INTRODUCTION

Anterior cruciate ligament tibial avulsion fractures involve separation of the ACL from its tibial insertion while the ligament substance remains intact¹. These injuries are relatively uncommon but are increasingly recognized following sports injuries, road-traffic accidents, and high-energy trauma².

The modified Meyers and McKeever classification categorizes these injuries based on the degree of displacement and comminution¹˒³. Type I injuries are minimally displaced and are typically treated conservatively. However, displaced fractures (Types II–IV) usually require surgical fixation to restore normal ACL tension and prevent residual anterior instability⁴.

Historically, open reduction and internal fixation were used to treat these injuries. With advances in arthroscopic techniques, minimally invasive fixation methods have largely replaced open surgery due to better visualization of intra-articular structures, reduced soft-tissue trauma, and faster rehabilitation⁵.

Several fixation techniques have been described including cannulated screw fixation, suture anchors, and transosseous suture techniques⁶˒⁷. While screw fixation provides rigid compression, it may not be suitable in comminuted fragments and sometimes requires hardware removal⁶. High-strength suture constructs using modern materials such as FiberWire have demonstrated biomechanical strength comparable to screw fixation while avoiding hardware complications⁸.

The present study evaluates the outcomes of arthroscopic fixation using a luggage-tag FiberWire configuration with dual tibial tunnels and suture disc fixation in adult patients with displaced ACL tibial avulsion fractures.

MATERIALS AND METHODS

Study Design: A prospective case series was conducted at a tertiary orthopaedic center between November 2024 and December  2025. Institutional approval was obtained prior to commencement of the study.

Patient Demographics: 

Inclusion Criteria:

• Meyers and McKeever Type II–IV fractures
• Surgery performed within 3 weeks of injury

Exclusion Criteria:

• Multiligament knee injury
• Associated tibial plateau fracture
• Previous knee surgery
• Chronic avulsion fractures (>6 weeks)

Fracture Distribution

Surgical Technique:

Patient Positioning and Anesthesia: The  procedure is performed under spinal or general anesthesia. A high-thigh pneumatic tourniquet is applied but inflated only after limb exsanguination.

The patient is placed supine on a radiolucent operating table with the operative leg in hanging leg position or secured in a leg holder allowing approximately 90° of knee flexion. The contralateral limb is positioned in an abduction stirrup.

The entire lower limb is prepared and draped in a sterile manner from mid-thigh to foot.

Portal Placement: Standard arthroscopic portals are established:

Anterolateral portal: Used as the primary viewing portal and placed just lateral to the patellar tendon at the level of the inferior pole of the patella.

Anteromedial portal: Created under direct visualization using a spinal needle to ensure appropriate trajectory toward the tibial eminence.

A Passport cannula is introduced through the anteromedial portal to facilitate suture management and prevent soft-tissue bridging.

Diagnostic Arthroscopy and Fracture Bed Preparation

1. Evacuate hemarthrosis

2. Evaluate ACL integrity

3. Assess menisci and articular cartilage

4. Identify interposed soft tissue

Soft-tissue structures such as the intermeniscal ligament or fibrous debris that prevent fragment reduction are removed using a shaver or radiofrequency probe.The fracture crater is gently debrided to expose fresh cancellous bone while preserving the size and morphology of the avulsed fragment.

Luggage-Tag FiberWire Configuration: High-strength nonabsorbable FiberWire suture is used.

First Stitch: A suture passer is introduced through the Passport cannula and passed through the ACL substance 5–7 mm proximal to the tibial insertion.

The free suture end is then passed through its own loop to create a self-cinching luggage-tag configuration.

This construct provides:

• Circumferential ligament capture
• Even load distribution
• Reduced risk of suture cut-through

Second Stitch: A second luggage-tag stitch is placed posteriorly within the ACL substance.

This step provides:

• Rotational stability
• Balanced force distribution
• Secure capture of both ACL bundles

Tibial Tunnel Preparation: An ACL tibial guide is introduced through the anteromedial portal and positioned at the medial margin of the fracture bed.

First Tunnel: A 2.7-mm guide pin is drilled from the anteromedial tibial cortex exiting at the medial aspect of the fracture crater.

Second Tunnel: The guide is repositioned laterally and a second tunnel is drilled while maintaining a 1-cm bone bridge between tunnels.

Preserving the bone bridge is essential to: