6 research outputs found
An instance of an atypical intraspinal cyst presenting as S1 radiculopathy: a case report and brief review of pathophysiology.
Intraspinal cysts are rare, but typically they originate from a degenerate zygapophyseal joint. These cysts have been commonly referred to as juxtafacet cysts and occur concomitantly with lumbar and occasionally lower-limb radicular pain. Documented cases have shown pseudoarthroses developing from nonhealing pars defects. Histologic analyses have found synovial tissue within these fibrocartilaginous accumulations. We present a case of S1 radiculopathy indicated by an intraspinal pseudocyst arising as a complication of a chronic spondylolytic defect. A brief review of the related pathophysiology is also included
An Examination of Anatomic Variants and Incidental Peroneal Tendon Pathologic Features: A Comprehensive MRI Review of Asymptomatic Lateral Ankles.
Intraoperatively, foot and ankle surgeons will encounter peroneal pathologic features in patients with asymptomatic lateral ankles. The purpose of the present study was to review the ankle magnetic resonance imaging (MRI) scans of patients without a history of ankle trauma or lateral ankle pain to determine which anatomic variants correlate with peroneal tendon pathologic features and noted pathophysiology. A total of 500 MRI scans were screened, 108 (41.90 ± 20.42) of which met the inclusion criteria. The peroneus brevis tendon was intact in 104 MRI scans (96.30%), and the peroneus longus tendon was intact in 108 (100.00%). The results of the present study have confirmed statistically significant correlations between the presence of an os perineum and tendinopathy of the peroneus longus [rs(106) = 0.27], undulating peroneal grooves and the severity of peroneal brevis tears [rs(106) = 0.32], a boomerang-shaped peroneus brevis tendon and increasing tendinopathy of the peroneal tendons [brevis (rs(106) = 0.37; longus rs(106) = 0.33], and low-lying muscle bellies and chronic injuries of the superior peroneal retinaculum (rϕ = 0.19). However, the present study did not find evidence to support the presumed correlations between peroneal tendon pathologic findings and hypertrophied peroneal tubercles, low-lying muscle bellies, or the peroneus quartus muscle. Adding to the published data, the present study found a statistically significant correlation between undulating peroneal grooves and an increasing prevalence of osteophytes within the peroneal groove [rs(106) = 0.32]. MRI findings of anatomic variants or peroneal pathologic features might be useful for injury prevention; however, we advise caution from using the findings alone to advocate surgical intervention. To definitively assess causation, prospective, long-term cohort studies are warranted
Examining the Relation of Osteochondral Lesions of the Talus to Ligamentous and Lateral Ankle Tendinous Pathologic Features: A Comprehensive MRI Review in an Asymptomatic Lateral Ankle Population.
Given the frequency and burden of ankle sprains, the pathologic features identified on magnetic resonance imaging (MRI) scans are widely known in the symptomatic population. Ankle MRI pathologic features in the asymptomatic population, however, are poorly understood. Such examinations are rarely undertaken unless an ankle has been injured or is painful. We report the systematic MRI findings from the reports of 108 consecutive asymptomatic lateral ankles (104 patients). Our purpose was to (1) report the prevalence of osteochondral lesions of the talus (OLTs) and pathologic features of the medial and lateral ligaments, peroneal tendons, and superior peroneal retinaculum (SPR); (2) correlate the presence of OLTs with the pathologic features of the medial and lateral ligaments, peroneal tendons, and SPR; and (3) correlate ligamentous discontinuity with the peroneal pathologic features, OLTs, and SPR pathologic features. A total of 16 OLTs (14.81%) were present (13 medial and 3 lateral). Of the 16 patients with OLTs, 8 (50.00%) had concomitant peroneal pathologic findings. Healthy medial and lateral ligaments were noted in 41 patients (37.96%), and ligamentous discontinuity was grade I in 25 (23.15%), II in 32 (29.63%), III in 5 (4.63%), and grade IV in 5 patients (4.63%). A weak positive correlation was found between attenuation or tears of the superficial deltoid and medial OLTs (phi coefficient = 0.23, p = .0191) and a moderate positive correlation between tears of the posterior talofibular ligament and lateral OLTs (phi coefficient = 0.30, p = .0017). Additionally, a moderate positive correlation between ligamentous discontinuity and tendinopathy of the peroneus brevis was noted [Spearman\u27s coefficient(106) = 0.29, p = .0024]. These findings add to the evidence of concomitant pathologic features in the asymptomatic population. To definitively assess causation and evaluate the clinical evolution of radiologic findings, future, prospective, longitudinal cohort studies are necessary
Comparing Tendinous and Ligamentous Ankle Pathology in Atraumatic Overweight and Nonoverweight Patients: A Comprehensive MRI Review.
UNLABELLED: With the increased prevalence of obesity, there has been a parallel rise in musculoskeletal disorders. However, the effect of body mass index (BMI) on pathology of the hindfoot and ankle is scarcely understood. The purpose of the present report was to compare the number of tendinous and ligamentous pathologies within the hindfoot and ankle between overweight (BMI ≥ 25.00 kg/m(2)) and nonoverweight (BMI \u3c 25.00 kg/m(2)) atraumatic patients. We hypothesized that overweight patients would demonstrate more tendinous and ligamentous pathologies compared with their nonoverweight counterparts. Five hundred consecutive magnetic resonance images were reviewed. One hundred eight patients met the inclusion and exclusion criteria. Sixty-six patients were overweight and 42 patients were nonoverweight. Ninety-eight percent of overweight patients demonstrated pathology of a tendinous or ligamentous nature, whereas 62% of nonoverweight patients demonstrated pathology of a tendinous or ligamentous nature. Thus, the prevalence of pathology was 1.59 times higher among overweight patients compared with nonoverweight patients. Moreover, controlling for age, overweight patients demonstrated approximately twice as many tendinous and ligamentous pathologies compared with nonoverweight patients (adjusted mean ± SD = 4.44 ± 2.14 vs 1.98 ± 2.07, respectively), which was statistically significantly different (P \u3c .001). To definitively assess causation and the clinical evolution of hindfoot and ankle pathology, prospective, longitudinal cohort studies are warranted.
LEVEL OF EVIDENCE: Diagnostic, Level III: Case series
Examining the Relationship Between Pathologies of the Peroneal, Achilles, and Posterior Tibial Tendons: An MRI Review in an Asymptomatic Lateral Ankle Population.
The hindfoot and ankle are dynamic structures to which the interplay of tendinous pathologies is scarcely understood. Five hundred consecutive ankle magnetic resonance imaging examinations, obtained between December 27, 2011 and April 9, 2013, were reviewed. Patients without a history of hindfoot or ankle trauma or lateral ankle pain were included. The 108 MRIs that met the inclusion and exclusion criteria were then re-evaluated by 2 musculoskeletal radiologists. Of these, 55.56% demonstrated pathology of the Achilles tendon (AT), 44.44% demonstrated pathology of the posterior tibial tendon (PTT), 35.19% demonstrated pathology of the peroneus brevis (PB), and 37.96% demonstrated pathology of the peroneus longus (PL). In our asymptomatic patient population, 16 (14.81%) patients demonstrated concomitant pathology of the AT, PTT, and peroneal tendons. There were positive, moderate correlations between graded pathology of the AT and the PTT, rs(106) = 0.32, P = .001; the AT and PB, rs(106) = 0.38, P = 0.001; and the AT and PL, rs(106) = 0.46, P = .001. However, there were no statistically significant correlations between pathology of the PTT and PB, rs(106) = 0.17, P = .08, or the PTT and PL, rs(106) = 0.14, P = .15. These findings suggest an intimate relationship between the AT, PTT, and the peroneal tendons. These individual anatomic structures may have underappreciated functional relationships that could lead to future investigations.
LEVEL OF CLINICAL EVIDENCE: Level IV