OBJECTIVES: To evaluate the clinical safety and efficacy of using a biologic technology known as preparation rich in growth factors (PRGF) for the treatment of nonhypertrophic nonunion. DESIGN: The design of the study was a retrospective case series. SETTING: The private practice was in 2 centers. PATIENTS: There were 15 patients with a total of 16 aseptic nonunions, 12 diaphyseal and 4 supracondylar, diagnosed as nonhypertrophic. The mean time since prior surgical treatment was 21 months (9-46 months). INTERVENTION: Supracondylar and diaphyseal nonunions followed surgical fixation with condylar plating or intramedullary nailing, whereas a composite biomaterial created by mixing PRGF with bone allograft was applied. The area was then covered with autologous fibrin membranes. Stable nonunions were treated with repeated percutaneous injections of PRGF; this minimally invasive procedure was also applied if delayed healing was suspected after surgical treatment. MAIN OUTCOME MEASUREMENTS: Radiographic union using radiographic views was taken in 2 planes. Clinical outcome evaluated pain, motion at the fracture site upon manual stress testing, and recovery of range of motion. RESULTS: All nonunions treated operatively healed after a single procedure, even though additional PRGF had to be injected in 2 patients. Two of 3 stable nonunions achieved healing only after repeated percutaneous PRGF injections. The mean time from surgery and/or PRGF application to union was 4.9 months (2-8 months). Complications associated with the described procedure were not observed. CONCLUSION: This study, although uncontrolled, shows that PRGF technology is clinically safe and can enhance the healing of nonhypertrophic nonunions.
OBJECTIVES: To evaluate the clinical safety and efficacy of using a biologic technology known as preparation rich in growth factors (PRGF) for the treatment of nonhypertrophic nonunion. DESIGN: The design of the study was a retrospective case series. SETTING: The private practice was in 2 centers. PATIENTS: There were 15 patients with a total of 16 aseptic nonunions, 12 diaphyseal and 4 supracondylar, diagnosed as nonhypertrophic. The mean time since prior surgical treatment was 21 months (9-46 months). INTERVENTION: Supracondylar and diaphyseal nonunions followed surgical fixation with condylar plating or intramedullary nailing, whereas a composite biomaterial created by mixing PRGF with bone allograft was applied. The area was then covered with autologous fibrin membranes. Stable nonunions were treated with repeated percutaneous injections of PRGF; this minimally invasive procedure was also applied if delayed healing was suspected after surgical treatment. MAIN OUTCOME MEASUREMENTS: Radiographic union using radiographic views was taken in 2 planes. Clinical outcome evaluated pain, motion at the fracture site upon manual stress testing, and recovery of range of motion. RESULTS: All nonunions treated operatively healed after a single procedure, even though additional PRGF had to be injected in 2 patients. Two of 3 stable nonunions achieved healing only after repeated percutaneous PRGF injections. The mean time from surgery and/or PRGF application to union was 4.9 months (2-8 months). Complications associated with the described procedure were not observed. CONCLUSION: This study, although uncontrolled, shows that PRGF technology is clinically safe and can enhance the healing of nonhypertrophic nonunions.
Authors: L de Girolamo; E Galliera; P Volpi; M Denti; G Dogliotti; A Quaglia; P Cabitza; M M Corsi Romanelli; P Randelli Journal: Knee Surg Sports Traumatol Arthrosc Date: 2013-10-22 Impact factor: 4.342
Authors: Gert Schippinger; Karl Oettl; Florian Fankhauser; Stefan Spirk; Wolfgang Domej; Peter Hofmann Journal: J Sports Sci Med Date: 2011-09-01 Impact factor: 2.988