Radiographic Anatomy of the Pediatric Lisfranc Joint

Morphologic analysis of the 1st and 2nd tarsometatarsal joint articular surfaces

Tarsometatarsal joint arthrodesis is used to treat a variety of injuries and deformities in the midfoot. However, the surgical technique has not been optimized, in part due to limited knowledge of morphologic features and variation in the related joints. Previous research has relied primarily on dissection-based anatomical analysis, but quantitative imaging may allow for a more sophisticated description of this complex. Here, we used quantitative micro-CT imaging to examine dimensions, distance maps, and curvature of the four articular surfaces in the first and second tarsometatarsal joints. Image segmentation, articular surface identification, and anatomic coordinate systems were all done with semi or fully automatic methods, and distance and size measurements were all taken utilizing these anatomic planes. Surface curvature was studied using Gaussian curvature and a newly defined measure of curvature similarity on the whole joint and on four subregions of each surface. These data show larger articular surfaces on the cuneiforms, rather than metatarsals, and define the generally tall and narrow articular surfaces seen in these joints. Curvature analysis shows minimally curved opposing convex surfaces. Our results are valuable for furthering knowledge of surgical anatomy in this poorly understood region of the foot.

Pediatric Sports Trauma

Pediatric foot and ankle fractures are common in athletic participation. Treatment of pediatric sports trauma must take into account the unique challenges this population presents, and aim to minimize long-term complications. Given the excellent remodeling potential of pediatric bone, conservative treatment can often be used. However, a thorough understanding of physeal anatomy, fracture patterns, and biomechanics is needed to guide treatment choice and determine when surgical intervention is warranted.

Comparing bilateral feet computed tomography scans can improve surgical decision making for subtle Lisfranc injury

INTRODUCTION

Subtle Lisfranc injuries (SLIs) are challenging to diagnose. Although weightbearing (WB) radiographs have been suggested to identify SLIs, approximately 20% are missed on initial radiographic assessment. Computed tomography (CT) has been suggested as an alternative, but has not provided any diagnostic guideline. Therefore we compared measurement techniques on radiographs and bilateral foot CT scans for the efficiency of diagnosis and making surgical decisions for SLI.

METHODS

We retrospectively investigated patients diagnosed with SLIs between January 2014 and January 2020. Distances between both medial cuneiform and second metatarsal base (C1M2), and the first and second metatarsal bases (M1M2), were measured on bilateral WB radiographs. Bilateral foot CT scans were taken, and the distances between C1M2 were checked on the axial and three points of the coronal plane (top, middle, and base). The surgical indication was > 1 mm of diastasis on CT scan. Clinical outcomes were evaluated using the American Orthopaedic Foot and Ankle Society (AOFAS) score at final follow-up. Intraobserver and interobserver agreements were assessed.

RESULTS

Thirty patients with SLIs were reviewed. Twenty-four patients underwent surgical fixation (Group A) and six patients were treated conservatively (Group B). The side-to-side difference (STSD) of C1M2 and M1M2 distances greater than 1 mm showed 91.7% and 54.2% sensitivity, and 66.7% and 16.7% specificity, respectively. Investigating STSDs of all points on CT scans were informative to discriminate both groups (P ≤ 0.038). Clinical outcomes showed no significant difference between the groups (P = 0.631). Intraclass and interclass correlation coefficient values showed good to very good reliability, except for STSD of WB M1M2 distance and the coronal top plane.

CONCLUSION

Investigating bilateral foot CT scans was significantly efficient and reliable for the diagnosis and treatment plan for SLI. On radiographs, STSD of WB C1M2 distance was more sensitive than STSD of WB M1M2 distance.

LEVEL OF EVIDENCE

Case control study; III.

Support system of Lisfranc joint complex: An anatomical investigation with an evolutionary perspective

BACKGROUND

The anatomical arrangement of the Lisfranc joint between the midfoot and forefoot is complex and not just critical for bipedal gait but also for prevention, management, and rehabilitation of injuries in this region.

MATERIAL AND METHODS

In forty adult cadaveric lower limbs, the Lisfranc mortise, the ligaments and supports were observed and noted.

RESULTS

The structural arrangement that accords stability to the joint has osseous, ligamentous, and tendinous components. A bony mortise, which is deep medially, disrupts the linearity of the joint line. An extensive Lisfranc ligament with confluent interosseous and plantar parts was observed. Tibialis posterior, peroneus Longus and Lisfranc ligament exhibit a unique anatomical arrangement that supports the joint inferiorly.

CONCLUSION

The study documents a unique lattice of tendons and ligament offering dynamic support to the joint. Demands of assumption of erect posture and bipedal walking in humans like adduction of the first ray of the foot, maintenance of longitudinal and transverse arches of the foot and ability stiffen midfoot for efficient forefoot take-off are well reflected in the joint structure and supports.

Treatment of a Lisfranc Injury in a 7-Year-Old Boy: Case Report and Surgical Technique

CASE

This is a case of a 7-year-old boy with a Lisfranc injury identified on weight-bearing films who was treated successfully with closed reduction with a clamp and smooth pin fixation. This patient returned to sports without pain or radiographic signs of arthritis at 1 year.

CONCLUSION

Lisfranc fractures and ligamentous injuries are rare and can occur in skeletally immature children. They have high potential for long-term disability if not properly diagnosed and treated. Although there is no consensus on optimal management of pediatric Lisfranc injuries, restoration of an anatomic Lisfranc joint with smooth pins and immobilization for 6 weeks is a viable treatment option.

Treatment of paediatric Lisfranc injuries: A systematic review and introduction of a novel treatment algorithm

BACKGROUND

Pediatric Lisfranc injuries (PLI) are rare injuries that have few studies published about their occurrence and treatment in pediatric population. Due to this lack of information, the diagnostic criteria and surgical or non-surgical methods for treatment have not been clearly established within the pediatric orthopedic literature. The objective of this study was to review the published literature related to treatment options and develop a concise stepwise treatment algorithm for pediatric patients presenting with Lisfranc injuries.

METHODS

A systematic literature review was conducted using PubMed to find studies discussing the treatment of PLI with reported long-term outcomes. Data collection accounted for the mechanism of injury, diagnostic imaging modality used, injury type, fracture classification using the Myerson system, treatment method used, and postoperative complications.

RESULTS

An initial PubMed search revealed 290 articles, but only 10 studies fulfilled the criteria for in-depth review. A total of 114 patients were included in this review from the selected case reports and case series studies. Primary treatment methods were as follows: 44% (50/114) with open reduction internal fixation (ORIF) using Kirschner wires (K-wires) and/or screws, 3% (3/114) with closed reduction percutaneous fixation (CRPF), 4% (4/114) with suture-button constructs, 20% (23/114) with cast immobilization, and 29% (33/114) were described as not requiring reduction.

CONCLUSION

There were two main limitations to this study. First, there are few published studies with longitudinal outcomes of PLI treatment. Second, some case series did not disclose which procedure a patient with post-treatment complications underwent. Therefore, an overall statistical analysis of success and failure rates with associated complications of each procedure could not be conducted. In conclusion, we found that a stepwise approach to evaluating conservative and surgical treatment options based on the presentation of the PLI should be utilized to optimize long-term outcomes.

Reliability of various diastasis measurement methods on weightbearing radiographs in patients with subtle Lisfranc injuries

OBJECTIVE

This study aimed to evaluate the reliability of the diastasis measurements between the medial cuneiform and the second metatarsal on weightbearing radiography.

MATERIALS AND METHODS

We retrospectively examined 18 patients who underwent open surgery for subtle Lisfranc injuries. Preoperative weightbearing radiography of the affected and unaffected feet was evaluated in all patients. The diastasis between the medial cuneiform and the second metatarsal was measured in both feet using the following four methods: diastasis between parallel lines, distal point diastasis, middle point diastasis, and proximal point diastasis. Intraclass correlation coefficients with consistency of agreement were calculated to evaluate inter- and intraobserver reliability.

RESULTS

The intra- and interobserver reliabilities of all four methods were good. Intraclass correlation coefficients for intraobserver reliability ranged from 0.87 to 0.93. Those for interobserver reliability ranged from 0.81 to 0.91.

CONCLUSIONS

The reliabilities of the diastasis measurement methods between the medial cuneiform and the second metatarsal on weightbearing radiography were good. Measuring the diastasis between the medial cuneiform and the second metatarsal on weightbearing radiography is useful in evaluating subtle injuries when uniform measurement methods are used.

Understanding Radiographic Measurements Used in Foot and Ankle Surgery

Given the high volume of patient visits for foot and ankle complaints, developing a systematic approach to evaluation of foot and ankle pathology is important for orthopaedic providers. A thorough evaluation of weight-bearing radiographs is essential to differentiate acute and chronic injury from normal findings to dictate treatment. Radiographic changes and varying degrees of deformity can influence surgical considerations. The purpose of this article was to review and define radiographic measurements relevant to surgical decision making for common foot and ankle pathologies and treatment.

Reliability of measurements assessing the Lisfranc joint using weightbearing computed tomography imaging

INTRODUCTION

Subtle Lisfranc joint injuries remain challenging to diagnose in clinical practice. Although of questionable accuracy, bilateral weightbearing radiographs are considered the current gold standard to assess these injuries. However, weightbearing computed tomography (WBCT), which provides clearer visualization of bony landmarks, can also be used for evaluation. This study aims to design a protocol that reliably measures the distance between the medial cuneiform (C1) and second metatarsal (M2) to assess the Lisfranc joint using WBCT imaging.

METHODS

Two unique methods of measuring the C1-M2 distance were designed that localize the center of the interosseous Lisfranc ligament (ILL, reference point). This reference point was located by (I) measuring a specific distance at the M2 base, or (II) approximating from nearby bony landmarks, on both axial (Ax) and coronal (Cor) WBCT images. Four parameters (I-Ax, I-Cor, II-Ax, and II-Cor) were evaluated for each of 96 specimens. Measurements were recorded by three independent observers and repeated for inter- and intra-observer agreement.

RESULTS

In total, 96 patient image series were included and assessed in our study with an average age of 46 (19-66, SD 16.1) and average BMI of 25.8 (17.8-30.5, SD 4.3). I-Ax showed excellent agreement for intra-observer evaluation (R = 0.802) and good agreement for inter-observer evaluation (R = 0.727). I-Cor demonstrated excellent inter- (R = 0.814) and intra-observer (R = 0.840) agreement. Good agreement was found for both II-Ax and II-Cor for both intra- (R = 0.730, R = 0.708) and inter-observer (R = 0.705, R = 0.645) evaluation.

CONCLUSION

Measuring the C1-M2 joint space with coronal WBCT imaging through a protocol that localizes the ILL is reproducible, simple, and can potentially be utilized clinically to evaluate the Lisfranc joint.

Pediatric and adolescent Lisfranc injuries - Presentation, treatment and outcomes

PURPOSE

Lisfranc fracture dislocations are rare injuries and even more so in the pediatric population. The main purpose of our study is to present a descriptive analysis of Lisfranc injuries in pediatric patients to add to the current sparse literature on this topic. In addition, our secondary outcome was to analyze any differences in patients treated conservatively versus operatively, and those with isolated Lisfranc injuries versus those with associated foot injuries.

METHODS

Charts of patients with Lisfranc injury treated at a tertiary pediatric hospital from January 2010 to July 2019 were reviewed to analyze their demographics, injury characteristics, management details and rehabilitation protocol. Functional outcome was assessed using the Visual Analogue Scale of Pain (VAS) and the Oxford Ankle Foot Questionnaire for Children (OxAFQ-C).

RESULTS

30 patients/cases were included with mean age of 13.6 years and mean follow up of 36 weeks. 20% of the cases were missed on initial presentation. 19 cases were managed operatively while 11 were managed conservatively. The average OxAFQ-C and VAS pain scores were 83% and 1.3, respectively at mean follow-up of 36 weeks. The functional outcomes between conservative and operative cases or between those with isolated Lisfranc injuries and those with associated foot injuries were not statistically significant (p > 0.05).

CONCLUSION

Lisfranc injury in pediatrics can be easily missed. High index of suspicion, a thorough clinical examination and the use of advanced imaging is warranted. Various modalities like K-wires, screws and suture-buttons can be used for fixation. Early to mid-term functional outcomes are satisfactory provided that adequate reduction is obtained.

Change in the First Cuneiform-Second Metatarsal Distance After Simulated Ligamentous Lisfranc Injury Evaluated by Weightbearing CT Scans

BACKGROUND

This study aimed to investigate the widening between the first cuneiform (C1) and second metatarsal (M2) in a Lisfranc ligamentous complex (LLC) joint injury model subjected to successive ligament dissections evaluated by weightbearing computed tomography (CT) scans.

METHODS

Twenty-four intact cadaveric feet served as the control (condition 1). Each component of the LLC (dorsal, interosseous, and plantar ligaments-conditions 2, 3, and 4, respectively) were then sequentially dissected. The specimens were equally randomized to 1 of 3 additional dissections (first or second tarsometatarsal [TMT] joint capsule or first-second intercuneiform ligament [ICL]-conditions 5a, 5b, and 5c, respectively). One additional ligament was then randomly transected (eg, condition 6ac-transection of the first TMT capsule and ICL). Finally, the remaining ligament was transected (condition 7). After each dissection, CT scans were acquired under nonweightbearing (NWB, 0 kg), partial-weightbearing (PWB, 40 kg), and full-weightbearing (FWB, 80 kg) conditions. The distance between the lateral border of C1 and the medial border of M2 was assessed to evaluate diastasis. Linear regressions with 95% CIs and converted q values were used to compare the measured data.

RESULTS

No significant differences were found within the control. In condition 4, an average axial plane widening relative to control of 1.6 mm (95% CI, 1.5-1.8) and 2.1 mm (95% CI, 1.9-2.2) was observed under PWB and FWB. A coronal plane widening of 1.5 mm (95% CI, 1.3-1.6) and 1.9 mm (95% CI, 1.7-2.1) under PWB and FWB, respectively, was measured. A 95% CI of at least a 2-mm widening during PWB was demonstrated in 5c, 6ac, 6bc, and 7.

CONCLUSIONS

Weightbearing computed tomography (WBCT) scans were used to detect ligamentous Lisfranc injuries in a cadaveric model. Relative axial widening greater than 1.5 mm under PWB conditions could indicate a complete LLC injury. Complete transection of the intercuneiform 1-2 ligament was required to detect a 2-mm widening in the nonweightbearing condition.

CLINICAL RELEVANCE

This study provides insight on the detection of various severities of LLC injuries using WBCT imaging.

Limited internal fixation combined with a joint-spanning external fixator in the treatment of Midfoot injuries in children

The aim of this study was to explore the clinical features and surgical treatment methods of unstable midfoot injuries in children. Eleven children with severe unstable midfoot injuries admitted to Jishuitan Hospital, Beijing, from June 2009 to October 2016 were enrolled, including seven patients with Lisfranc injuries and four patients with Chopart injuries. All Lisfranc injuries had radiographic data from the healthy sides, and radiographs of the affected sides showed that all injured Lisfranc joints separated more than 3 mm compared with the healthy sides. The treatment methods employed a joint-spanning external fixator to distract and maintain the length of the medial and lateral columns, combined with joint-preserving trans-joint locking plate fixation or trans-articular cannulated screw and Kirschner wire fixation that passed through the joint. The patients were followed up for 53.7 months (17-110 months). The average operation time was 95.1 minutes, and the average intraoperative blood loss was 83.3 ml. Nine of the 11 patients were treated with an external fixator to distract and fix the medial or lateral column. Bone healing was achieved in all patients, and none of the patients complained of chronic pain in the midfoot. Flatfoot and valgus deformity were corrected after the surgery in the child with old fracture, and the pain in the calcaneocuboid joint disappeared. The average American Orthopedic Foot and Ankle Society mid-foot score at the last follow-up was 93.4, of which nine cases were greater than 90 and two cases were between 75 and 89. Children's midfoot injury is characterized by fracture-dislocation. Simple joint capsule tear or ligament rupture is rare and often accompanied by severe cuboid compression fracture. The treatment should be focused on restoring the stability of the bony structure and the length of the medial and lateral columns. The use of a joint-spanning external fixator helps maintain reduction and restore the length of the medial and lateral columns.

Acute Fractures and Dislocations of the Ankle and Foot in Children

Distinct biologic and mechanical attributes of the pediatric skeleton translate into fracture patterns, complications, and treatment dilemmas that differ from those of adults. In children, increasing participation in competitive sports activities has led to an increased incidence of acute injuries that affect the foot and ankle. These injuries represent approximately 13% of all pediatric osseous injuries. Important posttraumatic complications include premature physeal arrest, three-dimensional deformities and consequent articular incongruity, compartment syndrome, and infection. The authors describe normal developmental phenomena and injury mechanisms of the ankle and foot and associated imaging findings; mimics and complications of acute fractures; and dislocations that affect the pediatric ankle and foot. Treatment strategies, whether conservative or surgical, are aimed at restoring articular congruency and functional alignment and, for pediatric patients specifically, protecting the physis. The different types of ankle and foot fractures are described, and the American College of Radiology guidelines used to determine appropriate imaging recommendations for patients who meet the Ottawa ankle and foot rules are discussed. The systems used to classify clinically important fractures, including the Salter-Harris, Dias-Tachdjian, Rapariz, and Hawkins systems, are described, with illustrations that reinforce key concepts. These classification systems aid in diagnosis and treatment planning, facilitate communication, and help standardize documentation and research. This information is intended to supplement radiologists' understanding of developmental phenomena, anatomic variants, fracture patterns, and associated complications that affect the pediatric foot and ankle. In addition, the role of imaging in ensuring appropriate treatment, follow-up, and patient and parent counseling is highlighted. The online slide presentation from the RSNA Annual Meeting is available for this article. ^©RSNA, 2020.

Imaging in Lisfranc injury: a systematic literature review

OBJECTIVES

To systematically review current diagnostic imaging options for assessment of the Lisfranc joint.

MATERIALS AND METHODS

PubMed and ScienceDirect were systematically searched. Thirty articles were subdivided by imaging modality: conventional radiography (17 articles), ultrasonography (six articles), computed tomography (CT) (four articles), and magnetic resonance imaging (MRI) (11 articles). Some articles discussed multiple modalities. The following data were extracted: imaging modality, measurement methods, participant number, sensitivity, specificity, and measurement technique accuracy. Methodological quality was assessed by the QUADAS-2 tool.

RESULTS

Conventional radiography commonly assesses Lisfranc injuries by evaluating the distance between either the first and second metatarsal base (M1-M2) or the medial cuneiform and second metatarsal base (C1-M2) and the congruence between each metatarsal base and its connecting tarsal bone. For ultrasonography, C1-M2 distance and dorsal Lisfranc ligament (DLL) length and thickness are evaluated. CT clarifies tarsometatarsal (TMT) joint alignment and occult fractures obscured on radiographs. Most MRI studies assessed Lisfranc ligament integrity. Overall, included studies show low bias for all domains except patient selection and are applicable to daily practice.

CONCLUSIONS

While conventional radiography can demonstrate frank diastasis at the TMT joints; applying weightbearing can improve the viewer's capacity to detect subtle Lisfranc injury by radiography. Although ultrasonography can evaluate the DLL, its accuracy for diagnosing Lisfranc instability remains unproven. CT is more beneficial than radiography for detecting non-displaced fractures and minimal osseous subluxation. MRI is clearly the best for detecting ligament abnormalities; however, its utility for detecting subtle Lisfranc instability needs further investigation. Overall, the available studies' methodological quality was satisfactory.

The Community Orthopaedic Surgeon Taking Trauma Call: Pediatric Foot Fracture Pearls and Pitfalls

Although foot fractures are relatively rare in children, they deserve respect and attention because they may be associated with troublesome long-term consequences. These injuries are more common in adolescents and teenagers. In an epidemiological study in Britain (Cooper et al 2004), the incidence of pediatric foot fractures was 10.5 per 10,000 children occurring equally in boys and girls and peaking around 13 years of age. This article focuses on 5 fracture types which are at higher risk of complications in the pediatric and adolescent age group.