Objective To compare the outcomes between intramedullary nail change and augmentation plating with a retained intramedullary nail for aseptic nonunion of femoral shaft fractures after femoral nailing, and to analyze the cause so as to guide the clinical application. Methods Between June 2001 and June 2011, 28 patients with aseptic nonunion of femoral shaft fractures after femoral nailing were treated with intramedullary nail change (11 patients, group A) and augmentation plating with a retained intramedullary nail (17 patients, group B), and the clinical data were analyzed retrospectively. There was no significant difference in age, gender, smoking, location of fracture, Association for the Study of Internal Fixation (AO/ASIF) classification, type of injury, associated injury, type of nonunion, and time of nonunion between 2 groups (P gt; 0.05). The patients were followed up by imaging and the clinical function at regular intervals to observe the callus growth and the recovery condition of the affected limb function, and clinical curative effectiveness was evaluated by Tohner-Wrnch standard. Results The operation time, intraoperative bleeding volume, and intraoperative erythrocyte-transported volume in group A were significantly higher than those in group B (P lt; 0.05). There was no significant difference in postoperative drainage volume and hospitalization days between 2 groups (P gt; 0.05). All the incisions healed by first intention, and no nerve and blood vessel injury occurred. All patients were followed up 18.6 months on average (range, 12-36 months). All cases obtained bone union, and time of clinical and radiological bone healing in group B was significantly shorter than those in group A (P lt; 0.05). During follow-up, no following complication occurred: deep incision infection, injuries of blood vessels and nerves, loosening and breakage of internal fixation, loss of reduction, angulated and rotational malunion. According to Tohner-Wrnch standard at last follow-up, the results were excellent in 6 cases, good in 3 cases, and poor in 2 cases, with an excellent and good rate of 81.8% in group A; the results were excellent in 12 cases, good in 5 cases, with an excellent and good rate of 100% in group B; and difference was significant between 2 groups (Z= — 2.623, P=0.021). Conclusion Augmentation plating with a retained intramedullary nail is an ideal treatment for aseptic nonunion of femoral shaft fractures after femoral nailing and can achieve satisfactory clinical outcomes because it has simpler operation, shorter operation time, less blood loss, and less trauma than intramedullary nail change.
Objective To compare the effectiveness of proximal femoral nail antirotation (PFNA) and reconstruction nail with minimally invasive technique for ipsilateral femoral shaft and extracapsular hip fractures in young and middle-aged patients. Methods Sixty-nine young and middle-aged patients with ipsilateral femoral shaft and extracapsular hip fractures were treated between January 2000 and August 2010, and their data were analyzed retrospectively. Of them, fractures were fixed by reconstruction nail in 44 cases (reconstruction nail group) and by PFNA in 25 cases (PFNA group). There was no significant difference in gender, age, weight, injury cause, fracture type, or disease duration between 2 groups (P gt; 0.05). The operation time, blood loss, fracture healing time, complications, and functional outcomes were compared between 2 groups to evaluate the effectiveness. Results The operation time and blood loss in the PFNA group were significantly less than those in the reconstruction nail group (P lt; 0.05). The follow-up time was 12-38 months (mean, 20 months ) in the PFNA group and was 12-48 months (mean, 22 months) in the reconstruction nail group. No complication occurred as follows in 2 groups: wound infection, deep venous thrombosis, pulmonary embolism, breakage of the implants, avascular necrosis of the femoral head, or serious rotation and shortening deformity of lower limbs. In the PFNA group and the reconstruction nail group, 1 patient underwent technical difficulty in nail implant and 7 patients underwent technical difficulty in proximal locking screw, respectively; 3 patients and 6 patients had intra-operative iatrogenic fracture of femoral shaft, respectively; and delayed union of femoral shaft was observed in 1 patient and 2 patients, respectively. The complication rate was 20% (5/25) in the PFNA group and 34% (15/44) in the reconstruction nail group, showing no significant difference (χ2=1.538, P=0.215). No significant difference was found in fracture healing time between 2 groups (P gt; 0.05). At last follow-up, there was no significant difference in Harris hip score and Evanich knee score between 2 groups (P gt; 0.05). Conclusion PFNA or reconstruction nail with minimally invasive technique is a good method to treat ipsilateral femoral shaft and extracapsular hip fractures, but the PFNA is superior to the reconstruction nail because of simple operation.
【Abstract】 Objective The auto-control micro-motion intramedullary locking nail (AMLN) is designed, to reducethe incidence of delayed union and non-union of femoral shaft fractures fixed by interlocking intramedullary nails, and toobserve the cl inical effect of self-design AMLN in the treatment of femoral shaft fractures. Methods The distal and promixalnails were connected by the micro-motion locking structure, which could cause 1.0-1.5 mm axial micro-motion between fracture gaps. It could produce physical stimulus and conduction between fracture gaps in the course of fracture union. From December 2003 to May 2006, 32 cases of femoral shaft fractures were treated with AMLN, including 21 males and 11 females with the average age of 31.2 years (ranging from 20 years to 43 years). The trauma resulted from fall wounds in 3 cases, crash injuries in 1 case and car accidents in 28 cases. Twenty-nine cases were fresh fractures in different parts of the femoral shaft with transverse, obl ique, spiral and comminuted fractures of type I, II, III and IV. Three cases were old non-union fractures. The fresh fractures were treated by closed AMLN fixation, while the old fractures were treated by open AMLN nails after routine implantation of self bone. Results All the 32 cases were followed up for the average time of 11.5 months (rangeing from 8 months to 22 months). The X-ray films showed the fractures were healed 4.0 to 7.5 months after the operation, with the mean time of 5.1 months, and no break of the nail happened. One nail mildly bent in the comminuted fracture, and 2 patients felt sl ightly unwell at the needl ing point. According to the Klemm criterion for function, 26 cases were excellent, 5 good, 1 fair, and the choiceness rate was 96.88%. Conclusion With a suitable design, AMLN is easy to perform and helpful to quicken fracture union, and it is effective to treat femoral shaft fractures.
【Abstract】 Objective To discuss the techniques and advantages of closed reduction and intramedullary nail ing intreating femoral shaft fracture without cannulated femoral reamer. Methods From January 2006 to June 2007, 24 cases offemoral shaft fracture were treated with closed reduction and intramedullary nail ing. Among them, there were 14 males and 10 females, with the average age of 38.3 years (ranging from 18 years to 63 years), with 7 left legs and 17 right legs. The average course of the disease was 7.6 days (ranging from 3 days to 20 days). According to the AO typing, there were 5 cases of type A, 6 of type B, 7 of type C1, 2 of type C2 and 4 of type C3. Closed reduction was achieved with manipulation and reaming of femoral canal was instructed by fluoroscopy. Results The operation time lasted from 100 minutes to 170 minutes, with the average time of 128.3 minutes. One patient was given a transfusion of 400 mL, and others were not. Twenty cases were followed up with the average time of 13.1 months (ranging from 6 months to 24 months). A mild to large amount of bony callus was showed on X-ray films 6 to 12 weeks postoperatively. Walking without crutches began at the average week of 22.2 (ranging from 15 to 30) postoperatively. Range of motion of the knee was 0° to 145.5°. No infection or break of the internal fixator occurred. Myositis ossificans with pain and insufficient flexion of hip (120°) happened in 1 case and the pain disappeared after non-steroid anti-inflammatory drugs were taken. Nonsymptomatic myositis ossificans occurred in 2 cases and no treatment was needed. Conclusion Closed reductionand intramedullary nail ing can help to protect the blood supply of fracture fragments and provide central fixation. The operation process will be more compl icated if cannulated femoral reamer is not available.
Objective To describe the design and application of a new intramedullary controlled dynamic nailing(ICDN).〓〖WTHZ〗Methods The new ICDN was made of a stainlesssteel alloy, consists of a nail shaft, innerrod, tensile screw, end cape and two interlocked screws. From December 2005 toFebruary 2007, 48 cases of femoral shaft fractures were treated with ICDN. There were 16 females and 32 males with a mean age of 36.6 years (range, 16-48years). Injury was caused by traffic accident in 26 cases, falling from a height in14, sportsrelated in 7 and crush injury in 1 case. According to Winquist classification, Thirtyseven cases were classified as typeⅠ(13 cases of typeⅠ-1,23 cases of Ⅰ-2 and 1 case of Ⅰ-3), eleven as type Ⅱ fracture ( 2 cases oftype Ⅱ-1, 8 cases of Ⅱ-2 and 1 case of Ⅱ-3). The time from injury to admission was an hour to a week. Emergency operation was performed in 19 cases and the other 29 patients were given operation within 3 days. Results All cases were followed up for an average of 5 months (3-12 months). Among them, the average healing period was 21 weeks (826 weeks) and no nonunion, delayed union and breakage of nailings occurred. The complications included 2 infections, 5 pains, and 4 deformities. Based on Johner and Wrubs standard, the results were excellent in 39 cases, good in 7 cases and fair in 2 cases, The excellent and good rate was 95.8%. Conclusions ICDN has excellent biomechanical characteristics which can provide a flexible fixation in treating femoral shaft fractures. The operation is simple and is one of the good techniquesin treating femoral shaft fractures.
Objective To explore the value of electromagnetic navigation interlocking intramedullary nail in the treatment of femoral shaft fracture. Methods Between July 2012 and October 2013, 53 cases of femoral shaft fracture were treated. There were 40 males and 13 females, aged 16-52 years (mean, 38.3 years). The causes of injury were traffic accident in 28 cases, falling from height in 11 cases, falling in 7 cases, crush injury in 4 cases, and other in 3 cases. Of 53 cases, there were 3 cases of open fracture (Gustilo I degree) and 50 cases of closed fracture. Fracture was located in the proximal femur in 17 cases, middle femur in 29 cases, and distal femur in 7 cases. According to Winquist classification, 7 cases were rated as type I, 8 cases as typeⅡ, 22 cases as typeⅢ, and 16 cases as type IV; according to AO classification, 18 cases were rated as type 32-A, 28 cases as type 32-B, and 7 cases as type 32-C. The time from injury to operation was 3-11 days (mean, 5 days). Distal interlocking intramedullary nail was implanted using electromagnetic navigation. Results The distal locking nail operation with interlocking intramedullary nail was successfully completed under electromagnetic navigation; the one-time success rate of distal locking nail operation reached 100%; and the locking nail time was 5.0-9.5 minutes (mean, 7.0 minutes). Healing of incision by first intention was obtained after operation, and no complication of skin necrosis, infection, and sinus tract occurred. Fifty-three cases were all followed up 5-12 months (mean, 9 months). One case had hip pain and weaken middle gluteal muscle strength, and the symptoms disappeared after removing the nail. During the follow-up period, no broken nails, nail exit, infection, or re-fracture occurred. All fractures achieved clinical healing, and the healing time was 8-22 weeks (mean, 14.5 weeks). In 49 patients followed up 8 months, the Lysholm score was excellent in 44 cases, good in 4 cases, and acceptable in 1 case, with an excellent and good rate of 98%. Conclusion Electromagnetic navigation system is safe and reliable, with the advantages of high positioning accuracy, short operation time, and no radiation, the clinical application of the system for distal locking nail operation can obtain excellent short-term effectiveness.
ObjectiveTo investigate the effectiveness and indications of deferred dynamization for nonunion of femoral shaft fractures after static interlocking nail. MethodsBetween March 2006 and June 2012, 26 patients with nonunion of femoral shaft fractures after static interlocking nail were treated with deferred dynamization, and their data were analyzed retrospectively. There were 19 males and 7 females with a mean age of 38 years (range, 22-46 years). Nonunion was found at 10-29 months (mean, 16 months) after open reduction and static interlocking nail for fracture fixation. Referring to Papakostidis criteria for nonunion, there were 7 cases of stable/hyperplastic type, 3 cases of stable/atrophic type, 12 cases of unstable/hyperplastic type, and 4 cases of unstable/atrophic type. ResultsAll incision healed at first stage. Twenty-six patients were followed up 10-28 months (mean, 14 months). A total of 16 (61.5%) fractures healed at 4-11 months after deferred dynamization (7 cases of stable/hyperplastic type and 9 cases of unstable/hyperplastic type); the other 10 fractures failed to heal. The healing rate was 100% (7/7) in patients with stable/hyperplastic type nonunion, 75% (9/12) in patients with unstable/hyperplastic type nonunion, and 0 in patients with stable/atrophic type and unstable/atrophic type nonunion. ConclusionDeferred dynamization is an effective method for hyperplastic nonunion of femoral shaft fractures after static interlocking nail, but it is not suitable for atrophic nonunion of femoral shaft fractures.
ObjectiveTo investigate the biomechanical influence of the oblique locking plate on the fixation of femoral shaft fracture. MethodsForty imitation artificial femur model with mechanical properties similar to human femur were selected and randomly divided into groups A, B, C, and D, 10 in each group; the femur fracture model was made by transverse osteotomy at 15 cm and 17 cm below the lesser trochanter of the femur and fixed with locking plate with 12 holes and cortical bone screws. The plate was placed in the middle of the longitudinal axis of the femur in group A, and was placed at 5, 10, and 15° angle axis in groups B, C, and D respectively. The axial compression, three-point bending, torsion tests were carried out to measure the strain. ResultsWith the compressive load and bending load increasing, the medial and lateral strains were significantly increased in each group (P<0.05); but no significant difference was found in strains under compressive load and bending load among 4 groups (P>0.05). With increasing torque, the strain was significantly increased in each group (P<0.05). At 10 N·m torque, there was no significant difference in the strain values among 4 groups (P>0.05); the strain value was significantly higher in groups C and D than groups A and B (P<0.05) and in group D than group C (P<0.05) at torque of 20 and 50 N·m, but no significant difference was found between groups A and B (P>0.05). ConclusionUnder different stress, the strain will be significantly increased when the plate is placed at >10° angle axis.
ObjectiveTo review the history, current situation, and progress of augmentation plate (AP) for femoral shaft nonunion after intramedullary nail fixation.MethodsThe results of the clinical studies about the AP in treatment of femoral shaft nonunion after intramedullary nail fixation in recent years were widely reviewed and analyzed.ResultsThe AP has been successfully applied to femoral shaft nonunion after intramedullary nail fixation since 1997. According to breakage of the previous nailing, AP is divided into two categories: AP with retaining the previous intramedullary nail and AP with exchanging intramedullary nail. AP is not only suitable for simple nonunion, but also for complex nonunion with severe deformity. Compared with exchanging intramedullary nail, lateral plate, and dual plate, AP has less surgical trauma, shorter healing time, higher healing rate, and faster returning to society. However, there are still some problems with the revision method, including difficulty in bicortical screw fixation, lack of anatomic plate suitable for femoral shaft nonunion, and lack of postoperative function and quality of life assessment.ConclusionCompared with other revision methods, AP could achieve higher fracture healing rate and better clinical prognosis for patients with femoral shaft nonunion. However, whether patients benefit from AP in terms of function and quality of life remain uncertain. Furthermore, high-quality randomized controlled clinical studies are needed to further confirm that AP are superior to the other revision fixations.
Objective To investigate the effectiveness of tunnel osteogenesis technique combined with locking plate in the treatment of aseptic non-hypertrophic nonunion of femoral shaft. MethodsThe clinical data of 23 cases of aseptic non-hypertrophic nonunion of femoral shaft treated with tunnel osteogenesis technique combined with locking plate between January 2017 and December 2020 were retrospectively analysed. There were 17 males and 6 females with an average age of 41.4 years (range, 22-72 years). There were 22 cases of closed fracture and 1 case of open fracture. The types of internal fixation at admission included intramedullary nail in 14 cases and steel plate in 9 cases. The number of nonunion operations received in the past was 0 to 1; the duration of nonunion was 6-60 months, with an average of 20.1 months. Among them, there were 17 cases of aseptic atrophic nonunion of the femoral shaft and 6 cases of dystrophic nonunion. Twenty-two cases were fixed with 90° double plates and 1 case with lateral single plate. The operation time, theoretical blood loss, hospitalization stay, nonunion healing, and postoperative complications were recorded. Harris hip function score, Lysholm knee function score, lower extremity function scale (LEFS), and short-form 36 health survey scale (SF-36) were used at last follow-up to evaluate hip and knee functions. Visual analogue scale (VAS) score was used to evaluate the relief of pain at 1 day after operation and at last follow-up. ResultsThe average operation time was 190.4 minutes, the average theoretical blood loss was 1 458.4 mL, and the average hospitalization stay was 8.2 days. All the 23 patients were followed up 9-26 months, with an average of 18.2 months. The healing time of nonunion in 22 patients was 3-12 months, with an average of 5.6 months. There were 8 cases of limb pain, 8 cases of claudication, 6 cases of limitation of knee joint movement, and 2 cases of limitation of hip joint movement. At last follow-up, the imaging of 1 patient showed that the nonunion did not heal, accompanied by pain of the affected limb, lameness, and limitation of knee joint movement. At 1 day after operation, the VAS score of 23 patients was 6.5±1.8, the pain degree was good in 7 cases, moderate in 12 cases, and poor in 4 cases; at last follow-up, the VAS score was 0.9±1.3, the pain degree was excellent in 21 cases and good in 2 cases, which were significantly better than those at 1 day after operation (t=12.234, P<0.001; Z=–5.802, P<0.001). At last follow-up, the average Harris hip function score of 22 patients with nonunion healing was 94.8, and the good rate was 100%; Lysholm knee function score averaged 94.0, and the excellent and good rate was 90.9%; LEFS score averaged 74.6; SF-36 physical functioning score averaged 85.0 and the mental health score averaged 83.6. ConclusionTunnel osteogenesis technique combined with locking plate in the treatment of aseptic non-hypertrophic nonunion of femoral shaft has a high healing rate and fewer complications, which can effectively relieve pain and improve lower limb function and quality of patients’ life.