This study describes five bilateral anatomical variations in the feet of a 97-year-old male cadaver. Following routine dissection, all variants were measured and documented. Three accessory tendons and two accessory ossicles were identified. Bilateral accessory tendons were present from the tibialis anterior (type II), peroneus tertius (type III), and peroneus brevis muscles. Accessory tendon length was 36–104 mm and width was 1–3 mm each inserting more distally then the main tendon. Accessory ossicles were identified as an accessory navicular and os peroneum, respectively. Individually, each variation has varying prevalence rates in the literature, but to date, no known studies have been published describing the combined presence of all five bilateral variations. The acknowledgement of multi-variant cases such as this one may be helpful in the clinical setting, particularly for patients with pathology or for those undergoing foot and ankle surgery.
Objectives Ligamentous Lisfranc injuries are frequently overlooked because of subtle clinical presentations and diagnostic difficulties. The dorsal Lisfranc ligament (DLL) is easily visualized with ultrasound (US), which can provide quick, cost‐effective diagnoses of disorders but is not considered standard clinical practice. This study sought to compare DLL measurement accuracy between US and cadaveric dissection. Methods Ultrasound images of 22 embalmed cadaveric feet were obtained with an M‐Turbo US machine and a 6–13‐MHz linear array (FUJIFILM SonoSite, Inc, Bothell, WA). Images were measured in the US unit and again with ImageJ software (National Institutes of Health, Bethesda, MD). Specimens were dissected, and DLL morphologic characteristics were recorded. Results Twenty‐two specimens were scanned, however 4 were excluded, leaving a sample of 11 male and 7 female cadaveric specimens (mean age ± SD, 80.3 ± 14.03 years). The DLL length differences between SonoSite (8.39 ± 1.27 mm) and ImageJ (8.25 ± 1.84 mm) were not significant (P > .05). Both US DLL measurements significantly differed from the gross dissection measurement (10.8 ± 1.85 mm; P < .001). The morphologic characteristics of the DLL at dissection were consistent. Overall, 70% to 80% of the ligament length was represented by US compared to dissection. The dorsal joint space did not differ significantly between SonoSite (2.19 ± 0.49 mm) and ImageJ (2.05 ± 0.52; P > .05). Both US measurements were also significantly larger than dissection measurements (1.04 ± 0.24; P < .001). Intraclass correlation coefficients indicated good reliability for the DLL length (0.835) and moderate reliability for the dorsal joint space (0.714). Conclusions The DLL is underrepresented but easily distinguished by US, demonstrating its utility in Lisfranc injury diagnosis. Thus, we propose a 4‐component assessment involving US, which may provide more rapid, cost‐effective diagnoses of subtle Lisfranc injuries.
Background: Patellar tendinopathy is a common chronic condition caused by mechanical loading that leads to patellar tendon (PT) degeneration, with an estimated incidence of 13% across all sports in adolescents. Musculoskeletal ultrasound (MSK-US) evaluation is becoming more common in the diagnostic process, but normative data are extremely rare for the adolescent population. These normative data are needed to aid in proper interpretation of the MSK-US image. Purpose: The purpose of this study was to determine standard reference values for thickness, width, and cross-sectional area (CSA) of the PT using MSK-US in asymptomatic adolescent athletes. Methods: IRB approval, parental consent, and athlete assent were obtained prior to data collection. Bilateral PT were scanned using a portable US unit with a 12-4MHz linear array transducer. Long axis images were captured at the apex and 1cm distal to the patella, 1 cm proximal to the insertion and at the PT insertion (Figure 1a & 1b). Short axis images were captured 1 cm proximal and distal to the attachments. PT thickness, width, and CSA were measured using ImageJ by a single evaluator. Additional exploratory analyses were also conducted. Results: Seventy-one adolescent athletes (27 males, 44 females) between 11-18 years old (13.8 ±1.8 years) volunteered. Mean values for PT thickness, width, and CSA are found in Table 1. Significant differences in PT thickness and CSA between sex were identified at each measurement location (P<.05), with males ranging 4.0-9.9 mm thicker than females. PT width was not significantly different proximally or distally. The left proximal PT was significantly wider than right (P<.0001), but no other side differences were found. Lastly, significant weak positive correlations were present in distal tendon CSA with height (left PT: r(52)=.348, P=.014, right PT: r(49)=.369, P=.007) and weight (left PT: r(50 )=.290, P=.041). There was no correlation with age. Conclusion: These data represent one of the largest healthy cohorts of adolescent athletes from which normative data have been collected. This preliminary analysis reveals some interesting trends, such as the thickness of the PT is greatest at the insertion and origin, while thinner at mid-tendon, with the insertion the thicker of the two. Age was not correlated with PT size, but distal PT CSA was larger with taller and heavier individuals. These data will contribute to the paucity of adolescent PT MSK-US data, which should aid clinicians in interpretation, diagnostic accuracy, and management of active adolescent patients with patellar tendinopathy. [Figure: see text][Table: see text]
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