Abstract
Objectives
Triangular fibrocartilage complex (TFCC) injuries frequently cause ulnar-sided wrist pain and can induce distal radioulnar joint instability. With its complex three-dimensional structure, diagnosis of TFCC lesions remains a challenging task even in MR arthrograms. The aim of this study was to assess the added diagnostic value of radial reformatting of isotropic 3D MRI datasets compared to standard planes after direct arthrography of the wrist.
Methods
Ninety-three patients underwent wrist MRI after fluoroscopy-guided multi-compartment arthrography. Two radiologists collectively analyzed two datasets of each MR arthrogram for TFCC injuries, with one set containing standard reconstructions of a 3D thin-slice sequence in axial, coronal and sagittal orientation, while the other set comprised an additional radial plane view with the rotating center positioned at the ulnar styloid. Surgical reports (whenever available) or radiological reports combined with clinical follow-up served as a standard of reference. In addition, diagnostic confidence and assessability of the central disc and ulnar-sided insertions were subjectively evaluated.
Results
Injuries of the articular disc, styloid and foveal ulnar attachment were present in 20 (23.7%), 10 (10.8%) and 9 (9.7%) patients. Additional radial planes increased diagnostic accuracy for lesions of the styloid (0.83 vs. 0.90; p = 0.016) and foveal (0.86 vs. 0.94; p = 0.039) insertion, whereas no improvement was identified for alterations of the central cartilage disc. Readers’ confidence (p < 0.001) and assessability of the ulnar-sided insertions (p < 0.001) were superior with ancillary radial reformatting.
Conclusions
Access to the radial plane view of isotropic 3D sequences in MR arthrography improves diagnostic accuracy and confidence for ulnar-sided TFCC lesions.
Key Points
• In multi-compartment arthrography of the wrist, ancillary radial plane view aids assessability of the foveal and styloid ulnar-sided insertions of the triangular fibrocartilage complex.
• Assessment of peripheral TFCC injuries is more accurate with access to radial multiplanar reconstructions.
• Additional radial planes provide greater diagnostic confidence.
Similar content being viewed by others
Explore related subjects
Discover the latest articles, news and stories from top researchers in related subjects.Avoid common mistakes on your manuscript.
Introduction
With a two-layered, three-dimensional composition and multiple miniscule components contributing to its integrity, the triangular fibrocartilage complex (TFCC) is considered to be one of the most challenging regions from an imaging perspective. It consists of several conjoint parts with different vascularization patterns that influence the available treatment in case of discontinuity [1]. Originating from the sigmoid notch of the radius is the avascular articular disc, whereas the peripheral part is vascularized and consists of a deep and superficial lamina that inserts in the ulnar fovea and at the ulnar styloid process, respectively [2, 3]. The deep layer of the ulnar-sided TFCC is formed by the triangular ligament that arises from the convergence of the palmar and dorsal radioulnar ligaments. It functions as the main stabilizer of the distal radioulnar joint (DRUJ) during pronation and supination [4]. Contrastingly, the superficial layer is shaped like a hammock and assists the ulnocarpal ligaments in the transmission of axial forces between the distal forearm and proximal carpal row (Fig. 1). Fat tissue is usually discernible between the foveal and styloid lamina.
Pathologies of the TFCC commonly cause ulnar-sided wrist pain and can result from high-impact injuries, repetitive microtrauma, degeneration, systemic conditions (e.g. crystal deposition diseases) or combinations of the aforementioned [5, 6]. Besides clinical findings, hand surgeons rely heavily on imaging to indicate either conservative or operative treatment with MRI being the method of choice for three-dimensional wrist evaluation. To achieve the contrast-to-noise ratio necessary for a depiction of microstructural alterations of cartilage and ligaments, different MRI techniques can be applied: while plain T2-weighted sequences depend on effusion surrounding the rupture site and T1-weighted MRI after intravenous gadolinium application requires reactive hyperemia of the adjacent synovial tissue for lesion visualization, MR arthrography is capable of directly displaying TFCC discontinuity [7,8,9]. However, even in MR examinations after direct arthrography, radiologic standard planes frequently fail to depict the entirety of the TFCC due to its complex triangular shape and small component size. With the coronal plane being the most commonly used for TFCC assessment, peripheral lesions are especially difficult to visualize [10]. In a recent study, Götestrand et al [11] were able to show the general advantages of high-resolution 3D sequences over conventional 2D MRI for the visualization of the foveal TFCC attachment. Besides, isotropic 3D MRI can be used for multiplanar reformations with arbitrary orientation [12, 13]. Similar to angulated planes for the intrinsic carpal ligaments [14], radial reformatting has been suggested as a reasonable tool to assess TFCC lesions following CT arthrography in previous studies [15, 16].
Notwithstanding the establishment of thin-section 3D MRI and anatomically angulated reformatting for other body regions [17,18,19], radial multiplanar reconstructions (MPR) of isotropic 3D MRI sequences have not been evaluated for the ulnar side of the wrist. Therefore, this study aims to investigate the added diagnostic value provided by ancillary radial reformatting for TFCC assessment.
Methods
Study population
Informed consent was waived and permission for this retrospective study was obtained from the local ethics committee. MR arthrograms with acquisition of isotropic 3D sequences for suspected TFCC injury were available in 103 patients between August 2010 and October 2017. All patients received MR imaging immediately after undergoing fluoroscopy-guided multi-compartment arthrography of the wrist. Ten patients had to be excluded from the study for one of the following reasons: incomplete examination (n = 3), strong artefacts (n = 3), acquisition of 3D dataset differing from study standard (n = 4). As a result, the study group is comprised of 93 patients, including 44 women (47.3%), and had a mean age of 36.9 ± 13.8 years (range 17–73 years). In 49 cases (52.7%), the left wrist was scanned. Fifty-four patients reported a history of wrist trauma (58.1%). Summarizing exclusion and inclusion criteria, a flow chart depicts the patient population analyzed in this study (Fig. 2).
Direct arthrography of the wrist
Wrist arthrograms were conducted under fluoroscopic guidance (Fluorospot Compact, Siemens Healthcare GmbH) by board-certified radiologists. Gadolinium diluted with sodium chloride (Magnograf 0.5 mmol/mL, Marotrast GmbH) was used for articular injection. As per department protocol, all procedures were performed with the patient in a prone position and the afflicted wrist extended above the head. In absence of communicating defects, the three main compartments of the wrist were injected with a contrast agent to detect isolated or combined injuries of the TFCC and the intrinsic carpal ligaments. Contrasting the midcarpal joint (approx. 2.0 mL), DRUJ (approx. 0.8 mL) and radiocarpal joint (approx. 2.5 mL) in succession was demonstrated to improve visualization of non-communicating lesions and increase overall diagnostic accuracy [20,21,22].
MRI examinations
Immediately after multi-compartment arthrography of the wrist, patients were transferred to the MRI suite for further imaging. Studies were performed on a 3.0 T scanner (Magnetom Prisma or Magnetom Skyra, Siemens Healthcare GmbH) with the patient adopting the so-called superman position also used for fluoroscopic scans. MRI examinations were conducted using a multi-channel phased-array coil dedicated to wrist imaging. Coronal acquisition of isotropic T2-weighted 3D Double Echo Steady State sequence (DESS; voxel size of 0.6 × 0.6 × 0.6 mm3) with axial and sagittal reformatting was mandatory for study inclusion and available in all 93 patients. Additional 2D sequences were acquired in accordance with the department standard but were not evaluated in the observer analysis. Radial plane view was prepared retrospectively and adapted to the triangular shape of the TFCC with the ulnar styloid as the center of rotation (Fig. 3). Section thickness for radial MPR was 2.0 mm with an angle of 5° between images.
Image assessment
Two board-certified radiologists with seven years of musculoskeletal imaging experience collectively analyzed two datasets for each patient in randomized order using a commercially available picture archiving and communication system (Merlin, Phönix-PACS) installed on a conventional workstation with a certified diagnostic monitor. One set contained the coronally acquired 3D DESS sequence with axial and sagittal reconstructions, whereas radial reformatting was additionally available for assessment in the other dataset. Blinded to any patient information, observers were given three tasks for each read: first, to rate the assessability of the articular disc, the foveal and styloid attachment of the peripheral TFCC using a five-point scale (5 = excellent, 4 = good, 3 = moderate, 2 = fair, 1 = not diagnostic). Second, to evaluate the continuity of said parts in dichotomous fashion (0 = no lesion, 1 = lesion). Third, to state their overall diagnostic confidence (5 = total, 4 = high, 3 = moderate, 2 = slight, 1 = little to no confidence). Surgical reports were used as the reference standard whenever available (in 35 patients). Only in patients that did not undergo surgery, radiological reports by musculoskeletal imaging specialists (available in all 93 patients) in combination with clinical follow-up (in 60 patients) served as a standard of reference. Thereby, the latter describes the control examination that patients are usually advised to undergo 4–6 weeks after the initial assessment that included the MR arthrogram.
Statistics
Dedicated statistical software (SPSS Statistics Version 27.0 for Mac, IBM) was used to perform data analyses. Normally distributed data is presented as mean ± standard deviation (SD); otherwise, we report frequencies and percentages with median values. Normal distribution was assessed with Kolmogorov-Smirnov tests. Paired categorical variables were compared using Wilcoxon signed-rank tests, while McNemar tests were performed for comparison of classification functions (e.g. specificity, sensitivity). Statistical significance was assumed for p values ≤ 0.05.
Results
Subjective evaluation of the central articular disc provided excellent results in the far majority of patients irrespective of dataset (69.9% of standard examinations vs. 73.1% of examinations with radial plane view; p = 0.237). In contrast, assessability of the superficial (31.2% vs. 65.6%; p < 0.001) and deep (35.5% vs. 71.0%; p < 0.001) ulnar-sided layer of the TFCC was superior with addition of radial reformatting (Table 1).
In 93 MR arthrograms, 22 patients (23.7%) displayed lesions of the articular disc, while discontinuity of the styloid and foveal ulnar attachment was ascertained in 10 (10.8%) and 9 (9.7%) cases, respectively. With access to standard examination datasets, radiologists were able to correctly identify 20 lesions of the central disc, as well as 7 lesions each of the superficial and deep ulnar-sided layer, corresponding to sensitivities of 0.91, 0.70 and 0.78. With falsely assumed lesions in 4 (disc), 11 (styloid) and 13 (foveal) arthrograms, specificities of 0.94, 0.84 and 0.87 were achieved without radial planes. With radial reformatting available, sensitivity (0.91; 20/22 lesions detected) and specificity (0.93; 5 false positives) for articular disc injuries did not change (p > 0.99). For assessment of the ulnar-sided periphery, however, classification functions improved with the addition of radial MPR (Table 2): deep layer injuries were discovered more reliably (0.89 sensitivity; 0.94 specificity; 8/9 lesions detected; 5 false positives; p = 0.039), while superficial lesions of the peripheral TFCC were also identified with increased sensitivity and specificity (0.90 each; 9/10 lesions detected; 8 false positives; p = 0.016). Compared to datasets with standard examinations, overall diagnostic accuracy was superior for styloid (0.83 vs. 0.90; p = 0.016) and foveal attachment injuries (0.86 vs. 0.94; p = 0.039) when readers had additional access to the radial plane view (Figs. 4, 5, and 6).
Concerning diagnostic confidence, considerable improvement was recorded with radial MPR available (p < 0.001). Although high confidence was reported in the majority of arthrograms independent of dataset, total confidence votes (scale value 5) were more common with addition of radial planes (83.9% vs. 55.9%). Moderate or less confidence (scale value ≤ 3) was only declared if anatomically angulated reconstructions were not accessible (18.3%). Reader confidence is summarized in Table 3.
Discussion
This study on 93 MR arthrograms of the wrist revealed that radial reformatting of isotropic 3D datasets with respect to the triangular shape of the ulnocarpal complex enhances diagnostic accuracy and confidence for lesions of the ulnar-sided TFCC attachments. Despite being a common cause of ulnar-sided wrist pain and impaired stability of the DRUJ, diagnosis of TFCC injuries remains a challenging task for radiologists. Multi-compartment arthrography with subsequent MRI is a well-established technique to analyze ligamentous and cartilaginous pathologies of the wrist [23, 24]. Advantages of directly injecting contrast agent into a joint compartment include articular distention and improved contrast-to-noise ratio, which aid the differentiation between the foveal and styloid insertion of the TFCC in partial-thickness tears [25]. Combinations of arthrography, thin-slice 3D sequences and anatomically angulated reconstructions are frequently implemented in knee, shoulder and hip MRI [19, 26, 27]. For the TFCC, however, the benefits of preparing a radial plane view based on isotropic 3D MRI data acquisition have not been thoroughly evaluated.
Irrespective of the available reconstructions, diagnostic sensitivity, specificity and accuracy were at least good for all portions of the TFCC in this study, which is in line with previous literature [10, 28, 29]. Our results suggest that additional radial reformatting might be particularly useful for the detection and exclusion of lesions in the ulnar-sided periphery of the TFCC, whereas central disc defects were diagnosed with similar accuracy when radial MPR was not available. We assume that the partial volume effect resulting from the converging courses of the dorsal and palmar radioulnar ligaments towards the ulnar styloid process limits evaluation of continuity in the ulnar-sided periphery on standard orthogonal planes. For this reason, the disc proper may be assessable reliably, while the distal edges of the TFCC are not sufficiently represented on orthogonal reconstructions. Further substantiating this hypothesis, subjective ratings for assessability remained almost constant for the central cartilage but were considerably higher for the peripheral insertions when readers had access to the radial plane view. It has to be noted that wrist positioning can influence the assessability of the radioulnar ligaments. In pronation, particularly the laxity of the palmar radioulnar ligament may impair diagnostic evaluation [30]. However, while imaging in a neutral position may be beneficial for radioulnar ligament analysis, we believe based on clinical experience that wrist pronation is easier to maintain for the duration of the scan, resulting in less motion artefacts. Combining the image information of different wrist positions, dynamic evaluation in the form of cine MRI has the potential to simulate radial reformatting through actual radial-ulnar wrist deviation during scans. While clinical applicability of this technique has been shown in recent years [31, 32], cine MRI currently is only performed at few institutions.
Concordant with previous studies on CT wrist arthrography, diagnostic accuracy for central and peripheral lesions converged with additional radial reformatting [15, 16]. The deep peripheral layer of the TFCC includes the insertion of the triangular ligament into the ulnar fovea and functions as the main stabilizer between the ulnar head and sigmoid notch. Increased diagnostic accuracy when assessing this anatomic structure is of particular clinical relevance. Radiocarpal arthroscopy can only detect ruptures of the foveal ulnar insertion directly if the superficial layer is also disconnected from the ulnar styloid process because the trampoline and hook test may turn out negative otherwise. Considering that DRUJ arthroscopy remains a highly specialized procedure with limited applicability if the foveal attachment of the ulnar-sided TFCC is intact, non-invasive assessment of stability is essential to decide the appropriate treatment option and prevent unnecessary surgical procedures [33]. With superior visibility of the TFCC periphery in radial MPR, an increase of overall diagnostic confidence was anticipated. The large amount of total confidence votes, however, might be beneficial for interdisciplinary exchange between radiologists and hand surgeons, as radiological reports may become more unambiguous with access to radial reformatting. Finally, despite providing a substantial advantage for the diagnosis of ulnar-sided TFCC injuries, the reconstruction of radial planes in postprocessing of isotropic 3D sequences requires little time and effort.
Limitations
In accordance with the classifications of Atzei [34] (for ulnar-sided lesions) and Palmer [35] (for any type of TFCC injury), partial lesions of the disc proper, superficial and foveal insertions were not discerned from complete tears in this study. Using a dichotomous assessment approach for continuity, traumatic and degenerative alterations were not distinguished by observers. Lesions of the capsular attachments, meniscus homologue, ulnar collateral ligament, extensor carpi ulnaris tendon sheath and ulnocarpal ligaments were not in the scope of this study and therefore not evaluated. While two different 3.0 T scanners were used for wrist scans, potentially influencing the overall image quality, the acquisition parameters for the 3D DESS sequence were the same on both systems. Due to the high diagnostic accuracy of MR wrist arthrography that usually entails omission of additional arthroscopic evaluation if the radiological assessment turns out unequivocally negative for DRUJ instability, the number of surgical reports was limited in this study. For all 35 patients that underwent surgery, the respective report served as the sole standard of reference. Only if surgical correlation was not available, radiological reports by musculoskeletal imaging specialists and potential clinical follow-up were used to define an alternative reference standard [36]. Compared to the literature, however, surgical confirmation was rather common with 37.6% of patients undergoing arthroscopy in this study [7, 37, 38]. While the ulnocarpal complex was always evaluated diagnostically, not all surgical procedures were primarily performed for TFCC lesions, as unstable injuries of the intrinsic carpal ligaments were also treated in minimally invasive fashion.
Conclusion
Adding radial plane view with the rotational center positioned at the ulnar styloid to the reconstruction algorithm for isotropic 3D sequences in MR arthrograms of the wrist improves diagnostic accuracy and confidence for peripheral TFCC lesions.
Abbreviations
- DESS:
-
Double echo steady state
- DRUJ:
-
Distal radioulnar joint
- MPR:
-
Multiplanar reconstruction
- SD:
-
Standard deviation
- TFCC:
-
Triangular fibrocartilage complex
References
Hagert E, Hagert C-G (2010) Understanding stability of the distal radioulnar joint through an understanding of its anatomy. Hand Clin 26:459–466
Pfirrmann CWA, Zanetti M (2005) Variants, pitfalls and asymptomatic findings in wrist and hand imaging. Eur J Radiol 56:286–295
Kirchberger MC, Unglaub F, Mühldorfer-Fodor M et al (2015) Update TFCC: histology and pathology, classification, examination and diagnostics. Arch Orthop Trauma Surg 135:427–437
Haugstvedt JR, Berger RA, Nakamura T et al (2006) Relative contributions of the ulnar attachments of the triangular fibrocartilage complex to the dynamic stability of the distal radioulnar joint. J Hand Surg Am 31:445–451
Palmer AK, Werner FW (1981) The triangular fibrocartilage complex of the wrist—anatomy and function. J Hand Surg Am 6:153–162
Nakamura T, Yabe Y, Horiuchi Y (1996) Functional anatomy of the triangular fibrocartilage complex. J Hand Surg Am 21:581–586
Omlor G, Jung M, Grieser T, Ludwig K (2009) Depiction of the triangular fibro-cartilage in patients with ulnar-sided wrist pain: comparison of direct multi-slice CT arthrography and direct MR arthrography. Eur Radiol 19:147–151
Lee YH, Choi YR, Kim S et al (2013) Intrinsic ligament and triangular fibrocartilage complex (TFCC) tears of the wrist: comparison of isovolumetric 3D-THRIVE sequence MR arthrography and conventional MR image at 3 T. Magn Reson Imaging 31:221–226
Schmitt R, Grunz JP, Luetkens K et al (2021) The ulnocarpal complex: new clinical and radiological considerations. Radiologe. https://doi.org/10.1007/s00117-021-00824-4
Treiser M, Crawford K, Iorio M (2018) TFCC injuries: meta-analysis and comparison of diagnostic imaging modalities. J Wrist Surg 07:267–272
Götestrand S, Björkman A, Björkman-Burtscher IM et al (2021) Visualization of wrist ligaments with 3D and 2D magnetic resonance imaging at 3 Tesla. Acta Radiol. https://doi.org/10.1177/0284185121994044
Sutherland JK, Nozaki T, Kaneko Y et al (2016) Initial experience with 3D isotropic high-resolution 3 T MR arthrography of the wrist. BMC Musculoskelet Disord 17:30
Park HJ, Lee SY, Kang KA et al (2018) Comparison of two-dimensional fast spin echo T 2 weighted sequences and three-dimensional volume isotropic T 2 weighted fast spin echo (VISTA) MRI in the evaluation of triangular fibrocartilage of the wrist. Br J Radiol 91:20170604
Lee RKL, Griffith JF, Ng AWH et al (2017) Intrinsic carpal ligaments on MR and multidetector CT arthrography: comparison of axial and axial oblique planes. Eur Radiol 27:1277–1285
Moritomo H, Arimitsu S, Kubo N et al (2015) Computed tomography arthrography using a radial plane view for the detection of triangular fibrocartilage complex foveal tears. J Hand Surg Am 40:245–251
Grunz J-P, Gietzen CH, Luetkens K et al (2020) The importance of radial multiplanar reconstructions for assessment of triangular fibrocartilage complex injury in CT arthrography of the wrist. BMC Musculoskelet Disord 21:286
Kudo H, Inaoka T, Kitamura N et al (2013) Clinical value of routine use of thin-section 3D MRI using 3D FSE sequences with a variable flip angle technique for internal derangements of the knee joint at 3T. Magn Reson Imaging 31:1309–1317
Kim TH, Moon SG, Jung H-G, Kim NR (2017) Subtalar instability: imaging features of subtalar ligaments on 3D isotropic ankle MRI. BMC Musculoskelet Disord 18:475
Lee SH, Yun SJ, Jin W et al (2018) Comparison between 3D isotropic and 2D conventional MR arthrography for diagnosing rotator cuff tear and labral lesions: a meta-analysis. J Magn Reson Imaging 48:1034–1045
Levinsohn EM, Rosen ID, Palmer AK (1991) Wrist arthrography: value of the three-compartment injection method. Radiology 179:231–239
Moser T, Dosch J-C, Moussaoui A et al (2008) Multidetector CT arthrography of the wrist joint: how to do it. Radiographics 28:787–800
Kim S, Lee GY, Lee JS (2019) Evaluation of the triangular fibrocartilage: comparison of two-compartment wrist CT arthrography using the distal radioulnar and radiocarpal joints and unicompartment wrist CT arthrography using the radiocarpal joint. Br J Radiol 92:20190298
Lee RKL, Ng AWH, Tong CSL et al (2013) Intrinsic ligament and triangular fibrocartilage complex tears of the wrist: comparison of MDCT arthrography, conventional 3-T MRI, and MR arthrography. Skeletal Radiol 42:1277–1285
Watanabe A, Souza F, Vezeridis PS et al (2010) Ulnar-sided wrist pain. II. Clinical imaging and treatment. Skeletal Radiol 39:837–857
Zanetti M, Linkous MD, Gilula LA, Hodler J (2000) Characteristics of triangular fibrocartilage defects in symptomatic and contralateral asymptomatic wrists. Radiology 216:840–845
Lee YH, Song H-T, Kim S et al (2012) Magnetic resonance arthrographic dissection of posterolateral corner of the knee: revealing the meniscofibular ligament. Yonsei Med J 53:820
Foti G, Campacci A, Conati M et al (2017) MR arthrography of the hip: evaluation of isotropic 3D intermediate-weighted FSE and hybrid GRE T1-weighted sequences. Radiol Med 122:774–784
Thomsen N, Besjakov J, Björkman A (2018) Accuracy of pre- and postcontrast, 3 T indirect MR arthrography compared with wrist arthroscopy in the diagnosis of wrist ligament injuries. J Wrist Surg 07:382–388
Smith TO, Drew B, Toms AP et al (2012) Diagnostic accuracy of magnetic resonance imaging and magnetic resonance arthrography for triangular fibrocartilaginous complex injury: a systematic review and meta-analysis. J Bone Joint Surg Am 94:824–832
Pfirrmann CW, Theumann NH, Chung CB et al (2001) What happens to the triangular fibrocartilage complex during pronation and supination of the forearm? Analysis of its morphology and diagnostic assessment with MR arthrography. Skeletal Radiol 30:677–685
Nakamura T, Abe K, Terada N (2018) Cine MRI of the triangular fibrocartilage complex during radial–ulnar deviation. J Wrist Surg 07:274–280
Shaw CB, Foster BH, Borgese M et al (2019) Real-time three-dimensional MRI for the assessment of dynamic carpal instability. PLoS One 14:e0222704
Nakamura T, Sato K, Okazaki M et al (2011) Repair of foveal detachment of the triangular fibrocartilage complex: open and arthroscopic transosseous techniques. Hand Clin 27:281–290
Atzei A, Luchetti R (2011) Foveal TFCC tear classification and treatment. Hand Clin 27:263–272
Palmer AK (1989) Triangular fibrocartilage complex lesions: a classification. J Hand Surg Am 14:594–606
Schmitt R, Christopoulos G, Coblenz G et al (2003) Direct MR arthrography of the wrist in comparison with arthroscopy: a prospective study on 125 patients. Rofo 175:911–919
Klempka A, Wagner M, Fodor S et al (2016) Injuries of the scapholunate and lunotriquetral ligaments as well as the TFCC in intra-articular distal radius fractures. Prevalence assessed with MDCT arthrography. Eur Radiol 26:722–732
Sonnow L, Koennecker S, Luketina R et al (2019) High-resolution flat panel CT versus 3-T MR arthrography of the wrist: initial results in vivo. Eur Radiol 29:3233–3240
Funding
Open Access funding enabled and organized by Projekt DEAL. Jan-Peter Grunz was supported by the Interdisciplinary Center of Clinical Research Würzburg, Germany [grant number Z-2/CSP-06].
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Guarantor
The scientific guarantor of this publication is Henner Huflage (Huflage_H@ukw.de).
Conflict of Interest
The authors of this manuscript declare no relationships with any companies whose products or services may be related to the subject matter of the article.
Statistics and Biometry
No complex statistical operations were used in this manuscript.
Informed Consent
Written informed consent was waived by the Institutional Review Board.
Ethical Approval
Institutional Review Board approval was obtained.
Methodology
• Retrospective
• Observational
• Performed at one institution
Additional information
Publisher’s note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.
About this article
Cite this article
Huflage, H., Luetkens, K.S., Kunz, A.S. et al. Improved diagnostic accuracy for ulnar-sided TFCC lesions with radial reformation of 3D sequences in wrist MR arthrography. Eur Radiol 31, 9399–9407 (2021). https://doi.org/10.1007/s00330-021-08024-3
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00330-021-08024-3