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Surgical and Radiologic Anatomy
Published in: Surgical and Radiologic Anatomy 1/2021

01-01-2021 | Anatomic Bases of Medical, Radiological and Surgical Techniques

Pseudo-tear appearance of the Achilles tendon on MR imaging in normal volunteers

Authors: Eimantas Abelkis, Inneke Willekens, Cedric Boulet, Nico Buls, Steven Provyn, Aron De Smet, Michel De Maeseneer

Published in: Surgical and Radiologic Anatomy | Issue 1/2021

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Abstract

Purpose

The aim of this study was to confirm our clinical observation that a pseudo-tear appearance of the Achilles tendon is commonly seen on MRI and is of no clinical relevance.

Materials and methods

Forty-one ankles were imaged on a 3 T MR system, and PD weighted images with fat saturation were obtained in three orthogonal planes (TR, 2969 ms; TE, 30 ms; NA, 2; slice thickness, 2.5 mm). Volunteer exclusion criteria were symptoms of Achilles tendon pathology (such as acute or chronic posterior heel pain), history of trauma or surgery of the Achilles tendon. Internal signal of the Achilles tendon on axial and sagittal images was assessed independently by two observers. Internal signal of the Achilles tendon was classified from homogenously dark to different degree of hyperintense signal, where 0 means no internal hyperintensity, 1—minimal hyperintensity, 2—moderate and 3—marked. Descriptive statistics were calculated. Correlation between the two readers was also assessed.
Two fresh cadavers were used in this study, one specimen being sliced in the sagittal plane and one specimen being dissected by an experienced anatomist.

Results

Twenty one volunteers (8 men, 13 women), mean age of 24.7 years (19–43 years) were included in the study. On sagittal images both raters appreciated any degree of hyperintense signal in 59% of tendons. On axial images any degree of hyperintensity was seen in almost half of the cases (46 vs. 49%). Minimal hyperintensities were seen most commonly. Cohen’s kappa coefficient for sagittal images was 0.964 (almost perfect agreement); for axial images 0.764 (substantial agreement).
The anatomical studies demonstrated that the Achilles tendon is made up of different components that are partially separated and twist around each other explaining the pseudo-tear appearance.

Conclusion

The Achilles tendon is frequently not homogenously dark in normal volunteers as would be expected. Hyperintense signal is common in the long and short axis and related to the underlying anatomical features.
Literature
1.
Erickson J, Prost RW, Timins ME (1993) “Magic angle” effect: background physics and clinical relevance. Radiology 188:23–25CrossRef
2.
Filho GH, Du J, Pak BC et al (2009) Quantitative characterization of the Achilles tendon in cadaveric specimens: T1 and T2* measurements using ultrashort-TE MRI at 3 T. AJR Am J Roentgenol 192:117Yd124CrossRef
3.
Han M, Larson P, Liu J, Krug R (2014) Depiction of Achilles tendon microstructure in vivo using high-resolution 3-dimensional ultrashort echo-time magnetic resonance imaging at 7 T. Invest Radiol 49(5):339–345CrossRef
4.
Mantel D, Flautre B, Bastian D, Delforge PM, Delvalle A, Leclet H (1996) Structural MRI study of the Achilles tendon: correlation with microanatomy and histology [in French]. J Radiol 77:261–265PubMed
5.
Robson MD, Benjamin M, Gishen P et al (2004) Magnetic resonance imaging of the Achilles tendon using ultrashort TE (UTE) pulse sequences. Clin Radiol 59:727Y735
6.
Rollandi G, Bertolotto M, Perrone R et al (1995) MRI of normal Achilles tendon. Eur Radiol 5:596Y598CrossRef
7.
Schweitzer M, Karasick D (2000) MR imaging of disorders of the Achilles tendon. Am J Roentgenol 175(3):613–625CrossRef
8.
Soila K, Karjalainen PT, Aronen HJ et al (1999) High-resolution MR imaging of the asymptomatic Achilles tendon: new observations. AJR Am J Roentgenol 173:323Y328CrossRef
9.
Szaro P, Witkowski G, Śmigielski R, Krajewski P, Ciszek B (2009) Fascicles of the adult human Achilles tendon: an anatomical study. Ann Anat Anat Anz 191(6):586–593CrossRef
10.
Metadata
Title
Pseudo-tear appearance of the Achilles tendon on MR imaging in normal volunteers
Authors
Eimantas Abelkis
Inneke Willekens
Cedric Boulet
Nico Buls
Steven Provyn
Aron De Smet
Michel De Maeseneer
Publication date
01-01-2021
Publisher
Springer Paris
Published in
Surgical and Radiologic Anatomy / Issue 1/2021
Print ISSN: 0930-1038
Electronic ISSN: 1279-8517
DOI
https://doi.org/10.1007/s00276-020-02542-3

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