Does the articularis cubiti muscle really exist? Anatomical, histological, and magnetic resonance imaging study with a narrative review of literature

Beneš, Michal; Novotný, Tomáš; Kachlík, David; Uhlı́k, Jir̆ı́; Kunc, Vojtěch

doi:10.1111/joa.13943

Journal of Anatomy

2023

DOI: 10.1111/joa.13943

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Does the articularis cubiti muscle really exist? Anatomical, histological, and magnetic resonance imaging study with a narrative review of literature

Michal Beneš

Tomáš Novotný

David Kachlík

et al.

Abstract: Although the term articularis cubiti muscle is incorporated in the official anatomical nomenclature, only sparse data about its appearance are available. It is usually described as few fibres originating from the medial head of the triceps brachii muscle and inserting to the capsule of the elbow joint. However, the most recent observations regarding the morphological relations in the posterior elbow region point towards the absence of a well‐defined muscle. Therefore, this study was designed to verify the exis… Show more

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2024

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Cited by 1 publication

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Evaluation of the Gliding of Posterior Elbow Fat Pad Using Ultrasonography and Particle Image Velocimetry

Kato,

Fukuda,

Kubo

et al. 2024

Journal of Medical Ultrasound

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Background: Previous studies have utilized ultrasonography (US) to dynamically evaluate Kager’s and infrapatellar fat pads. However, limited research has focused on the dynamic assessment of the posterior fat pad of the elbow joint, and its correlation with elbow pain remains unclear. Therefore, this study aimed to investigate the gliding of the posterior elbow fat pad in healthy patients using US. Methods: US was performed on 40 healthy patients. The patients were placed in a sitting position with the upper limb on the bed; they performed an automatic movement from 90° flexion to full extension of the elbow joint for 2 s following a fixed rhythm using a digital timer. Moving images of the fat pad gliding were analyzed for the direction of movement and gliding velocity using particle image velocimetry. Statistical analyses were performed using Friedman test. Results: The posterior fat pad glided into the olecranon fossa within the range of 0%–50% elbow extension. At 50% extension, the posterior fat pad showed a proximal posterior direction of movement. A significant increase in sliding velocity was observed from 0% to 50% extension (P < 0.001). No significant differences were observed between 50% and 75% extensions. Conclusion: Our results indicate that the velocity and direction of gliding of the fat pad behind the elbow joint in healthy patients vary with changes in the elbow joint extension angle. US proves to be a valuable tool for evaluating the posterior elbow fat pad.

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Evaluation of the Gliding of Posterior Elbow Fat Pad Using Ultrasonography and Particle Image Velocimetry

Kato,

Fukuda,

Kubo

et al. 2024

Journal of Medical Ultrasound

View full text Add to dashboard Cite

show abstract

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Does the articularis cubiti muscle really exist? Anatomical, histological, and magnetic resonance imaging study with a narrative review of literature

Cited by 1 publication

References 35 publications

Evaluation of the Gliding of Posterior Elbow Fat Pad Using Ultrasonography and Particle Image Velocimetry

Evaluation of the Gliding of Posterior Elbow Fat Pad Using Ultrasonography and Particle Image Velocimetry

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