Optimization and Standardization of the Immunodeficient Mouse Model for Assessing Fat Grafting Outcomes.

BACKGROUND: Animal models are often used to assess interventions that might improve fat grafting outcomes; however, there is great variability in the models. The authors sought to determine the predictive value of the immunocompromised mouse model for fat grafting so that experiments could be standardized and optimized. METHODS: Human lipoaspirate injections at different volumes and time points were assessed in a nude mouse model and compared with control injections of nonviable fat. Volume retention and explant histologic score were compared. In a separate study, interanimal reproducibility was determined by implanting a highly consistent hydrogel and measuring variability in volume retention. RESULTS: Injection volume significantly affects adipose resorption kinetics at 6 and 12 weeks. Masson trichrome staining revealed that macrophages were unable to infiltrate large (1 ml) grafts, and oil cysts were not absorbed by 18 weeks, which interfered with interpretation of volume retention data. Nonviable tissue was resorbed when grafts were 0.3 ml, and quantification of graft histologic viability correlated well with graft retention at all study time points. Interanimal variability was measured to be 8.44 percent of the mean retention volume for small graft volumes. CONCLUSIONS: Human fat graft retention in the immunodeficient mouse correlates with graft viability in small, 0.3-ml-volume grafts. However, centralized oil cysts in nonviable 1.0-ml grafts were not resorbed by 18 weeks and thus volume measurements were confounded and not significantly different from viable samples. In addition, tissue injury scores increased in initially healthy fat grafts at 18 weeks, possibly because of a delayed immune reaction.

Evaluation of porcine xenograft in collateral ligament reconstruction in beagle dogs.

This study evaluated the effectiveness of irradiated porcine tendon xenografts for lateral collateral ligament (LCL) reconstruction. Twenty healthy adult beagle dogs underwent LCL reconstruction using irradiated porcine tendons treated with poly-gamma-glutamic acid. Serological and histological assessments were performed to evaluate host immunological response at 3 and 12 months after surgery. The healing and functional integrity of the LCL reconstructions were assessed by mechanical testing and gait analysis. Histological assessment of the porcine xenografts showed gradual host cellular infiltration and graft collagen remodeling during the healing process. Porcine xenografts showed angiogenesis and no signs of inflammatory reaction. Additionally, biomechanical and gait evaluations supported graft functional integration with no differences between normal and porcine xenograft reconstruction at 12 months after surgery. Irradiated porcine xenografts showed greater cellular responses and healing properties in short- and long-term evaluations. Irradiated porcine tendons appear to be useful as xenografts for the reconstruction of damaged ligaments.