using the Invitrogen Total Exosome Isolation Reagent. The Pierce BCA Protein Assay, System Bioscience's ExoELISA-ULTRA CD81 Kit and, SBI's ExoFlow-ONE EV labeling kit were used to confirm and quantify exosome number and protein concentration. The SBI Exo-NGS service was used to perform miRNA sequencing on isolated exosomes.Introduction and Objective
Materials and Methods
