Hallux valgus angle as main predictor for correction of hallux valgus

Contains fulltext : 70112.pdf ( ) (Open Access)BACKGROUND: It is recognized that different types of hallux valgus exist. Classification occurs with radiographic and clinical parameters. Severity of different parameters is used in algorithms to choose between different surgical procedures. Because there is no consensus about each parameter nor their cut-off point we conducted this study to analyze the influence of these variables on the postoperative hallux valgus angle. METHODS: After informed consent 115 patients (136 feet) were included. Bunionectomy, osteotomy, lateralization of the distal fragment, lateral release and medial capsulorrhaphy were performed in all patients. Data were collected on preoperative and postoperative HVA, IMA and DMAA measurements. Forty cases were included since our findings in a previous article 1, therefore, current data concern an expanded study group with longer follow-up and were not published before. At least two-year follow-up data were evaluated with logistic regression and independent t-tests. RESULTS: Preoperative HVA was significant for prediction of postoperative HVA in logistic regression. IMA and DMAA were not significant for prediction of postoperative HVA in logistic regression, although they were significantly increased in larger deformities. In patients with preoperative HVA of 37 degrees or more, satisfactory correction could be obtained in 65 percent. The other nine of these 26 patients developed subluxation. CONCLUSION: The preoperative HVA was the main radiological predictor for correction of hallux valgus, correction rate declined from preoperative HVA of 37. IMA and DMAA did have a minor role in patients with preoperative HVA lower than 37 degrees, however, likely contributed to preoperative HVA of 37 degrees or more

Drawing from memory: hand-eye coordination at multiple scales.

Eyes move to gather visual information for the purpose of guiding behavior. This guidance takes the form of perceptual-motor interactions on short timescales for behaviors like locomotion and hand-eye coordination. More complex behaviors require perceptual-motor interactions on longer timescales mediated by memory, such as navigation, or designing and building artifacts. In the present study, the task of sketching images of natural scenes from memory was used to examine and compare perceptual-motor interactions on shorter and longer timescales. Eye and pen trajectories were found to be coordinated in time on shorter timescales during drawing, and also on longer timescales spanning study and drawing periods. The latter type of coordination was found by developing a purely spatial analysis that yielded measures of similarity between images, eye trajectories, and pen trajectories. These results challenge the notion that coordination only unfolds on short timescales. Rather, the task of drawing from memory evokes perceptual-motor encodings of visual images that preserve coarse-grained spatial information over relatively long timescales as well

Opening wedge osteotomy of the first cuneiform for the treatment of hallux valgus

We performed an opening wedge osteotomy of the first cuneiform for the correction of all degrees of hallux valgus deformities. A wedge-shaped graft maintained the open wedge osteotomy and decreased the metatarsocuneiform joint inclination to correct the main angles of the hallux valgus. This procedure was performed for 101 feet of 63 patients (two men and 61 women). Fifteen feet benefited from a shortening of P1. The average age was 42 (16 to 84) years with a mean follow-up of 7.7 (1.5 to 14.8) years. We evaluated the M1-P1 and the M1-M2 angles, the joint congruency and the position of the lateral sesamoid. The clinical examination was graded by the AOFAS score which includes comprehensive assessment of pain, function and alignment and the subjective assessment of patients. The clinical AOFAS score improved from 35.24 points preoperatively to 86.36 postoperatively and from 33.25 to 88.03 points in severe deformity. The subjective rating was 44.44% excellent, 41.27% good, 9.52% fair and 4.76% poor. The M1-P1 angle improved from 29.38° to 16.28° and the M1-M2 angle from 14.36° to 10.34°. In the 42 severe feet deformity, these angles improved respectively from 45.58° to 19.58° and from 18.51° to 11.16°. This technique allowed an accurate correction of the main angles of hallux valgus with different degrees of deformity and avoided the complications related to different types of osteotomies achieved along the first metatarsal. After a long follow-up, we demonstrated a durable result while 86% of patients proved excellent and good results according to the AOFAS score