The aims of this study, using a porcine model of multiple trauma, were to investigate the expression of microRNAs at the fracture site, in the fracture haematoma (fxH) and in the fractured bone, compared with a remote unfractured long bone, to characterize the patterns of expression of circulating microRNAs in plasma, and identify and validate messenger RNA (mRNA) targets of the microRNAs. Two multiple trauma treatment strategies were compared: early total care (ETC) and damage control orthopaedics (DCO). For this study, fxH, fractured bone, unfractured control bone, plasma, lung, and liver samples were harvested. MicroRNAs were analyzed using quantitative real-time polymerase chain reaction arrays, and the identified mRNA targets were validated in vivo in the bone, fxH, lung, and liver tissue.Aims
Methods
Compartment syndrome, a devastating consequence
of limb trauma, is characterised by severe tissue injury and microvascular
perfusion deficits. We hypothesised that leucopenia might provide
significant protection against microvascular dysfunction and preserve
tissue viability. Using our clinically relevant rat model of compartment syndrome,
microvascular perfusion and tissue injury were directly visualised
by intravital video microscopy in leucopenic animals. We found that
while the tissue perfusion was similar in both groups (38.8% (standard
error of the mean ( Cite this article:
Heterotopic ossification occurring after the use of commercially available bone morphogenetic proteins has not been widely reported. We describe four cases of heterotopic ossification in patients treated with either recombinant bone morphogenetic protein 2 or recombinant bone morphogenetic protein 7. We found that while some patients were asymptomatic, heterotopic ossification which had occurred around a joint often required operative excision with good results.
