Introduction. The hematoma occurring at a fracture site is known to play an important role in fracture healing. Previously, we demonstrated that fracture hematoma contained multilineage mesenchymal progenitor cells. On the other hand, the process of fracture healing is associated by two different mechanisms, intramembranous and endochondral. However, there are no reports proving the details about cellular analysis in the process of endochondoral ossification. Hypothesis. We hypothesized that one of the cell origins for endochondral ossification after fracture was hematoma. Materials & Methods. Fracture hematoma was obtained during osteosynthesis. Hematoma-derived cells were isolated and cultured for 5-weeks of chondrogenic induction followed by 2-weeks hypertrophic induction using pellet culture system. The pellets were analyzed histologically and immunohistochemically. The gene expression levels of chondrogenic, hypertrophic, osteogenic and angiogenic markers were measured by real-time PCR. Results. The histological and immunohistochemical analysis revealed that the Hematoma-derived cells differentiated into hypertrophic chondrocytes through chondrocytes, and finally differentiate into calcifying chondrocytes. The same trend was seen in the gene expression using real-time PCR analysis. Discussion & Conclusions. Our results suggest that fracture hematoma may be an origin of cells which play key roles in the process of endochondoral ossification during fracture healing

Introduction. Recently, some case reports have been published, in which nonunions were successfully healed with parathyroid hormone 1–34 (PTH) administration. Previously, we demonstrated that the intervening tissue at the nonunion site contains multilineage mesenchymal progenitor cells and plays an important role during the healing process of nonunion. We investigated the effect of PTH on osteogenic differentiation of human nonunion tissue-derived cells (NCs) in vitro. Hypothesis. We hypothesized that PTH directly promoted osteogenic differentiation of NCs. Materials & Methods. NCs were isolated from 4 patients, and cultured. The cells were divided into two groups: (1) PTH (−) group: cells cultured in osteogenic medium (OM), (2) PTH (+) group: cells cultured in OM with PTH. Osteogenic differentiation potential was analyzed. Results. Real-time PCR analysis showed that gene expression levels of Runx2, ALP, OC and PTHR1 in PTH (+) group were lower than PTH (−) group at day 14. In both groups, there was no significant difference in ALP activity at days 8 and 14, and in the intensity of Alizarin red S staining at day 20. Discussion. Treatment of PTH did not lead to increase osteogenic differentiation of NCs. Nonunion healing by PTH administration may be caused by other mechanisms such as mobilization and recruitment of osteoprogenitor cells

Aims

Heterotopic ossification (HO) is a common complication after elbow trauma and can cause severe upper limb disability. Although multiple prognostic factors have been reported to be associated with the development of post-traumatic HO, no model has yet been able to combine these predictors more succinctly to convey prognostic information and medical measures to patients. Therefore, this study aimed to identify prognostic factors leading to the formation of HO after surgery for elbow trauma, and to establish and validate a nomogram to predict the probability of HO formation in such particular injuries.