Pratt Corcoran (deathflare3)

fixation selection in VFNFs. For the treatment of VFNFs, satisfactory reduction still remains the key surgical goal that prevents NU, while the incidence of AVN strongly depends on the initial displacement at the time of injury. Crossed screws were associated with a markedly lower FNS rate than parallel screws, which promote further randomised controlled trials to establish a guideline for optimal fixation selection in VFNFs. To evaluate the Magnetic resonance imaging (MRI) findings of patients with a clinical diagnosis of tennis leg and to explore the pathogenesis of tennis leg. A retrospective review of 58 (45 men, 13 women; age range, 7-81 years; mean age, 46.7 years) patients with a clinical diagnosis of tennis leg at our hospital during a 64-month period (May 2014 through Sep 2019) was conducted. All patients underwent MRI scan. Follow-up MRI was performed on 4 patients. Images findings, including integrity of the myotendinous junction and tendon of the gastrocnemius and soleus, and presence of fluid collection were analyzed. MRI revealed fluid collection between the medial head of the gastrocnemius and soleus in 44 cases (72.1%). In 25 cases (41.0%), the collected fluid spread to around the medial border of fascia cruris. Fifty-five cases (90.2%) had edema or disruption of the gastrocnemius, with most cases (n=55) showing edema or disruption of the medial head of the gastrocnemius at the myotendinous junction. Twenty-two (36.1%) cases had edema or disruption of the soleus, with most cases (n=17) showing edema or disruption of the soleus at the myotendinous junction. Plantaris tendon disruption was observed in 7 cases (11.5%). A thick area of reparative tissue at the distal myotendinous junction of the medial head of the gastrocnemius was observed in all 4 MRI patients followed up. Abnormalities of the medial head of the gastrocnemius at the myotendinous junction and tendon appear to be more common than those of the plantaris tendon. Reparative tissue at the distal myotendinous junction of the medial head of the gastrocnemius may be an important specific indication of chronic tennis leg injury. Abnormalities of the medial head of the gastrocnemius at the myotendinous junction and tendon appear to be more common than those of the plantaris tendon. Reparative tissue at the distal myotendinous junction of the medial head of the gastrocnemius may be an important specific indication of chronic tennis leg injury. To investigate changes in the Garden index and other radiological parameters during reduction of femoral neck fractures. Ten healthy, human femoral specimens were obtained. A 2.0 mm diameter Kirschner wire was implanted in the centre of the femoral head. A perpendicular osteotomy was made in the middle of the femoral neck. The distal osteotomy surface was used as the angle of rotation (pronation and supination up to 90° at 10° intervals). Anterior-posterior and lateral view radiographs were taken at different angles. The Garden index and other relevant data were analysed using the picture archiving and communication system. Changes in the area of the femoral head fovea at different rotation angles were measured. There were no significant differences in the Garden index between 0-30° of pronation and supination (p>.05). For angles of 40-90°, there were statistically significant differences in the Garden index (p<.05). The area of femoral head fovea decreased with increasing pronation angle, and increased with increasing supination angle. The Garden index does not change significantly if the angle of fracture rotation is 0-30° (in either pronation or supination) during femoral neck fracture reduction. Therefore, it is impossible to judge the rotation of fracture in this range of angles. The Garden index can detect the rotation of fracture for rotation angles of 40-90° (in either pronation or supination). Changes in the a