Objective Traditional lateral soft tissue release (LSTR) was conducted by an additional dorsal first web incision, as the malformed thick scar and neuritis were common after surgery. A new method of lateral soft tissue release in a single medial incision via dorsal flap over the first metatarsal (LSTR‐SMI‐DFFM) should be recommended. The objective is to investigate the clinical effectiveness and safety of scarf + Akin osteotomy (SAO) combined with lateral soft tissue release in a single medial incision via dorsal flap over the first metatarsal (LSTR‐SMI‐DFFM) for moderate to severe hallux valgus. Methods Patients who were performed surgery for hallux valgus from April 2014 to June 2020 were retrospectively reviewed. The visual analog scale (VAS) was recorded before surgery and during follow‐up, as well as the forefoot score of the American Orthopaedic Foot and Ankle Society (AOFAS). Patient satisfaction was evaluated at the follow‐up time. The preoperative and follow‐up weightbearing X‐ray were conducted in all patients. The radiological parameters of hallux valgus angle (HVA), intermetatarsal angle (IMA), and distal metatarsal articular angle (DMAA) were measured. Tibial sesamoid position (TSP) was also recorded according to seven‐part grading system. The quantitative data were performed as mean ± standard deviation or median ± interquartile range. Student's t test was performed in HVA, IMA, and DMAA. The TSP, VAS, and AOFAS were statistical analyzed by Mann–Whitney U test. p value of <0.05 was considered significant. Results There were 123 feet conducted surgery in 96 patients. The AOFAS score improved a lot which was preoperative 39 to 100 at the follow‐up time and VAS was 4 to 0 (p < 0.001). A total of 63 (51.2%) patients were very satisfied, 47 (38.2%) were satisfied, five (4.1%) were undecided and eight (6.5%) were not satisfied. The HVA, IMA, DMAA, and TSP were all decreased after surgery and were statistically significant (p < 0.001). Conclusion The SAO combined with a LSTR‐SMI‐DFFM for moderate to severe hallux valgus is effective and safe with pretty good clinical and radiographic results, as well as minimal complications. The corrections of AOFAS and VAS conformed to the minimum clinically important difference (MCID).
Background Hip fracture is highly associated with disability and consequently, mortality in the elderly population. Postoperative acute kidney injury (AKI) is not unusual and is associated with considerable morbidity and mortality. We aimed to determine the incidences and potential risk factors for postoperative AKI in elderly patients with femoral neck fracture. Methods We retrospectively evaluated patients over 65 years of age who had been subjected to surgery for femoral neck fracture at Peking University People's Hospital from January 2015 to December 2019. Demographic characteristics and potential risk factors were collected. AKI was defined according to the Kidney Disease Improving Global Outcomes Guidelines (KDIGO). Results A total of 308 elderly patients with femoral neck fracture were included in the study. The overall incidence of postoperative AKI was 12% (37 cases). Through binary logistic regression analysis, adjusted for age, intraoperative blood loss and BMI, we identified that early postoperative albumin levels, hemoglobin changes and intraoperative hypotension are independent risk factors for postoperative AKI. The model considering the three factors can improve accuracy of predicting the possibility of developing AKI. The patients with AKI had a significantly higher mortality of 40.5% than those without AKI (24.0%, p < 0.001) Conclusion The incidence of postoperative AKI in elderly patients with femoral neck fracture was 12%. Independent risk factors for postoperative AKI included hemoglobin changes, early postoperative hypoalbuminemia and intraoperative hypotension. At the same time, postoperative AKI significantly increased mortality in elderly patients with femoral neck fracture. Taking multiple possible factors into consideration can better predict the possibility of elderly patients developing AKI after surgery.
Background Intra-articular impacted fragments (IAIFs) are considered articular surface fragments resulting from impact and compressive forces. The malreduction of IAIFs in posterior malleolar fractures has been associated with talar subluxation and long-term post-traumatic arthritis. In this study, we establish IAIF defect finite element models of different sizes in posterior malleolar fractures and explored how IAIF defects predict the onset of post-traumatic arthritis. Methods A reliable three-dimensional finite element model of the normal ankle was established. Finite element models with different sizes of IAIF defects were created to calculate ankle joint contact stress. The finite element data were recorded and analyzed. Results There was a linear relationship between the size of the IAIF defect and MCS with IAIF defects in the posterolateral region. The result of Pearson linear correlation analysis was r = 0.963, P = 0.009. The regression equation was MCS = 0.087*AI + 2.951 (AI, area of IAIF) by simple linear regression analysis. When the IAIF defect was in the posteromedial region, there was also a linear relationship between the size of the IAIF defect and MCS. The result of Pearson linear correlation analysis was r = 908, P = 0.033. The regression equation was MCS = 0.065*AI + 1.841. The MCS was increased mainly in the border of the IAIF defect. Conclusions A small IAIF defect in the posterior malleolus will result in a high MCS, and the MCS in the posterolateral region is larger than the MCS in the posteromedial region when the size of the IAIF defect is the same. We obtain the regression equation of MCS and area of IAIF defect. This indicates that patients are more prone to post-trauma arthritis when the size of IAIF defects is more than 17.8 mm2 in the posterolateral region and more than 40.9 mm2 in the posteromedial region. Trial registration Retrospectively registered.
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