BACKGROUND:The treatment of infected nonunion is a difficult problem in orthopedic trauma, which needs to completely eliminate foci of osteomyelitis to control infection, repair soft tissue defect and close the wound, repairs bone defects to promote healing and protect limb function as much as possible. Autogenous micromorselized bone can be easily obtained and recombinant human bone morphogenetic protein-2 has variety of sources. Their mixed grafting mode is safe and reliable in repairing of bone defects, which are suitable for repair of infected nonunion. ＜br> OBJECTIVE:To study the operating method and clinical results of repairing infected nonunion using autogenous micromorselized bone grafting mixed with bone morphogenetic protein-2. ＜br> METHODS:Twenty-three cases underwent infected nonunion repair with autogenous micromorselized bone (l ium, long bone metaphyseal cancellous bone) mixed with bone morphogenetic protein-2, including 7 cases of femoral bone defect caused by osteomyelitis after debridement and external fixation and 16 cases of tibial bone infected nonunion. Eleven of 23 cases continued to use the external fixation because of scar contraction or poor conditions of soft tissue, and the other 12 cases switched to use internal fixation. X-tray was taken to evaluate the bone healing at the 1st, 3rd, 6th and 12th months after operation. The function of the affected extremity was assessed by Johner-Wruhs grade. ＜br> RESULTS AND CONCLUSION:Al of the cases were averagely fol owed up for 13.4 months. The bone defects and bone fracture healed in al cases without infection, and the wounds were al sealed. The excellent and good rate according to Johner-Wruhs grade was 95%. These findings indicate that the bone grafting mode of autogenous micromorselized bone mixed with bone morphogenetic protein-2 is characterized as variety of sources, high safety and reliable osteogenic ability in repair of bone defects.

Objective:To compare outcomes between standardized and misdiagnosis and mistreatment of osteosarcoma.Methods:A retrospective analysis of patients with high-grade osteosarcoma who received appropriate surgical treatment and chemotherapy (299 cases, control group) and those who were misdiagnosed (benign or infective) and received mistreatment (23 cases, study group) between January 2009 and December 2021. Gender, age, first operation mode, recurrence time, recurrence interval, metastasis time, metastasis interval, total survival time (months), survival status in the two group and tumor site reoperation mode in the study group were statistically analyzed. Further, chi-square test was performed for comparison of the clinical between two groups. The survival analysis was performed using Kaplan-Meier test and Log-rank test.Results:All the 322 patients were followed up. In the control group, the average follow-up time was 42 months (1-137 months), the average age was 24 years (3-80 years), male 184 cases, female 115 cases, and limb salvage rate was 85.3% (255/299). Seven patients underwent amputation, and the amputation rate was 17.7% (44/299). The recurrence rate was 8.4% (25/299), the average recurrence interval was 22.8 months (7-36 months), and the metastasis rate was 28.1% (85/299), the average metastasis time was 32.7 months (0-58 months). In the study group, the average of follow-up time was 30 months (9-117 months), the average age was 36 years (5-67 years), 17 males and 6 females. Among them, eleven patients were treated with limb salvage in the second stage, and the limb salvage rate was 47.8% (11/23). Seven patients underwent amputation, and the amputation rate was 30.4% (7/23). The recurrence rate was 26.1% (6/23), the average recurrence interval was 11 months (1-42 months), and the metastasis rate was 43.4% (10/23), the average metastasis time was 20.3 months (1-44 months). The 5-year survival rate was 50.7% in the study group and 56.1% in the control group. There was no significant difference between the two groups (χ 2=0.09, P=0.760). Conclusion:The overall prognosis of patients with high-grade osteosarcoma who receive active treatment after mistreatment is similar to that of patients with standardized treatment, but the recurrence and metastasis rate is higher, the recurrence time is earlier, and the amputation rate is higher.

Objective To explore the imaging features, clinical outcome, and prognosis of indeterminate pulmonary nodules (IPN) in patients with high-grade soft tissue sarcoma. Methods A retrospective study of 82 patients with high-grade soft tissue sarcoma who have IPNs. The clinical characteristics, imaging features of IPN, and survival of patients were analyzed with statistical software. Results The IPN size of 82 patients was 6.453±0.864 mm. IPN diameter, shape, density, and nodule discovery interval may be CT imaging features related to malignancy tendency. Age (HR=1.047, 95%CI: 1.007-1.088) and interval between each nodule discovery (HR=3.194, 95%CI: 1.052-9.694) are independent factors that affect the survival of patients with malignant IPN. Conclusion The imaging features of chest CT may provide important guidance for determining the nature and survival prognosis of benign and malignant nodules.

Objective:To analyze the value of peritumoral vascular invasion (PVI) on the prognosis of patients with osteosarcoma.Methods:A total of 232 patients with primary osteosarcoma from 2007 to 2016 were retrospectively analyzed, including 142 males and 90 females. The average age was 17.9±8.2 years (range, 3-39 years). There were 22 positive and 210 negative cases of PVI, 94 deaths and 138 survivals. Univariate survival analysis (Log-rank test and univariate Cox regression) was used to evaluate the effects of age, gender, PVI status, tumor location, surgical method, sensitivity to chemotherapy, and chemotherapy regimen on the prognosis of osteosarcoma. The indicators with statistically significant differences were included in the multivariate Cox regression model to finally determine the risk factors affecting the prognosis of osteosarcoma. The relationship between PVI status and 5-year survival and the incidence of recurrence or metastasis was evaluated using the Kaplan-Meier method.Results:All patients were followed up for 7.6±4.5 years (range, 0.1-15 years). The differences in sensitivity to chemotherapy (χ 2=9.52, P=0.002), choice of chemotherapy regimen (χ 2=8.87, P=0.012), choice of surgical modality (χ 2=13.50, P<0.001), tumor metastasis rate (χ 2=8.51, P=0.004) and mortality rate (χ 2=5.39, P= 0.020) of PVI positive group and PVI negative group had statistically significant differences. Univariate survival analysis was performed on 232 patients with osteosarcoma (gender, age, PVI status, site of tumor development, surgical modality, sensitivity to chemotherapy, and chemotherapy regimen). Indicators with statistically significant differences were included in a multifactorial Cox regression model. The results showed PVI positive [5-year survival rate: HR=2.02, 95% CI (1.61, 2.79), P=0.010; 5-year recurrence or metastasis rate: HR=2.25, 95% CI (1.55, 3.14), P<0.001], surgical procedure as amputation [5-year survival rate: HR=1.22, 95% CI (0.94, 1.78), P=0.037; 5-year recurrence or metastasis rate: HR=1.58, 95% CI (1.11, 2.23), P=0.026] and poor sensitivity to chemotherapy [5-year survival rate: HR=2.71, 95% CI (1.84, 3.98), P=0.001; 5-year recurrence or metastasis rate: HR=2.52, 95% CI (1.88, 3.45), P<0.001] was associated with poor prognosis. Kaplan-Meier curve showed that the 5-year survival rate of PVI positive group was 34%, which was lower than 68% of PVI negative group. The 5-year recurrence or metastasis rate was 72% in the PVI negative group, which was significantly higher than 38% in the PVI negative group ( P<0.05). Conclusion:The 5-year survival rate of PVI positive group was lower than that of PVI negative group, and the 5-year recurrence or metastasis rate was higher than that of PVI negative group. The presence of microvascular angiosarcoma plugs infiltrating the peritumoral tissue in surgical specimens of osteosarcoma after neoadjuvant chemotherapy is a useful indicator to assess the prognosis of patients with osteosarcoma.

Objective:To explore the incidence, clinical characteristics, imaging features, clinical outcome and prognosis of indeterminate pulmonary nodules (IPN) in patients with osteosarcoma.Methods:A total of 69 patients of osteosarcoma with IPN in lung treated in the Bone tumor Center of Eastern Theater General Hospital from January 2011 to January 2021 were collected retrospectively, there were 47 males and 22 females, with a median age of 19 years old (range 7-60 years old). The clinical characteristics including disease-free interval, the chemotherapy response, with recurrence/non-pulmonary, IPN presence before / during / after chemotherapy and imaging features of IPN including number of IPN, location of IPN, density of IPN, boundary clarity of IPN and outcome. The patients were divided into the metastasis pulmonary nodules group and the benign nodules group according to the final outcome of IPN. Further, χ 2 test was performed for comparison of the clinical and imaging characteristics between the two groups. The survival of patients was counted and the correlation between single factor and survival was compared by Kaplan-Meier test, and multivariate survival analyses were performed using Cox proportional hazards regression models. Results:Sixty-nine cases occurred IPN in 211 patients with osteosarcoma, with an incidence of 32.7%. Of the 69 patients, 45 patients (65.2%) with IPN were diagnosed as metastases, and 24 patients (34.8%) with IPN were diagnosed as benign nodules. Follow-up length ranged from 1 to 124 months, with the median follow up time 43 months. To the end of follow-up, 41 patients (59.4%) remained alive and 28 patients (40.6%) had died. The median survival time was 41.0 (20.0, 65.0) months and the median survival time after diagnosis of IPN was 25.0 (10.0, 43.0) months. There were significant differences in lung nodule density ( P<0.001), boundary ( P=0.002), history of recurrence/extra-pulmonary metastasis ( P=0.023) and chemotherapeutic effect ( P<0.001) between the metastasis pulmonary nodules group and the benign nodules group. Multivariate survival analysis showed that chemotherapeutic effect was an independent factor affecting the overall survival of patients [ HR=0.048, 95% CI (0.01, 0.26)]. Boundary definition [ HR=0.12, 95% CI (0.02, 0.93)] and chemotherapeutic effect [ HR=0.06, 95% CI (0.01, 0.29)] were independent factors influencing survival after diagnosis of IPN. Conclusion:Osteosarcoma patients with IPN have a poor prognosis. The poor effect of chemotherapy is an independent risk factor for the overall survival time of those patients and the survival time after diagnosis of IPN. The boundary definition of IPN is an independent risk factor for the survival time after diagnosis of IPN.

Hydrogels/therapeutic use* ; Tissue Engineering ; Gelatin ; Intervertebral Disc/surgery* ; Methacrylates ; Tissue Scaffolds