BACKGROUND: Animal models for the study of tendinopathy and bone-tendon (B-T) junction repair have been established in the past for sports medicine research. As healing at the B-T junction is difficult and sometimes delayed, establishing a delayed B-T healing experimental model is therefore essential to study the efficacy of potential biophysical and biological interventions for treatment of B-T junction healing. OBJECTIVE: To test the hypothesis that a delay in B-T healing could be modelled by shielding the B-T healing interface for the initial few weeks. METHODS: Using an established partial patellectomy model in rabbits, the B-T healing interface was shielded with a latex slice for the first 4 postoperative weeks in mature female rabbits. The characteristics of delay in B-T repair (n = 10) compared with controls (n = 10) were evaluated at 8 and 12 postoperative weeks. RESULTS: Radiology showed consistent delay in osteogenesis at the healing interface in all samples in the delayed healing group; growth of new bone was only 25.8% and 50.1% of that in the control group at weeks 8 and 12, respectively. Bone mineral density was 56.0% lower in the delayed healing group at week 8, but this difference diminished at week 12. The quality of B-T healing was poor in the delayed healing group, with 22.9% and 24.2% lower failure load than the control group at weeks 8 and 12, respectively. The healing quality was also reflected by histological findings. CONCLUSIONS: A delayed B-T healing experimental model was established for the first time for future sports medicine research.
BACKGROUND: Animal models for the study of tendinopathy and bone-tendon (B-T) junction repair have been established in the past for sports medicine research. As healing at the B-T junction is difficult and sometimes delayed, establishing a delayed B-T healing experimental model is therefore essential to study the efficacy of potential biophysical and biological interventions for treatment of B-T junction healing. OBJECTIVE: To test the hypothesis that a delay in B-T healing could be modelled by shielding the B-T healing interface for the initial few weeks. METHODS: Using an established partial patellectomy model in rabbits, the B-T healing interface was shielded with a latex slice for the first 4 postoperative weeks in mature female rabbits. The characteristics of delay in B-T repair (n = 10) compared with controls (n = 10) were evaluated at 8 and 12 postoperative weeks. RESULTS: Radiology showed consistent delay in osteogenesis at the healing interface in all samples in the delayed healing group; growth of new bone was only 25.8% and 50.1% of that in the control group at weeks 8 and 12, respectively. Bone mineral density was 56.0% lower in the delayed healing group at week 8, but this difference diminished at week 12. The quality of B-T healing was poor in the delayed healing group, with 22.9% and 24.2% lower failure load than the control group at weeks 8 and 12, respectively. The healing quality was also reflected by histological findings. CONCLUSIONS: A delayed B-T healing experimental model was established for the first time for future sports medicine research.