ObjectiveTo summarize the progress on the distal interlocking screw of cephalomedullary nail for intertrochanteric fractures. MethodsRelated literature concerning the distal interlocking screw of cephalomedullary nail was reviewed and analyzed in terms of biomechanics, clinical application, operating difficulties, and complications. ResultsDistal interlocking screw can provide extra torsional stiffness in both short and long cephalomedullary nail. It is applied in most clinical cases. In long cephalomedullary nail, placing the distal interlocking screw increases the operative time for fixation and the amount of radiation exposure notably. In short cephalomedullary nail, placing the distal interlocking screw can cause adjacent vascular injury, stress concentration, and secondary fracture around the screw. ConclusionWhen the fracture is stable (type A1, type A2.1), it can be fixed solidly without the distal interlocking screw, but prefers to use a long nail. In unstable fracture, the distal interlocking screw should be used to prevent rotational displacement of the femur shaft and the failure of the nail.
Objective To review the methods and progress on repairing hand injury with dorsal neurocutaneous vascular flap. Methods Recent l iterature on repairing hand injury with dorsal neurocutaneous vascular flap was reviewed and analyzed. Results Island fascial flap was designed on the radial or ulnar side of the dorsum of the hand based on the anatomical study of the dorsum of the hand, and the choice of pedicle depended upon the position of wound. Conclusion Repairing hand injury with dorsal neurocutaneous vascular flap is easy to perform and in l ine with the principle of repairing wounds in proximity. It is one of the effective methods of repairing wounds of the hand.
Objective To summarize the surgical treatment methods and progress of inferior patellar pole fractures and provide reference for clinical application. Methods The literature on surgical treatment of inferior patellar pole fractures was extensively reviewed, and the relevant research progress, advantages, and limitations were summarized. Results The inferior pole of the patella is an important part of the knee extension device, which can strengthen the force arm of the quadriceps. Inferior patellar pole fractures are relatively rare and often comminuted, usually requiring surgical treatment. At present, there are various methods to treat inferior patellar pole fractures, including patellectomy of inferior pole, tension-band wiring technique, plate internal fixation, suture anchor fixation, claw-like shape memory alloy, separate vertical wiring technique. Different methods have their own characteristics, advantages, and disadvantages. The single internal fixation method has more complications and is easy to cause fixation failure. Therefore, the trend of combining various internal fixation methods is developing at present. Conclusion When the main fragment of the inferior patellar pole fracture is large and mainly distributed transversely, the combination protocol based on tension-band wiring technique can be regarded as an ideal choice. When the fragments are severely damaged and small, the comprehensive protocol based on suture fixation can result in a better postoperative functional recovery.
Objective To introduce the clinical experience of localdistally based turnover adipofascial flap for small to medium size wound of the extremities. Methods From 1994 to 2003, 33 cases of distally based longitudinal neuro-veno-adipofascial turnover adipofascial flap (axial perforator pattern in26, random pattern in 7) were transferred in the forearm (19) and lower leg (14).These flaps were all raised in the forearm or lower leg as local flaps. The length (pedicle plus flap) was 9 to 18 cm and the width was 3 to 4 cm, with L/W ratio of 3 to 5∶1. After transferring by 180° turnover, a splitthickness skin graft was used tocover the fascia surface. Results All the 33 flaps survived. The donor sites were closed directly, and the recipient sites were covered with full-or splitthickness skin grafts. Both donor and recipient sites healed primarily. Conclusion Turnover adipofascial flap is a simple and reliable method for small to medium size wound of the extremities.
Objective To investigate the influence of nerve growth factor (NGF) on neuroal regeneration of somatovisceral heterogenic reinnervation using a rat phrenic-to-vagus anastomosis model. Methods Forty male SD rats, aging 3 months and weighing 200 g, were selected and randomly divided into 3 groups. In group A (n=10, control group), phrenic and vagusnerves were exposed and no neurorraphy was performed. In group B (n=15) and group C (n=15), both nerves were transected and proximal stump of phrenic nevers were microsurgically anastomosed to the distal stump of vagus nerves. Postoperatively, group C was intraperitoneally injected with NGF (20 μg/kg·d), while groups A and B were given matching sal ine solution. Twelve weeks later, cardiac function was examined under electrical stimulation of the regenerated nerve. Light and electron microscopies were used to examine the heterogenic regenerated nerve, and the passing rate of axon and thickness of myel in sheath were calculated. Results Under electrical never stimulation in groups A, B, and C, the decreases of blood pressure were (20.12 ± 2.57), (10.63 ± 2.44), and (14.18 ± 2.93) mmHg (1 mmHg=0.133 kPa), respectively; and the decreases of heart rate were (66.77 ± 9.96), (33.44 ± 11.82), and (43.27 ± 11.02)/minutes, respectively. In group B, the decrease ampl itudes of blood pressure and heart rate were 52.83% and50.08% of group A, respectively. Blood pressure and heart rate in group C also decreased dramatically; the decrease ampl itudes of blood pressure and heart rate in group C were 70.48% and 64.80% of group A. There were significant differences in the decrease ampl itudes of blood pressure and heart rate (P lt; 0.05) between group B and group C. Morphological observation showed that heterogenic nerve fibers had the structure of matured myel in sheath and their axons could regenerate into the vagus nerve. In group B and group C, the passing rates of axon were 66.83% ± 4.46% and 81.63% ± 3.56%, respectively; and the thicknesses of myel in sheath were (0.25 ± 0.10) μm and (0.46 ± 0.08) μm, respectively; showing significant differences (P lt; 0.05) between group B and group C. Conclusion Heterogenic nerve is primarily a somatic motor nerve; NGF can promote the axons of heterogenic nerve to regenerate into the parasympathetic nerve.
ObjectiveTo summarize the progress in the treatment of hyperextension tibial plateau fractures.MethodsRelated literature concerning hyperextension tibial plateau fractures was reviewed and analyzed in terms of injury mechanisms, clinical patterns, and treatment outcomes.ResultsHyperextension tibial plateau fractures is a specific type of hyperextension knee injuries, which is happened with the knee in over-extended position (<0°) and characterized by fracture and concomitant ligament injury. It can be classified into 4 patterns: marginal avulsion fractures, unicondylar anteromedial fractures, anterolateral fractures, and bicondylar fractures. The failure of structures occurs according to the diagonal injury mechanism characterized by anterior compression fractures and posterior tension ruptures. It is noted as a rule that a smaller anterior fragment is more likely to accompany by a posterior ligament rupture. Unicondylar anteromedial fracture pattern is caused by hyperextension varus mechanism and usually accompanied by posterolateral corner rupture. Bicondylar hyperextension injury is characterized by posterior metaphyseal cortical tension rupture, anterior articular depression, and reversed posterior slope.ConclusionCurrently there is no consensus on the treatment of hyperextension tibial plateau fractures. Further basic and clinical studies are needed.
Objective?To investigate the surgical methods and clinical results of repairing soft tissue defects in the thumb with distally-based dorsal thumb neurocutaneous vascular flap.?Methods?From January 2006 to October 2007, 23 patients with soft tissue defect in the thumb were treated, including 20 males and 3 females aged 19-46 years old (average 27.5 years old). The defect was caused by crush injury in 1 case, electric planer accident in 6 cases, incised injury in 8 cases, and avulsion injury in 8 cases. The defect was located on the palmar aspect of the thumb distal phalanx in 3 cases, the dorsal-radial aspect of the thumb distal phalanx in 3 cases, and ulnar or dorsal aspect in 17 cases. The defect size ranged from 3.3 cm × 1.2 cm to 4.2 cm × 1.2 cm. Among them, 18 cases were complicated with distal 1/2 nail bed defect or injury. The time between injury and hospital admission was 1- 72 hours (average 22 hours). During operation, the defect was repaired with distally-based dorsal-radial neurovenocutaneous vascular flap of the thumb in 3 cases and distally-based dorsal-ulnar neurovenocutaneous vascular flap of the thumb in 20 cases. The size of those flaps was 4.0 cm × 1.6 cm-5.0 cm × 3.0 cm. The donor site underwent direct suture or split thickness skin graft repair.?Results?At 10 days after operation, 3 cases suffered from the epidermal necrosis in the distal part of the flap, 2 of them experienced the exfoliation of dark scab 14 days later and the flap survived, and the flap of the rest one survived after dressing change. The other flaps and the skin graft at the donor site all survived uneventfully. The wounds healed by first intention. All the patients were followed up for 10-16 months (average 12.6 months). The flaps were soft in texture and full in appearance. The two-point discrimination value 6 months after operation was 8-10 mm. At 12 months after operation, the growth of the residual fingernail was evident in 18 cases, including 4 cases of curved or hook fingernail. Active flexion and extension of the thumb were normal. The abduction of the first web space reached or surpassed 80 percent of the normal side in 20 cases and was below 80 percent of the normal side in 3 cases. The clinical outcomes were satisfactory in 11 cases, approximately satisfactory in 8 cases, and unsatisfactory in 4 cases according to self-designed evaluation system.?Conclusion?The operative method of repairing the soft tissue defects in the thumb with the distally-based dorsal thumb neurocutaneous vascular flap is simple, stable in anatomy, in line with the principle of proximity, and suitable for repairing thumb tip defect 3 cm in size. It can bring a good postoperative appearance of the thumb and little influence on the hand function.
ObjectiveTo summarize the patterns and research progress of the concomitant ipsilateral fractures of intracapsular femoral neck and extracapsular trochanter, and to provide a common language among orthopedic surgeons for scientific exchange.MethodsAccording to related literature and authors own experiences concerning the anatomic border between femoral neck and trochanter region, the intertrochanteric line (or intertrochanteric belt) and its capsularligament attachment footprint, fracture patterns, and treatment strategies were reviewed and analyzed.ResultsWith the rapid growing of geriatric hip fractures, an increased incidence was noted in recent years regarding the proximal femoral comminuted fractures that involving ipsilateral intracapsular neck and extracapsular trochanter regions simultaneously. But the concept of femoral neck combined with trochanter fractures was ambiguous. Based on the anatomic type of femoral neck fracture, the location of fracture center, and the ability to achieve direct inferior calcar or anteromedial cortex-to-cortex apposition and buttress, we classified these complex fractures into 3 sub-types: ① Segmental femoral neck fractures (two separate fracture centers at subcapital and trochanteric region respectively); ② Femoral neck fracture (trans-cervical) with extension to the supero-lateral trochanteric region (fracture center in femoral neck); ③ Trochanteric fracture with extension to the medio-inferior femoral neck region (fracture center in trochanter, comminuted basicervical fracture, or variant type of comminuted trochanter fracture). For treatment strategy, surgeons should consider the unique characteristics of femoral neck and trochanter, usually with combined fixation techniques, or arthroplasty supplemented with fixation.ConclusionCurrently there is no consensus on diagnosis and terminology regarding the concomitant ipsilateral fractures of femoral neck and trochanter. Further studies are needed.