Three-dimensional, digital, and gross anatomy of the Lisfranc ligament

Panchbhavi, Vinod K.; Molina, IV, Domingo; Villarreal, Jaime; Curry, Michael C.; Andersen, Clark R.

Affiliations

¹University of Texas Medical Branch, Galveston, TX, USA

²Baylor College of Medicine, Houston, TX, USA

Abstract and keywords

Background: There are inconsistencies in the descriptive anatomy of the Lisfranc ligament. No information is available on orientation of fibers or presence of bundles, nor are there 3-dimensional anatomic data on the ligaments or their attachments. This study assessed the 3-dimensional anatomy of the Lisfranc ligament and its attachment sites.

Methods: A total of 37 cadaver feet were dissected to expose the ligament attachments at the Lisfranc joint. The Lisfranc ligament and plantar ligament attachments were outlined separately and then removed with the attachment outlines preserved. A 3-dimensional digitizer was used to digitize bony and articular surfaces, as well as ligament attachment sites, at approximately 1 mm intervals; the positional accuracy was 0.23 mm. The surface areas of the entire bone, articular regions, and Lisfranc and plantar ligament attachment regions were determined and anatomic details were noted.

Results: The Lisfranc ligament had a single bundle in 73% of the specimens and 2 bundles in 27%. Both variations had a single attachment to the second metatarsal (M2; mean attachment surface area, 135 mm²). The single-bundle variation attached to the medial cuneiform (C1; mean attachment surface area, 140 mm²). The plantar ligament, C1-M2-M3, attached to the anterior plantar surface of the lateral aspect of C1 (mean attachment surface, 64 mm2) and had attachment sites at the bases of M2 and M3. Its fibers ran anteriorly and inferiorly, with attachments to the proximal inferomedial aspect of M2 (mean attachment surface, 63 mm²) and fibers extending to a smaller attachment at the plantar aspect of M3 (mean attachment surface area, 26 mm²).

Conclusion: The Lisfranc ligament is variable in anatomy and can have a single- or double-bundle arrangement. Its area of attachment is larger than that of the plantar ligament.

Clinical Relevance: Anatomic descriptions of location, dimensions, and variability in the position and surface area of the ligament attachment sites and of orientation of the bundles provide information for future attempts at repair or reconstruction of the Lisfranc ligament.

Keywords: anatomy; attachment; bundle; Lisfranc ligament; 3-dimensional digitizer

Links

DOI: 10.1177/1071100713477635

PubMed: 23424171

WoS: 000330309100016

History

Online: 2013-02-19

Cited Works (11)

Year	Entry
2008	Panchbhavi VK, Andersen CR, Vallurupalli S, Yang J. A minimally disruptive model and three-dimensional evaluation of Lisfranc joint diastasis. J Bone Joint Surg. 2008;90A(12):2707-2713.
2010	Castro M, Melão L, Canella C, Weber M, Negrão P, Trudell D, Resnick D. Lisfranc joint ligamentous complex: MRI with anatomic correlation in cadavers. Am J Roentgen. 2010;195(6):W447-W455.
1983	Goossens M, De Stoop N. Lisfranc's fracture-dislocations: etiology, radiology, and results of treatment: a review of 20 cases. Clin Orthop Relat Res. 1983;176:154-162.
1993	Sarrafian SK. Anatomy of the Foot and Ankle: Descriptive, Topographic, Functional. 2nd ed. Philadelphia: J. B. Lippincott Company; 1993.
1996	Preidler KW, Wang Y-c, Brossmann J, Trudell D, Daenen B, Resnick D. Tarsometatarsal joint: anatomic details on MR images. Radiology. 1996;199(3):733-736.
1997	de Palma L, Santucci A, Sabetta SP, Rapali S. Anatomy of the Lisfranc joint complex. Foot Ankle Int. June 1997;18(6):356-364.
1998	Coss HS, Manos RE, Buoncristiani A, Mills WJ. Abduction stress and AP weightbearing radiography of purely ligamentous injury in the tarsometatarsal joint. Foot Ankle Int. 1998;19(8):537-541.
1995	Trevino SG, Kodros S. Controversies in tarsometatarsal injuries. Orthop Clin North Am. 1995;26(2):229-238.
2001	Kura H, Luo Z-P, Kitaoka HB, Smutz WP, An K-N. Mechanical behavior of the Lisfranc and dorsal cuneometatarsal ligaments: in vitro biomechanical study. J Orthop Trauma. February 2001;15(2):107-110.
2001	Solan MC, Moorman CT III, Miyamoto RG, Jasper LE, Belkoff SM. Ligamentous restraints of the second tarsometatarsal joint: a biomechanical evaluation. Foot Ankle Int. August 2001;22(8):637-641.
2001	Chiodo CP, Myerson MS. Developments and advances in the diagnosis and treatment of injuries to the tarsometatarsal joint. Orthop Clin North Am. 2001;32(1):11-20.

Cited By (3)

Year	Entry
2015	Lievers WB, Frimenko RE, McCullough KA, Crandall JR, Kent RW. Etiology and biomechanics of midfoot (Lisfranc) injuries in athletes. Crit Rev Biomed Eng. 2015;43(2-3):213-238.
2021	Sripanich Y, Steadman J, Krähenbühl N, Rungprai C, Saltzman CL, Lenz AL, Barg A. Anatomy and biomechanics of the Lisfranc ligamentous complex: a systematic literature review. J Biomech. April 15, 2021;119:110287.
2016	Mangin M, Seivert V, Galliot F, Lefevre M, Piessat C, Gross J-B, Delagoutte J-P, Coudane H. Résultats des arthrorises entre le deuxième métatarsien et le cunéiforme médial dans les luxations tarsométatarsiennes: à propos de 15 cas à un recul de cinq ans [Outcome after arthrorisis of the second metatarsal’s base with the medial cuneiform after tarsometatarsal dislocations: about 15 patients in 5 years]. Méd Chir Pied. June 2016;32(2):54-60.