RESUMO
Low-Intensity Pulsed Ultrasound (LIPUS) provided a mechanical stimulus, and was thought to promote fracture healing by signal transduction through integrin, a cytoskeletal protein. Meanwhile, teriparatide, a drug for osteoporosis treatment, showed efficacy in promoting bone metabolism. This drug also appeared to prevent fractures in patients with serious osteoporosis by improving bone mineral density and bone quality, which in turn resulted from promoting action for bone metabolism. Further, clinical trials and fundamental research reported that teriparatide demonstrated the effect of promoting fracture healing. Mechanical stimulus by LIPUS had a topical effect on fractures; on the other hand, teriparatide (peptide hormone) had both topical and systemic effects. Both LIPUS and teriparatide had the effect of fracture healing, but it was supposed that the characteristics of each effect were different because of the different mechanism of action. Moreover, the combination therapy of LIPUS and teriparatide was expected to produce synergies. We used elderly rats as models for the femoral fracture to examine the effects of LIPUS and teriparatide on promoting fracture healing for treatment delay by aging. We observed the fracture healing process in 40-week-old rats as an elderly model using simple radiographs, and recognized a delay in fracture healing compared with that of 8-week-old rats. As discussed in histomorphology, it was demonstrated that the period of endochondral ossification, from chondrogenesis to teleost cross-linked callus, was prolonged and the fracture healing process was delayed by aging. Next, we treated the elderly fracture models with LIPUS for 20 minutes a day from the first day after the fracture, and compared them with non-treated models. The bone unions of the treated models were observed earlier than those of non-treated models in the simple radiographs. LIPUS shortened the period of endochondral ossification. Further, we gave the elderly fracture models teriparatide subcutaneously 5 µg/kg three times a week from the first day after the fracture. Bone unions of the treated models were observed earlier than those of non-treated models in simple radiographs as well. In micro CT analysis, it was demonstrated that lamellar bone transforming and bone remodeling of the trabecular structure of external callus were especially accelerated. The results of these trials showed that both LIPUS and teriparatide demonstrated the effect of promoting fracture healing, and each had unique characteristics.
RESUMO
We have studied the mechanism of fracture healing, and the effect of LIPUS, bone graft and growth factor on accelerating fracture healing. We present here the results of our research. To examine callus formation cells in fracture healing, we made marrow GFP chimera mice and a fracture model of marrow mesenchymal stem cell GFP chimera mice. It was demonstrated that periosteal cells were essential for callus formation. We focused on periosteal cells and examined the effect of LIPUS. In an in vitro experiment using a cultured part of the femur, LIPUS promoted ossification of the periosteal tissue. Further, LIPUS accelerated VEGF expression in the experiment using the femoral fracture model of mice. From these results, it was suggested that activation of periosteal cells might play a role in the fracture healing mechanism of LIPUS. Next, we discussed the possibility of combined therapy of LIPUS, bone graft and growth factor. Therapy involving the topical administration of bFGF using a controlled release system and bone graft could promote callus formation. In addition, LIPUS was able to promote membranaceous ossification after the bone graft. It was suggested that combined therapy of LIPUS, bone graft and bFGF could be a new option for treating fractures.
RESUMO
OBJECTIVE: We have conducted a basic study on the influences on ultrasonic properties when LIPUS is applied through wound dressing. According to the results of ex vivo experiments conducted to date, LIPUS showed ultrasonic properties such as transmittance, coefficient of transmission, and a non-uniformity ratio through film wound dressing better than other wound dressing, and it was considered that LIPUS's effect for fracture healing was not influenced by film wound dressing. Then, we discussed the influence on the effect of LIPUS through film wound dressing. METHODS: Thirty male 8-week-old Sprague-Dawley rats were used for the trial. After creating close transverse femoral fractures on the right legs of these 30 rats, they were divided into 3 groups of 10; LIPUS through wound dressing (Group A), LIPUS without wound dressing (Group B), and No LIPUS treatment (Group C). OPSITE Wound, which was thought to have the least influence on ultrasound properties, was used for this trial. Group A and B received LIPUS for 20 minutes a day from the first day after the fractures. LIPUS was generated from Teijin Pharma's device for a basic experiment. When treating Group A, the wound dressing was pasted on the ultrasound terminal in order to apply LIPUS through the dressing. We assessed the time-oriented morphological change of each group in anesthetized condition using simple radiographs on the 8th, 16th, and 24th day after the fractures. RESULTS: Six rats in Group A, 2 in Group B, and 1 in Group C died in anesthesia, and we discussed the remaining 4 rats in Group A, 8 in Group B, and 9 in Group C. We defined more than one teleost callus bridging as bone-union. We also counted a bone remodeling when we recognized the absorption of existing cortical bone and the transformation of new bone to cortical bone in simple radiographs. As a result, compared with Group C, we recognized that both bone union and remodeling accelerated remarkably in Group B, but not in Group A. DISCUSSION: It suggested that LIPUS through wound dressing had negative influences on both period shorting of fracture healing and bone remodeling. When LIPUS was conducted through film wound dressing, transmittance and coefficient of transmission were unchanged; however, the non-uniformity ratio changed slightly. The non-uniformity ratio of the ultrasound transducer had a significant influence on the effect of LIPUS on fracture healing.