Objective To explore the effectiveness of Nice knot technique for wound closure in Gustilo type ⅢA and ⅢB open tibial fractures. Methods A retrospective study was performed on 22 patients with Gustilo type ⅢA and ⅢB open tibial fractures, who underwent wound closure using the Nice knot technique and were admitted between June 2021 and June 2022. There were 15 males and 7 females. The age ranged from 18 to 67 years, with an average of 41.9 years. The causes of injury included traffic accident in 11 cases, falling from height in 7 cases, and heavy object injuries in 4 cases. Fractures were located on the left side in 9 cases and on the right side in 13 cases. And 9 cases were type ⅢA fractures and 13 were type ⅢB fractures according to Gustilo classification. All patients had extensive soft tissue injuries, and no vascular or neurological damage was observed. The time from injury to debridement was 3-8 hours (mean, 6.5 hours). The sizes of wounds before operation and at 2 weeks after operation were measured and wound healing rate at 2 weeks after operation were calculated. The wound healing time and wound healing grading were recorded. The Vancouver Scar Scale (VSS) score was used to assess the wound scar after wound healed and the excellent and good rate was calculated. Results The wound area was 21.0-180.0 cm2 (mean, 57.82 cm2) before operation, and it was 1.2-27.0 cm2 (mean, 6.57 cm2) at 2 weeks after operation. The wound healing rate at 2 weeks after operation was 76%-98% (mean, 88.6%). After operation, 2 cases needed to adjust Nice knot due to skin cutting and 1 case occurred soft tissue infection on the wound. The other patient’s wounds healed. The average wound healing time was 27.8 days (range, 18-44 days). And the wound healing were grade A in 13 cases and grade B in 9 cases. VSS score was 2-9, with an average of 4.1; 10 cases were rated as excellent, 10 as good, and 2 as poor, with an excellent and good rate of 90.9%. All patients were followed up 9-24 months (mean, 14.6 months). During follow-up, no deep infection or osteomyelitis occurred. Two cases experienced fracture non-union, and were treated with compression fixation and bone grafting. The fractures of the other patients all healed, with a healing time of 85-190 days (mean, 148.2 days). ConclusionNice knot technique can be used in wound closure of Gustilo type ⅢA and ⅢB open tibial fractures effectively, which is easy to operate.
Objective To compare the clinical effect of reamed and nonreamed intramedullary interlocking nails on treating open tibial fractures. Methods From February 2002 to February 2004, 92 cases of open tibial fractures (86 patients) were treated with intramedullary interlocking nails. Of the 86 patients, 65 were male and 21 were female. Their age ranged from 18 to 68 years (36.5 on average). Of the 92 cases, 54 were in the reamed group and 38 in the nonreamed group. Patients moved with the support of crutch after their wounds were healed. Results All patients were followed up regularly for 6 to 24months. Infection rate in the reamed group and nonreamed group was 20.3% and 5.3% respectively, and there was significant difference between them (Plt;0.05). The averagehealing time of the fractures was 22.5 weeks in reamed group and 19 weeks in nonreamed group, and there was no significant difference between them (P>0.05). Delayed unions occurred in 8 cases and 3 cases in reamed group and nonreamed group respectively. Conclusion Compared with reamed group, nonreamed intramedullary interlocking nails have lowerinfection rate and fewer delayed unions and ununions.
Objective To summarize the cl inical appl ication of minimally invasive percutaneous locking compression plate (LCP) internal fixation in the treatment of tibial fractures and to evaluate its cl inical effects. Methods From September 2005 to September 2007, 13 patients with tibial fractures were treated with indirect reduction and minimally invasive percutaneous LCP internal fixation, 8 males and 5 females, aged 18-35 years old (27 on average). Among them, the fractures were caused by traffic accidents in 3 cases, by fall ing in 5 cases, by fall ing from height in 4 cases and by bruise in 1 case. The fractures were located at 1/3 upper tibia in 2 cases, at 1/3 medium tibia in 6 cases and at 1/3 lower tibia in 5 cases. All fracture were closed ones. According to the AO classification, 4 cases were type A, 7 type B and 2 type C. The time between fractures and operation was from 3 hours to 5 days (2.5 days on average). Results All incisions obtained heal ing by first intention. All patients were followed up for 10-18 months (13 months on average). All fractures reached cl inical heal ing, and the heal ing time was 12-20 weeks (16 weeks on average). There was no delayed fracture heal ing, nonunion, infection and internal fixation failure. No compl ications such as rotation, crispatura deformity and internal fixation loosening were found. According to the HSS scoring, the function of the knee joint was graded 85-95 (90 on average), and the range of motion was 100-130° (120° on average). According to the AOFAS Ankie Hindfoot Scoring, the function of the ankle joint was graded 80-95 (92.4 on average). Nine cases were excellent, 4 good, and the choiceness rate was 100%. Conclusion Minimally invasive percutaneous LCP internal fixation is in accord with biological set principles and beneficial for tibial fracture heal ing and reconstruction of soft tissues.
Objective To investigate the feasibility of Drawtex hydroconductive dressing in treatment of early implantation-associated infection and soft tissue defect after internal fixation of tibial fracture. Methods Thirty-six New Zealand rabbits were used to prepare the model of early implantation-associated infection after internal fixation of tibial fracture, and randomly divided into 3 groups (n=12) . The infected wounds were covered with Drawtex hydroconductive dressing (group A), chitosan solution gauze (group B), and normal saline gauze (group C), respectively. The dressing was changed every 2 days. X-ray films were performed at 1, 14, and 21 days. The gross observation, microbiological evaluation, and histological observation were done at 21 days. Results There was no significant difference in the wound grading according to the Jamesʾ grading criteria between groups at 21 days (χ2=3.713, P=0.156). X-ray films showed no bone destruction in all groups at 1 day; and there was no significant difference in radiographic scores between groups (P>0.05). At 14 days, the mild osteolysis was observed in group B; the radiographic score was significantly lower in groups A and C than in group B (P<0.05), but there was no significant difference between groups A and C (P>0.05). At 21 days, the osteolysis and osteomyelitis were observed in groups B and C; the radiographic score was significantly lower in group A than in groups B and C (P<0.05), but there was no significant difference between groups B and C (P>0.05). Also, the microorganism in bone tissue of group A was less than that of groups B and C (P<0.05); and the difference between group B and group C was not significant (P>0.05). Histological observation showed the mild inflammatory cell infiltration in group A and many inflammatory cells in groups B and C. The Smeltzer histological score was significant lower in group A than in groups B and C (P<0.05); and there was no significant difference between groups B and C (P>0.05). Conclusion Drawtex hydroconductive dressing can be used for the implantation-associated infection after tibial fracture internal fixation. And the effectiveness of Drawtex hydroconductive dressing is better than that of chitosan solution gauze and normal saline gauze.
Objective To study the effect of the human umbilical cord blood on the content of trace elements in whole blood during fracture healing in rabbits and to explore the mechanism of promoting fracture healing. Methods The right tibial fracture model was made in 63 white New Zealand rabbits (aged, 4-5 months; weighing, 2.0-2.5 kg). The fracture site was treated with 3 mL human umbilical cord blood (group A, n=21) and 3 mL normal saline (group B, n=21) at 3 and 8 days after operation, and was not treated as a control (group C, n=21). At 1, 2, 3, 4, 5, and 6 weeks after operation, the X-ray and histological observations were done; the contents of zinc, copper, magnesium, ferrum, calcium, and phosphorus were detected. Results X-ray observation showed that the fracture healing speed of group A was significantly faster than that of groups B and C; the fracture healing X-ray score of group A was significantly higher than that of groups B and C at 2-6 weeks (P lt; 0.05). The histological observation indicated that new trabeculae and osteoid of group A were significantly more than those of groups B and C; at 2-5 weeks, the histological score of group A was significantly higher than that of groups B and C (P lt; 0.05); at 6 weeks, the score of group A was significantly higher than that of group B (P lt; 0.05), but no significant difference was found between groups A and C (P gt; 0.05). Changes trend of the trace elements in 3 groups after operation was basically consistent. The content of copper first decreased and then gradually increased; the contents of ferrum, zinc, and magnesium at different time points decreased, but were basically stable; the content of calcium first increased and then decreased; the content of phosphorus first decreased and then increased. The contents of copper, zinc, magnesium, ferrum, calcium, and phosphorus in group A were significantly higher than those in groups B and C at different time points (P lt; 0.05), but there was no significant difference between groups B and C (P gt; 0.05). Conclusion Injection of the human umbilical cord blood at the fracture end of rabbits can significantly slow down the loss of trace elements in whole blood, ensure the contents of necessary trace elements during fracture healing, which may be one of the mechanisms of the umbilical cord blood promoting fracture healing.
ObjectiveTo explore the therapeutic effect of using locking compression plate (LCP) as an external fixator and using an external fixator on open fractures of the tibia. MethodsBetween September 2010 and December 2012, 56 patients with the open tibia fractures underwent external fixation using LCP as an external fixator (LCP group, n=22) or external fixator (external fixator group, n=34). We compared the healing time, the rate of postoperative complication and the postoperative function between two groups. ResultsThe mean healing time was 11 weeks (8-28 weeks) and there was 1 case of delayed healing in the LCP group. The mean healing time was 14 weeks and there was 4 cases of delayed healing in the external fixator group. We found significant difference in the healing time (t=2.740, P=0.008) and the infection rate of pin track (13.6% vs 32.4%; χ2=2.496, P=0.114) between the LCP and external fixator group. ConclusionFor open fractures of the tibia, using LCP as an external fixator may increase the healing time and decrease the rate of postoperative complications.
Objective To describe a surgical device for closed reduction of tibial fracture and investigate its clinical effectiveness. Methods Between June 2010 and December 2012, 24 cases of tibial fractures were treated with intramedullary nailing using a surgical device for closed reduction. There were 18 males and 6 females with an average age of 40 years (range, 20-64 years). All fractures were closed. There were 3 proximal third fractures, 12 middle third fractures, and 9 distal third fractures. According to AO classification, 12 cases were classified as type A, 8 cases as type B, and 4 cases as type C. The mean time between injury and operation was 3 days (range, 1-12 days). The intraoperative fluoroscopy frequency to confirm closed reduction and guide wire passing the fracture site, and the duration between fracture reduction and nail insertion were recorded. The injured limb alignment and fracture angular deformity were measured as described by Freedman et al. The fuction of affected limb was estimated by Johner-Wruhs criteria. Results Closed reduction was successfully performed in 24 patients. The mean fluoroscopy frequency to confirm closed reduction was 3 (range, 2-5). The fluoroscopy frequency to confirm guide wire passing the fracture site was 2. The mean duration between fracture reduction and nail insertion was 30 minutes (range, 20-42 minutes). No intraoperative or postoperative complication occurred, such as infection, vessel and nerve injuries. All incisions healed by first intention. Seventeen patients were followed up 6-16 months (mean, 10 months). Radiographic evidence showed that bridging callous was observed at 2-4 months (mean, 2.5 months). The injured limb alignment was normal on anteroposterial and lateral radiographs at 5 months postoperatively, no malalignment and obvious angular deformity was observed. The internal fixator had good position. According to Johner-Wruhs criteria for evaluation of the affected limb function, the results were excellent in 12 cases and good in 5 cases with an excellent and good rate of 100%. Conclusion The surgical device for closed reduction of tibial fracture is simple and easy to use, and has good effectiveness combined with intramedullary nailing.
Objective To evaluate the safety of conversion from external fixation to internal fixation for open tibia fractures. Methods Between January 2010 and December 2014, 94 patients (98 limbs) with open tibia fractures were initially treated with external fixators at the first stage, and the clinical data were retrospectively analyzed. In 29 cases (31 limbs), the external fixators were changed to internal fixation for discomfort, pin tract response, Schantz pin loosening, delayed union or non-union after complete wound healing and normal or close to normal levels of erythrocyte sedimentation rate (ESR), C reactive protein (CRP), and the leucocyte count as well as the neutrophil ratio (trial group); in 65 cases (67 limbs), the external fixators were used as the ultimate treatment in the control group. There was no significant difference in gender, age, side of the limbs, interval from injury to the first debridement, initial pathogenic bacteria, the limbs that skin grafting or flap transferring for skin and soft tissue defect between the two groups ( P>0.05). The incidence of Gustilo type III fractures in the control group was significantly higher than that in the trial group (P=0.000). The overall incidence of infection was calculated respectively in the two groups. The incidence of infection according to different fracture types and whether skin grafting or flap transferring was compared between the two groups. The information of the pathogenic bacteria was recorded in the infected patients, and it was compared with the results of the initial culture. The incidence of infection in the patients of the trial group using different internal fixation instruments was recorded. Results The overall incidences of infection for the trial and control groups were 9.7% (3/31) and 9.0% (6/67) respectively, showing no significant difference (χ2=0.013, P=0.909). No infection occurred in Gustilo type I and type II patients. The incidence of infection for Gustilo type IIIA patients in the trial group and the control group were 14.3% (1/7) and 6.3% (2/32) respectively, showing no significant difference (χ2=0.509, P=0.476); the incidence of infection for type IIIB patients in the two groups were 50.0% (2/4) and 14.3% (2/14) respectively, showing no significant difference (χ2=2.168, P=0.141); and the incidence of infection for type IIIC patients in the two groups were 0 and 16.7% (2/12) respectively, showing no significant difference (χ2=0.361, P=0.548). Of all the infected limbs, only 1 limb in the trial group had the same Staphylococcus Aureus as the result of the initial culture. In the patients who underwent skin grafting or flap transferring, the incidence of infection in the trial and control groups were 33.3% (2/6) and 13.3% (2/15) respectively, showing no significant difference (χ2=1.059, P=0.303). After conversion to internal fixation, no infection occurred in the cases that fixed with nails (11 limbs), and infection occurred in 4 of 20 limbs that fixed with plates, with an incidence of infection of 20%. Conclusion Conversion from external fixation to internal fixation for open tibia fractures is safe in most cases. However, for open tibia fractures with extensive and severe soft tissue injury, especially Gustilo type III patients who achieved wound heal after flap transfer or skin grafting, the choice of secondary conversion to internal fixation should carried out cautiously. Careful pre-operative evaluation of soft tissue status, cautious choice of fixation instrument and meticulous intra-operative soft tissue protection are essential for its safety.