ObjectiveTo summarize the prevention and treatment of iatrogenic medial collateral ligament (MCL) injuries in total knee arthroplasty (TKA).MethodsThe relevant literature about iatrogenic MCL injuries in TKA was summarized, and the symptoms, causes, preventions, and treatments were analyzed.ResultsPreventions on the iatrogenic MCL injuries in TKA is significantly promoted. With the occurrence of MCL injuries, the femoral avulsion can be fixed with the screw and washer or the suture anchors; the tibial avulsion can be treated with the suture anchors fixation, bone staples fixation, or conservative treatment; the mid-substance laceration can be repaired directly; the autologous quadriceps tendon, semitendinosus tendon, or artificial ligament can be used for the patients with poor tissue conditions or obvious residual gap between the ligament ends; the use of implant with greater constraint can be the last alternative method.ConclusionNo consensus has been reached to the management of iatrogenic MCL injuries in TKA. Different solutions and strategies can be integrated and adopted flexibly by surgeons according to the specific situation.
Objective To investigate whether the outlet of the femoral tunnel will cause iatrogenic injury to the medial collateral ligament (MCL) during posterior cruciate ligament reconstruction (PCLR) and estimate the safe angle of femoral tunnel placement. MethodsThirteen formaldehyde-soaked human knee joint specimens were used, 8 from men and 5 from women; the donors’ age ranged from 49 to 71 years, with an average of 61 years. First, the medial part of the femur was carefully dissected to clearly expose the region of the MCL course and attachment on the femoral medial aspect and to outline the anterior margin of the region with a marked line. The marked line divided the medial femoral condyle into an area with an MCL course and a bare bone area which is regarded relatively safe for no MCL course. Then, the posterior cruciate ligament (PCL) was cut to identify the femoral attachment of the PCL. After the knee joint was fixed at a 120° flexion angle, the process of femoral tunnel preparation for the PCL single-bundle reconstruction was simulated. The inside-out technique was used to drill the femoral tunnel from the PCL femoral footprint inside the knee joint with an orientation to exit the medial condyle of the femur, and the combination angle of the two planes, the axial plane and the coronal plane, was adapted to the process of drilling femoral tunnels at different orientations. The following 15 angle combinations were used in the study: 0°/30°, 0°/45°, 0°/60°, 15°/30°, 15°/45°, 15°/60°, 30°/30°, 30°/45°, 30°/60°, 45°/30°, 45°/45°, 45°/60°, 60°/30°, 60°/45°, 60°/60° (axial/coronal). The positional relationship between the femoral tunnel outlet on the femoral medial condyle and the marked line was used to verify whether the tunnel drilling angle was a risk factor for MCL injury or not, and whether the shortest distance between the femoral exit center and the marked line was affected by the various angle combinations. Furthermore, the safe orientation of the femoral tunnel placement would estimated. ResultsWhen creating the femoral tunnel for PCLR, there was a risk of damage to the MCL caused by the tunnel outlet, and the incidence was from 0 to 100%; when the drilling angle of the axial plane was 0° and 15°, the incidence of MCL damage was from 69.23% to 100%. There was a significant difference in the incidence of MCL damage among femoral tunnels of 15 angle combinations (χ2=148.195, P<0.001). By comparison between groups, it was found that when drilling femoral tunnels at 5 combinations of 45°/45°, 45°/60°, 60°/30°, 60°/45°, and 60°/60° (axial/coronal), the shortest distances between the tunnel exit and the marked line were significantly different than 0°/45°, 0°/60°, 15°/45°, 15°/60°, and 30°/30° (axial/coronal) (P<0.05). Additionally, after comparing the median of the shortest distance with other groups, the outlets generated by these 5 angles were farther from the marked line and the posterior MCL. ConclusionThe creation of the femoral tunnel in PCLR can cause iatrogenic MCL injury, and the risk is affected by the tunnel angle. To reduce the risk of iatrogenic injury, angle combinations of 45°/45°, 45°/60°, 60°/30°, 60°/45°, and 60°/60° (axial/coronal) are recommended for preparing the femoral tunnel in PCLR.
目的总结胆囊切除术致医源性胆管损伤的原因、诊断、治疗及预防的经验。方法回顾性分析昆明市第一人民医院2006年5月至2011年5月期间经治的17例胆囊切除术致医源性胆管损伤患者的临床资料。结果损伤部位包括隆突2例,肝总管3例,胆囊管汇入胆总管部7例,胆总管4例,副肝管1例。1例一期术中端端吻合,2例一期吻合并留置T管支撑,1例行胆囊管结扎,2例内镜下留置鼻胆管引流,4例术后内镜下留置胆管支架,6例术后行胆肠Roux-en-Y吻合,1例行脱细胞基质材料修补。随访0.3~5年,平均2.3年,效果良好16例,1例反复发生胆管炎。结论医源性胆管损伤重在预防,精细解剖胆囊三角、严格遵循“确认-剪断-确认”三步骤是防止医源性胆管损伤的关键; 及时发现和正确的处理方法是降低其死亡率及改善预后的关键。
ObjectiveTo investigate the natural outcome of spontaneous closure of iatrogenic atrial septal defect (IASD) in patients with atrial fibrillation after transseptal catheterization and the influencing factors affecting its healing.MethodsA total of 122 patients who underwent percutaneous left atrial appendage occlusion in West China Hospital, Sichuan University from September 2014 to February 2018 were selected for observation and follow-up. General information of the patients was collected. Each patient underwent transthoracic echocardiography and transesophageal echocardiography before the surgery or 45 days, 3 months, 6 months and 1 year after the surgery, observing the atrioventricular size, cardiac function and atrial septal defect size. The natural outcome of IASD and influencing factors and prognosis of IASD were analyzed.ResultsThe healing rate increased gradually with the follow-up time; the median healing time was 180 days [95% confidence interval (169.5, 190.5) days]. The difference in the effect on IASD healing rate between the gender and atrial fibrillation type was not significant (P>0.05); being older than 70 years old was the influence factor for the IASD healing rate (P<0.05). There was no statistically difference in right heart size and systolic and diastolic function between the unhealed group (n=18) and the healed group (n=63) after a 1-year follow-up (P>0.05), but the left ventricular size was bigger in the unhealed group than that in the healed group (P<0.05). The follow-up time points had a significant effect on the size of the left atrium, and the left atrium in the healing group after 1 year follow-up was significantly smaller than before. There was no significant difference among the different follow-up time points and no interaction between grouping and follow-up time (P>0.05). ConclusionsWith the extension of follow-up time, the healing rate increases gradually. Larger left atrium and ventricular size and the age over 70 may be related to the healing of IASD.
ObjectiveTo explore the value of modified method for intratumoral injection of thrombin in the treatment of iatrogenic pseudoaneurysms.MethodsClinical data of 28 patients with iatrogenic pseudoaneurysms after interventional treatment in our hospital from October 2012 to June 2018 were retrospectively analyzed. Twenty-one cases were treated with ultrasound-guided thrombin injection for pseudoaneurysms (Ultrasound group), and seven cases were treated with DSA-mediated balloon occlusion and thrombin injection for pseudoaneurysms (DSA group). The patients were followed-up at 1 day, 1 month and 3 monthS after operation.ResultsThe total success rates of the two groups were 100%. There was no treatment-related complications in the two groups. There was no recurrence after 1–3 months of treatment.ConclusionsIntratumoral injection of thrombin can be used for the treatment of iatrogenic pseudoaneurysm. The effect of the improved treatment is more significant. These two methods can be used as the best way to treat iatrogenic pseudoaneurysm with different neck diameters.
目的:探讨医源性隐睾的病因,预防和治疗特点。方法:回顾分析我院治疗的16 例医源性隐睾患儿,其中睾丸鞘膜积液术后7 例,腹股沟斜疝术后8 例,尿道下裂术后1 例。结果:16 例均接受手术治疗,10 例睾丸存在不同程度的萎缩,其中1 例睾丸完全萎缩,行睾丸切除。术后随访12 例,睾丸均在阴囊内,但发育较健侧差。结论:降低医源性隐睾发病率的根本措施是防止其发生,尽量减少不正确的医疗行为,并做到早期发现,早期行手术治疗。