Objective To investigate whether combining use of platelet-rich plasma (PRP) and decalcified bone matrix (DBM) has synergistic action on promoting bone consol idation and heal ing. Methods Forty male New Zealand rabbits (weighing 2.2-2.8 kg) were randomly divided into 4 groups (n=10). The whole blood was extracted from the central aural artery and PRP was prepared with the Landesberg’s method. An 1 cm-defect was made below the tibiofibular joint of the lefttibia through osteotomy. In group A, defect was repaired by distraction osteogenesis (1 cm); in group B, defect was repaired with 0.5 cm DBM and then by distraction osteogenesis (0.5 cm); in group C, defect was repaired by distraction osteogenesis (1 cm) and local injection of 1 mL PRP; in group D, defect was repaired by 0.5 cm DBM combined with 1 mL PRP and then by distraction osteogenesis (0.5 cm). Then lengthening started at 7 days after operation, at a rate of 1 mm/day and 0.5 mm every time for 10 days (groups A and C) or for 5 days (groups B and D). After the lengthening, the consolidation was performed. The X-ray films were taken at 0, 12, 17, 27, and 37 days after operation. At 37 days after operation, the tibial specimens were harvested for Micro-CT scanning, three-dimensional reconstruction and biomechanical test. Results The X-ray films showed that new bone formation in groups B and C was obviously better than that in groups A and D at 37 days. The bone mineral density (BMD), bone mineral content (BMC), and bone volume fraction (BVF) of groups B and C were significantly higher than those of groups A and D (P lt; 0.05); the BMD and BMC of group C were significantly higher than those of group B (P lt; 0.05); the BVF had no significant difference between groups B and C (P gt; 0.05). There was no significant difference in BMD, BMC, and BVF between groups A and D (P gt; 0.05). The trabecula number (Tb.N) of group C was significantly more than that of other groups (P lt; 0.05), and the trabecula spacing (Tb.Sp) of group C was significantly smaller than that of other groups (P lt; 0.05), but no significant differencewas found among other groups (P gt; 0.05). There was no significant difference in the trabecula thickness among 4 groups (P gt; 0.05). The ultimate angular displacement had no significant difference among 4 groups (P gt; 0.05). The maximum torque of groups B and C was significantly higher than that of groups A and D (P lt; 0.05); the maximum torque of group C was significantly higher than that of group B (P lt; 0.05); no significant difference was found between groups A and D (P gt; 0.05). Conclusion In the rabbit bone defect/lengthening model, local injection of PRP can enhance bone consol idation effectively during consol idation phase. In normal distraction rate, DBM can promote bone consol idation during distraction osteogenesis. In the early stage of distraction osteogenesis, combining use of DBM and PRP can not further promote bone consolidation and healing.
Objective To evaluate the effectiveness of posterior malleolus fixation on the function of ankle in patients with ankle fracture. Methods Between June 2007 and June 2009, 110 patients with ankle fracture were treated with posteriormalleolus fixation in 59 patients (fixation group) or without fixation in 51 patients (non-fixation group). In fixation group, there were 31 males and 28 females with an average age of 62.6 years (range, 19-75 years); the causes of injury included traffic accident (20 cases), falling (18 cases), and sprain (21 cases) with a disease duration of 1-3 days (2.2 days on average); and the locations were left ankle in 32 cases and right ankle in 27 cases, including 6 cases of type I, 23 of type II, 19 of type III, and 11 of type IV according to the ankle fracture clssification. In non-fixation group, there were 38 males and 13 females with an average age of 64.5 years (range, 16-70 years); the causes of injury included traffic accident (15 cases), falling (12 cases), and sprain (24 cases) with a disease duration of 1-3 days (2.5 days on average); and the locations were left ankle in 22 cases and right ankle in 29 cases, including 8 cases of type I, 16 of type II, 19 of type III, and 8 of type IV according to the ankle fracture clssification. There was no significant difference in general data between 2 groups (P gt; 0.05). Results All patients of 2 groups achieved wound heal ing by first intention. The patients were followed up 12-18 months (16 months on average). X-ray films showed that fractures healed at 8-12 weeks (10 weeks on average) in fixation group and at 10-14 weeks (12 weeks on average) in non-fixation group. There were significant differences in the cl inical score (89.28 ± 8.62 vs. 86.88 ± 9.47, P lt; 0.05), postoperative reposition score (33.34 ± 2.15 vs. 31.24 ± 2.89, P lt; 0.05), and osteoarthritis score (13.22 ± 1.66 vs. 12.46 ± 2.03, P lt; 0.05) according to Phill i ps ankle scoring system between 2 groups at last follow-up. There was no significant difference in cl inical score of type I and II patients between 2 groups (P gt; 0.05), but significant differences were found in cl inical score and osteoarthritis score of type III and IV patients between 2 groups (P lt; 0.05). There were significant differences in the postoperative reposition score between 2 groups in all types of fractures (P lt; 0.05). Conclusion The posterior malleolus fixation may provide satisfactory cl inical functional outcomes for ankle fracture. Proper fracture classification and correct method of internal fixation are important for achieving good reduction and improving the long-term results.
Objective To review the recent advances in treatment of aseptic femoral shaft nonunion. Methods The clinical studies about the treatments of aseptic femoral shaft nonunion in recent years were widely reviewed and analyzed. Results There are several surgical methods for aseptic femoral shaft nonunion. Due to uncertain clinical outcome, dynamization of nail should be carefully selected. The exchange nailing is suitable for the hypertrophic nonunion of the isthmal femoral shaft fracture. The exchange lateral plating is suitable for nonunion with obvious malformation. However, wave plate or dual plate should be chosen when the bone nonuinon is combined with the medial defect. The augmentation plating improves the success rate of nailing for femoral shaft nonunion, but it should be carefully selected for patients with obvious deformity or bone defect. Ilizarov technique is suitable for various bone nonunion, especially with complicated or large segmental bone defects. Induced membrane technique is also an important method for the treatment of bone nonunion with large bone defects. The clinical efficacy of the blocking screw remains to be supported by further evidence. Biological stimulants are mainly used for atrophic nonunion, and the clinical efficacy of them alone are still controversial. Conclusion Due to lack of comparative studies between different surgical methods, the orthopedist should choose the appropriate treatment according to the individual situations of the patient and the types of bone nonunion.
ObjectiveTo summarize the evolving concept in treatment of intertrochanteric fractures and the development of internal fixation devices. MethodsRelated literature concerning the implant devices to treat intertrochanteric fractures was reviewed and analyzed in terms of the biomechanical characteristics, clinical application, and complications. ResultsThe treatment of intertrochanteric fractures has undergone an evolving concept from conservative treatment to surgical treatment. Surgery strategies include extramedullary fixation and intramedullary fixation. Intramedullary fixation has gradually become the main treatment of intertrochanteric fractures due to its minimally invasive and biomechanical advantages. However, the current intramedullary fixation system still can not reconstruct the medial cortical support of the proximal femur, which leads to some failures in the treatment of unstable fractures. ConclusionThe development of internal fixation of intertrochanteric fractures is based on the deep understanding and biomechanical theory of intertrochanteric fractures in clinical practice. In the future, the updated design of internal fixation devices will depend on the treatment principle of reconstruction of medial support and secondary stabilization of intertrochanteric fractures, and finally the purpose of improving success rate and reducing postoperative complications of intertrochanteric fracture will achieved.
ObjectiveTo review the literature about the clinical application and research progress on medial support augmentation of plate osteosynthesis for proximal humeral fractures, and to provide reference for clinical treatment.MethodsThe literature concerning medial support augmentation of plate osteosynthesis for proximal humeral fractures in recent years was extensively reviewed, as well as the biomechanical benefit and clinical advantage were analyzed thoroughly.ResultsMedial support augmentation of plate osteosynthesis for proximal humeral fractures is very important, especially in osteoporotic and/or comminuted fractures. Many medial support augmentation methods have been proposed which can be divided into extramedullary support and intramedullary support. It can also be divided into autogenous bone support and allogenic bone support according to the material and source, divided into medial column support, calcar support, and humeral head support according to the support site, and divided into fibular shaft support, femoral head support, anatomic fibula support according to the shape of the augmented fixation. At present, clinical and biomechanical researches show that medial support augmentation is an effective treatment for proximal humeral fractures.ConclusionAs an important treatment strategy for the treatment of proximal humeral fractures, the medial support augmentation of plate osteosynthesis gets the focus from the biomechanical studies and clinical treatment. However, there are still widespread controversies among orthopedic surgeons regarding the support mode, site, implant shape, and material of medial column support for augmentation of proximal humeral fractures. More high-quality clinical trials and biomechanical researches as well as multi-disciplinary integration, are needed to provide better strategy treatment for the treatment of proximal humeral fractures.
Objective To review the in vivo imaging research progress of two-photon microscopy (TPM) in spinal cord. Methods The recent literature concerning in vivo two-photon imaging of axon, microglia, and calcium in transgenic mice spinal cord was extensively consulted and reviewed. Results In vivo two-photon imaging of spinal cord provide dynamic information about axonal degeneration and regeneration, microglial accumulation, and calcium influx after spinal cord injury. Conclusion TPM in vivo imaging study on spinal cord will provide theoretical foundation for pathophysiologic process of spinal cord injury.
Objective To evaluate the effectiveness of the AO anatomical locking compression plate in treating type C distal humeral fracture. Methods Between July 2008 and April 2009, 13 cases of type C distal humeral fracture were treated with the AO anatomical locking compression plates. There were 5 males and 8 females with an average age of 52.1 years (range, 24-80 years). Fractures were caused by tumbl ing in 7 cases, by traffic accident in 4 cases, and by fall ing from height in2 cases. According to Association for Osteosynthesis/Orthopaedic Trauma Association (AO/OTA) classification, there were 3 cases of type C1, 6 cases of type C2, and 4 cases of type C3. Two cases compl icated by ulnar nerve injuries, 1 by radial nerve injury, 2 by fractures of ulnar olecranon, 3 by fractures of other parts of extremities, and 6 by osteoporosis. The time from injury to hospital ization ranged from 3 hours to 4 days (0.9 day on average). Results All the incisions achieved heal ing by first intention. Thirteen cases were followed up 12 to 21 months with an average of 15.9 months. According to the X-ray films, unions were achieved both at fracture site and the olecranon osteotomy site with a heal ing time of 8 to 13 weeks (10 weeks on average). The function of elbows recovered from 3 to 32 weeks (10 weeks on average). No fixation failure, myositis ossifican, delayed union, or malunion occurred during the follow-up. The Mayo Elbow Performance score ranged from 75 to 100 with an average score of 95.8; the results were excellent in 9 cases, good in 3 cases, and fair in 1 case with an excellent and good rate of 92.3%. Conclusion The AO anatomical locking compression plate has a good fixation in treating type C distal humeral fracture. Through the approach of olecranon osteotomy, it is easy to get anatomical reduction, stable fixation, and early exercise.
ObjectiveTo analyze the associated risk factors of hidden blood loss in the internal fixation of intertrochanteric fracture. MethodsA retrospective analysis was made on the clinical data of 317 cases of intertrochanteric fractures which were treated by internal fixation between January 1993 and December 2008. There were 154 males and 163 females with an average disease duration of 4.58 days (range, 7 hours to 33 days); the age was (69.86±15.42) years; the average height was 1.64 m (range, 1.50-1.84 m);and the average weight was 62.26 kg (range, 39-85 kg). Of them, intramedullary fixation was used in 203 patients and extramedullary fixation in 114 patients. The operation time was (61.99±18.25) minutes. The red blood cell transfusion was given to 84 patients, and the transfusion amount was 200-1 000 mL. The drainage volume was 0-750 mL (mean, 61.85 mL). Hidden blood loss was calculated through change of hematocrit level before and after operation. The multiple linear regression was performed to analyse the risk factors of hidden blood loss. ResultsThe total blood loss was (918.60±204.44) mL, the hidden blood loss was (797.77±192.58) mL, and intraoperative visible blood loss was (257.32±271.24) mL. Single factor analysis showed hidden blood loss was significantly higher in variables as follows:gender, age, injury cause, fracture type, American anesthesiologists grading, anesthesia mode, hypertension, diabetes, disease duration, operation time, intraoperative transfusion of red blood cells, and fixation type. Multiple linear regression showed age, fracture type, anesthesia mode, and fixation type were significant risk factors. ConclusionThe risk factors of hidden blood loss are advanced age (>60 years), unstable fracture, general anesthesia, and imtramedullary fixation. Especially in elder patients with unstable fracture treated by intramedullary fixation under general anesthesia, hidden blood loss is more significant.