Lentiviral-based BMP4 in vivo gene transfer strategy increases pull-out tensile strength without an improvement in the osteointegration of the tendon graft in a rat model of biceps tenodesis

Background: The present study aimed to develop a rat model of biceps tenodesis and to assess the feasibility of a lentiviral (LV)-based bone morphogenetic protein (BMP) 4 in vivo gene transfer strategy for healing of biceps tenodesis. Methods: A rat model of biceps tenodesis was developed with an interference-fit open surgical technique. A LV vector expressing a BMP4 gene or β-galactosidase (β-gal) control gene was applied to the bone tunnel and the tendon graft before its insertion into the bone tunnel. Osteointegration was assessed by histology and pull-out tensile strength was measured by a biomechanical test suitable for small rat biceps tendon grafts. Results: Neo-chondrogenesis was seen at the tendon-bone interface of LV-BMP4-treated but not control rats. The LV-BMP4-treated rats showed 32% (p<0.05) more newly-formed trabecular bone at the tendon-bone junction than the LV-β-gal-treated controls after 3weeks. However, the sites of neo-chondrogenesis and new bone formation in the LV-BMP4-treated tenodesis were highly spotty. Although the LV-BMP4 strategy did not promote bony integration of the tendon graft, it yielded a 29.5±11.8% (p=0.066) increase in improvement the pull-out strength of rat biceps tendons compared to the LV-β-gal treatment after 5weeks. Conclusions: Although the LV-BMP4 in vivo gene transfer strategy did not enhance osteointegration of the tendon graft, it yielded a marked improvement in the return of the pull-out strength of the tendon graft. This presumably was largely a result of the bone formation effect of BMP4 that traps or anchors the tendon graft onto the bony tunnel. Published 2011. This article is a US Government work and is in the public domain in the USA.