A Study Of Spectrum Of Findings Of Magnetic ResonanceImaging In Ankle Joint Pathologies

Ravina S. Chavda; Dipti A.  Shah

doi:10.48165/ijabms.2021.23114

Authors

Ravina S. Chavda 2ndyear resident department of radiodiagnosis, AMC MET Medical college, LG hospital Ahmedabad.)
Dipti A. Shah 2Professor & HOD, department of radiodiagnosis, AMC MET Medical college, LG hospital Ahmedabad.)

DOI:

https://doi.org/10.48165/ijabms.2021.23114

Keywords:

Spectrum, Magnetic Resonance Imaging, Ankle Joint Pathologies

Abstract

Aims & Objectives: This study is being carried out to describe various MRI features in the pathologies of ankle joint. Trauma to the ankle joint is a significant cause of morbidity in the young & active individuals especially amongst labourer’s, road traffic accident patients and athletes. A correct diagnosis regarding traumatic/ non traumatic ankle joint pathologies is essential for early operative as well as non-operative treatment. Magnetic resonance imaging (MRI) has now been accepted as the best modality for non-invasive evaluation of ankle pathologies. This study was undertaken to study different pathologies of ankle joint and its incidence by MR imaging.MATERIALS AND METHODS:A total of 50 cases of clinically suspected & diagnosed of having any pathology of ankle joint by MR imaging of the ankle, at the department of Radiodiagnosis, AMC MET Medical college, L.G hospital, Maninagar, Ahmedabad. Study was performed between December 2018 to December 2019. MRI was carried out on SIEMENS 1.5 T MAGNETOM_ESSENZA machineResults:Of the total50 patients evaluated, most common pathology of ankle joint being anterior talofibular ligament tear & tenosynovitis,20(40%) cases of each, followed by stress fractures 17(34%) & contusions 16(32%). Associated findings include joint collection, marrow edema &soft tissue changes.Interpretation and Conclusions:From these observations, it is found that MRI is an excellent, noninvasive, radiation free imaging modality with multiplanar capabilities and better soft tissue delineation. It can accurately detect, localize and characterize various ligamentous, tendinous, bony & soft tissue pathologies related to ankle joint and thereby guiding in further management of the patient.

References

Kiley D. Perrich, Douglas W. Goodwin, Paul J. Hecht and Yvonne Cheung. American Journal of Roentgenology. 2009;193: 687-695. 10.2214/AJR.08.2286

Park HJ, Lee SY, Park NH, Kim E, Chung EC, Kook SH, et al. Usefulness of the oblique coronal plane in ankle MRI of the calcaneofibular ligament. ClinRadiol. 2015; 70:416–23.3.

Park HJ, Lee SY, Park NH, Kim E, Chung EC, Kook SH, et al. Usefulness of the oblique coronal plane in ankle MRI of the calcaneofibular ligament. ClinRadiol2015; 70:416-23.

Hosea TM, Carey CC, Harrer MF. The gender issue: epidemiology of ankle injuries in athletes who participate in basketball. Clin Orthop.2000;372:45–49.

Ziai P, Benca E, Wenzel F, Schuh R, Krall C, Auffahrt A, et al. Peroneal tendinosis as a predisposing factor for the acute lateral ankle sprain in runners. Knee Surg Sports TraumatolArthrosc 2016; 24:1175-9.

Brown KW, Morrison WB, Schweitzer ME, Parellada JA, Nothnagel H. MRI findings associated with distal tibiofibular syndesmosis injury. AJR Am J Roentgenol. 2004; 182:131–6.

Holmer P, Sondergaard L, Konradsen L, Nielsen PT, Jorgensen LN. Epidemiology of sprains in the lateral ankle and foot. Foot Ankle Int 1994; 15:72–74 2.

Dattani R, Patnaik S, Kantak A, Srikanth B, Selvan TP. Injuries to the tibiofibular syndesmosis. J Bone Joint Surg Br 2008; 90:405-10.

Delco ML, Kennedy JG, Bonassar LJ, Fortier LA. Post-traumatic osteoarthritis of the ankle: A distinct clinical entity requiring new research approaches. J Orthop Res. 2017;35(3):440-453. doi:10.1002/jor.23462

Dhillon MS, Rana B, Panda I, Patel S, Kumar P. Management Options in Avascular Necrosis of Talus. Indian J Orthop. 2018;52(3):284-296. doi: 10.4103/ortho.IJOrtho_608_17

Gouveri E, Papanas N. Charcot osteoarthropathy in diabetes: A brief review with an emphasis on clinical practice. World J Diabetes. 2011;2(5):59-65. doi:10.4239/wjd. v2.i5.59

Choo HJ, Suh JS, Kim SJ, Huh YM, Kim MI, Lee JW, et al. Ankle MRI for anterolateral soft tissue impingement: Increased accuracy with the use of contrast-enhanced fat-suppressed 3D-FSPGR MRI. Korean J Radiol 2008; 9:409-15.

Draghi F, Gitto S, Bortolotto C, Draghi AG, Ori Belometti G. Imaging of plantar fascia disorders: findings on plain radiography, ultrasound and magnetic resonance imaging. Insights Imaging. 2017;8(1):69-78. doi:10.1007/s13244-016-0533-2

Robinson P, White LM, Salonen DC, Daniels TR, Ogilvie-Harris D. Anterolateral ankle impingement: MR arthrographic assessment of the anterolateral recess. Radiology 2001; 221:186–190

Cancilleri, F., Taglieri, E., Marinozzi, A. et al. Tarsal tunnel syndrome caused by synovial cysts and by neurilemmoma. Eur J OrthopSurgTraumatol 9, 65–68 (1999).

Kiel J, Kaiser K. Tarsal Tunnel Syndrome. [Updated 2020 May 22]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2020 Jan-. Available from: https://www.ncbi.nlm.nih.gov/books/NBK513273/

Gougoulias N, Lampridis V, Sakellariou A. Morton's interdigital neuroma: instructional review. EFORT Open Rev. 2019;4(1):14-24. Published 2019 Jan 23. doi:10.1302/2058-5241.4.180025

Kaplanoğlu V, Ciliz DS, Kaplanoğlu H, Elverici E. Aneurysmal bone cyst of the calcaneus. J Clin Imaging Sci. 2014; 4:60. Published 2014 Oct 31. doi:10.4103/2156-7514.143732

Purohit S, Pardiwala DN. Imaging of giant cell tumor of bone. Indian J Orthop. 2007;41(2):91-96. doi:10.4103/0019-5413.32037