目的:对同侧胫腓骨骨折、髋关节骨折后脱位合并膝后交叉韧带损伤的创伤机制及诊断进行分析探讨。方法:对2007年1月至2008年6月收治的7例同侧胫腓骨骨折、髋关节骨折后脱位合并膝后交叉韧带损伤患者的临床资料、诊治经过和随访结果进行总结分析。结果: 胫腓骨开放性骨折3例(42.9%),闭合性骨折4例(57.1%);髋关节均有后脱位,其中伴有髋部骨折5例(71.4%)。膝后交叉韧带实质部断裂4例(57.1%),胫骨止点撕脱骨折3例(42.9%)。7例患者获平均14.7个月(12~18个月)随访。Lysholm膝关节功能评分术后6月95.8±3.71,术后12月97.6±2.7。结论:明确同侧胫腓骨骨折、髋关节骨折后脱位合并膝后交叉韧带损伤的创伤机制,全面、准确、系统的问诊查体和完善的辅助检查是早期确诊、提高疗效的关键。
目的 探讨应用经皮接骨板固定技术(MIPPO)结合锁定钢板(LCP)固定治疗胫腓骨骨折的疗效。 方法 2009年11月-2012年1月应用MIPPO技术结合LCP固定治疗胫腓骨干骨折62例。其中男42例,女20例;年龄16~85岁,平均45岁。骨折按AO分型:A1型10例,A2型3例,A3型3例,B1型18例,B2型8例,B3型4例,C1型10例,C2型5例,C3型1例。闭合骨折47例;开放骨折15例,根据Gustilo-Anderson分型,Ⅰ型8例,Ⅱ型6例,ⅢA型1例。伤后内固定时间3 h~10 d,平均6 d。 结果 开放骨折有3例伤口Ⅱ期愈合,其中1例伤口皮缘坏死,1例钢板部分外露经换药和清创减张缝合后伤口愈合,1例骨外露经皮瓣转移愈合;其余患者术后伤口均Ⅰ期愈合。62例均获随访,随访时间6~16个月,平均9个月。无感染、神经损伤、骨筋膜室综合征发生。术后2~4个月骨折均愈合。根据Johner-Wruhs疗效评价,优48例,良14例;开放性骨折15例中优10例,良5例。 结论 MIPPO技术结合LCP固定治疗胫腓骨干骨折,具有创伤小、骨折愈合快等优点。
Twenty-three cases of severeopen commiunted fractures of thetibia and fibula were treated byexternal skelatal fixation and skinflaps.The skin defects were repairedby the facio-cutaneous flaps, themusculo-cutanecus flap of the gast-rocnemius muscle or the vascularizedosteo-cutaneous flap of the ilium.Seventeen cases were followed-upfor an average of 13 months.Clinicalbony union was obtained in anaverage of 110 days. The authorsrecommended that it was a satisfact-ory method of traetment if a thoroughdebridment, reduction and fixation of the fracture by external skeletal fixation and repaire of wound and the skin defects by tissues flaps were carried out.
Between 1988 and 1991,27 cases of open fractures of shank bones complicated by soft tissue defect were repaired with fasciocutaneous flaps. The wound surfaces in 11 cases were closed in the first stage and in 16 cases the repair was delayed. The wounds of all the 27 cases had good healing, In fasciocutaneous flaps the blood supply was sufficient and this contributed to subsequent healing. The operation was simple, regardless of the postion of the wound and not damaging the blood vessels. An accurate estimation of the degree of contusion of the soft tissues surrounding the wound was prerequisite to select immediate transposition of fasciocutaneous flapsor delayed transposition.
Objective To compare the hemostatic effects and tourniquet induced side reactions of 2 different tourniquets in internal fixation of bilateral tibia and fibula fracture. Methods Between May 2008 and May 2010, 21 patients with bilateral tibia and fibula fracture were treated and randomly divided into 2 groups according to left and right l imbs. When steel plate fixation was performed, equil ibrium pressure pneumatic tourniquet (EPPT group) and common tourniquet (common group) were used to staunch the flow of blood respectively. The time of using tourniquet was 60 minutes, and the hemostatic pressure was 50 kPa. There were 12 males and 9 females with an age range of 17 to 58 years (mean, 32.5 years). Injurywas caused by traffic accident in 9 patients, by heavy pound in 6 patients, and fall ing from height in 6 patients. According to X-ray calssification, there were 15 cases of simple type, 3 cases of butterfly type, and 3 cases of comminuted type in EPPT group; there were 13 cases of simple type, 5 cases of butterfly type, and 3 cases of comminuted type in common group. The time from injury to operation was 3 to 72 hours (mean, 37.5 hours). Results The time of using tourniquet was (95.30 ± 4.19) minutes in EPPT group and (94.11 ± 5.16) minutes in common group, showing no significant difference (P gt; 0.05). All the incision of 2 groups healed by first intension. After 2 weeks of operation in common group, peroneal nerve injury occurred in 3 cases, and was cured by supporting nerve for 3 months; bl ister occurred in 1 case and was cured after dressing change for 3 weeks; and the injury rate was 19%. No compl ication occurred in EPPT group with an injury rate of 0. There was significant difference in the injury rate between 2 groups (P lt; 0.05). The hemostatic effects were excellent in 19 cases and good in 2 cases of EPPT group, were excellent in 10 cases, good in 3 cases, and poor in 8 cases of common group; the excellent and good rate were 100% and 61.9% respectively, showing significant difference (P lt; 0.05). All patients were followed up 3-24 months. Fracture healed without nonunion and deformity union in 2 groups. Conclusion Comparing to common tourniquet, the EPPT can provide good bloodless field, lower hemostatic pressure, and less tourniquet compl ication.
ObjectiveTo explore the effectiveness of using antibiotic bone cement-coated plates internal fixation technology as a primary treatment for Gustilo type ⅢB tibiofibular open fractures. Methods The clinical data of 24 patients with Gustilo type ⅢB tibiofibular open fractures who were admitted between January 2018 and December 2021 and met the selection criteria was retrospectively analyzed. Among them, there were 18 males and 6 females, aged from 25 to 65 years with an average age of 45.8 years. There were 3 cases of proximal tibial fracture, 6 cases of middle tibial fracture, 15 cases of distal tibial fracture, and 21 cases of fibular fracture. The time from injury to emergency surgery ranged from 3 to 12 hours, with an average of 5.3 hours. All patients had soft tissue defects ranging from 10 cm×5 cm to 32 cm×15 cm. The time from injury to skin flap transplantation for wound coverage ranged from 1 to 7 days, with an average of 4.1 days, and the size of skin flap ranged from 10 cm×5 cm to 33 cm×15 cm. Ten patients had bone defects with length of 2-12 cm (mean, 7.1 cm). After emergency debridement, the tibial fracture end was fixed with antibiotic bone cement-coated plates, and the bone defect area was filled with antibiotic bone cement. Within 7 days, the wound was covered with a free flap, and the bone cement was replaced while performing definitive internal fixation of the fracture. In 10 patients with bone defect, all the bone cement was removed and the bone defect area was grafted after 7-32 weeks (mean, 11.8 weeks). The flap survival, wound healing of the affected limb, complications, and bone healing were observed after operation, and the quality of life was evaluated according to the short-form 36 health survey scale (SF-36 scale) [including physical component summary (PCS) and mental component summary (MCS) scores] at 1 month, 6 months after operation, and at last follow-up. ResultsAll 24 patients were followed up 14-38 months (mean, 21.6 months). All the affected limbs were successfully salvaged and all the transplanted flaps survived. One case had scar hyperplasia in the flap donor site, and 1 case had hypoesthesia (grade S3) of the skin around the scar. There were 2 cases of infection in the recipient area of the leg, one of which was superficial infection after primary flap transplantation and healed after debridement, and the other was sinus formation after secondary bone grafting and was debrided again 3 months later and treated with Ilizarov osteotomy, and healed 8 months later. The bone healing time of the remaining 23 patients ranged from 4 to 9 months, with an average of 6.1 months. The scores of PCS were 44.4±6.5, 68.3±8.3, 80.4±6.9, and the scores of MCS were 59.2±8.2, 79.5±7.8, 90.0±6.6 at 1 month, 6 months after operation, and at last follow-up, respectively. The differences were significant between different time points (P<0.05). ConclusionAntibiotic bone cement-coated plates internal fixation can be used in the primary treatment of Gustilo type ⅢB tibiofibular open fractures, and has the advantages of reduce the risk of infection in fracture fixation, reducing complications, and accelerating the functional recovery of patients.
ObjectiveTo explore the efficacy and safety of the axial load mechanical testing for removing external fixator. MethodsBetween January 2014 and August 2015, 27 patients with tibia and fibula fractures caused by trauma underwent an external fixation. Of 27 patients, 21 were male and 6 were female with the average age of 45 years (range, 19-63 years), including 7 cases of closed fracture and 20 cases of open fracture. X-ray film results showed spiral unstable fracture in 4 cases and comminuted unstable fracture in 23 cases. All patients underwent an external fixation. Bone nonunion occurred in 3 cases because of infection, and bone nonunion combined with bone defect occurred in 1 case, who received tibial osteotomy lengthening surgery. When X-ray film showed continuity high density callus formation at fracture site, axial load mechanical test was performed. If the axial load ratio of external fixator was less than 10%, the external fixator was removed. ResultsAt 21-85 weeks after external fixation (mean, 44 weeks), axial load mechanical test was performed. The results showed that the axial load ratio of external fixation was less than 10% in 26 cases, and the external fixator was removed; at 6 weeks after removal of external fixator, the patients could endure full load and return to work, without re-fracture. The axial load ratio was 14% in 1 case at 85 weeks, and the X-ray film result showed that fracture did not completely heal with angular deformity; re-fracture occurred after removing external fixator, and intramedullary fixation was used. ConclusionExternal fixator axial load mechanical testing may objectively reveal and quantitatively evaluate fracture healing, so it is safe and reliable to use for guiding the external fixator removal.