Quadrilateral plate classification program of acetabular fractures based on three-column classification: a three-dimensional fracture mapping study.

BACKGROUND: A new classification system for acetabular fractures has been proposed in recent years, which is called the 3-column classification. However, this system does not provide information regarding quadrilateral plate fractures. To address this issue, we utilized three-dimensional (3D) fracture line mapping and heat map to analyze the link between the 3-column classification and quadrilateral plate fractures. METHODS: We collected CT scan data from 177 patients who had been diagnosed with acetabular fractures. Additionally, we utilized a CT scan of a healthy adult to generate a standard acetabular model. We utilized the collected CT data of the fracture to create a 3D model and subsequently reduced it. We then matched each acetabular fracture model with the standard acetabular model and mapped all of the fracture lines to the standard model. 3D fracture lines and heat maps were created by overlapping all fracture lines. Fracture characteristics were then summarized using these maps. RESULTS: This study analyzed a total of 221 acetabular fractures. The most frequently observed fracture type, based on the three-column classification, was A1.2, which corresponds to fractures of the anterior column. In contrast, the least common type of fracture was A4, which represents fractures of the central wall. It was noted that quadrilateral plate fractures were frequently observed in fractures classified as type B and C according to the three-column classification. CONCLUSIONS: Among the three-column classification, the QLP fractures are commonly observed in type B and C. It is important to carefully identify these fractures during the diagnostic process. Therefore, based on the three-column classification, we have amalgamated quadrilateral plate fractures and formulated a classification program for acetabular fractures.

Chronic lateral ankle instability using anterior tibiofibular ligament distal fascicle transfer augmentation repair: an anatomical, biomechanical, and histological study.

Background: The transfer of the anterior tibiofibular ligament distal fascicle (ATiFL-DF) for the augmentation repair of the anterior talofibular ligament (ATFL) shows potential as a surgical technique. However, evidences on the benefits and disadvantages of this method in relation to ankle joint function are lacking. Purpose: This study aimed to provide comprehensive experimental data to validate the feasibility of ATiFL-DF transfer augmentation repair of the ATFL. Methods: This study included 50 embalmed ankle specimens to measure various morphological features, such as length, width, thickness, and angle, for evaluating similarities between the ATiFL-DF and ATFL. Furthermore, 24 fresh-frozen ankle specimens were examined for biomechanical testing of the ATiFL-DF transfer augmented repair of the ATFL. Finally, 12 pairs of ATiFL-DF and ATFL tissues from fresh-frozen ankle specimens were treated with gold chloride staining to analyze mechanoreceptor densities. Results: Anatomical studies found that the lengths and thicknesses of the ATFL and ATiFL-DF are similar. Biomechanical outcomes showed that performing ATiFL-DF transfer for ATFL repair can improve the stability of the talus and ankle joints. This is evident from the results of the anterior drawer, axial load, and ultimate failure load tests. However, performing ATiFL-DF transfer may compromise the stability of the distal tibiofibular joint, based on the Cotton and axial load tests at an external rotation of 5°. Analysis of the histological findings revealed that mechanoreceptor densities for four types of mechanoreceptors were comparable between the ATiFL-DF and ATFL groups. Conclusion: ATiFL-DF transfer is a viable method for augmenting ATFL repair. This technique helps to improve the stability of the talus and ankle joints while compensating for proprioception loss. Although ATiFL-DF transfer augmented repair of the ATFL may negatively affect the stability of the distal tibiofibular joint, this procedure can enhance the stability of the talus and ankle joints.

[Free superficial circumflex iliac artery flap combined with deep inferior epigastric perforator flap for repair of large soft tissue defects of upper extremities].

Objective: To investigate the effectiveness of free superficial circumflex iliac artery flap (SCIP) combined with deep inferior epigastric perforator flap (DIEP) in repairing large soft tissue defects of upper extremities. Methods: Between February 2017 and January 2021, free SCIP combined with DIEP was used to repair 15 patients with large soft tissue defects of upper extremities. There were 12 males and 3 females, aged from 34 to 52 years, with a median age of 41 years. The causes of injury were mechanical injury in 11 cases and traffic accident injury in 4 cases. There were 9 cases of circular skin defect in the forearm and 6 cases of skin defect around the upper arm and elbow joint, with the defect in size of 15.5 cm×10.5 cm to 26.5 cm×15.5 cm, accompanied by exposure of deep tissues such as tendons and bones. There were 7 cases with open fractures and 8 cases with vascular and nerve injuries. The time from injury to operation ranged from 7 to 14 days, with an average of 7.5 days. The flaps in size of 16.0 cm×11.0 cm to 27.0 cm×16.0 cm were harvested; the thickness of the flaps was 0.8-1.3 cm, and the excess fat tissue was removed under the microscope after harvesting. The length of proximal vascular pedicle was 5.0-7.0 cm, and of distal vascular pedicle was 3.0-5.0 cm. The donor site was closed and sutured directly, and the navel was reconstructed. Results: The flaps survived successfully in 14 cases, and the arterial crisis occurred in 1 case at 10 hours after operation, and the flap survived after surgical exploration. All the wounds in the donor and recipient sites healed by first intention. All 15 patients were followed up 3-14 months, with an average of 10.5 months. The appearance, elasticity, and texture of flap were good without obvious bloat, contracture, or adhesion. The donor site healed well, no abdominal wall hernia was found, and the appearance of reconstructed navel was good, only linear scar left. At last follow-up, 12 cases were evaluated as excellent and 3 cases were good according to the evaluation criteria of flap function of the Chinese Medical Association Microsurgery Branch. The sensation recovered to S3+ in 7 cases and S3 in 8 cases. Conclusion: Free SCIP combined with DIEP has a large excision area and excellent skin ductility. It is an effective clinical method for repairing large soft tissue defects of upper extremities.