Deltoid Ligament Repair

Bluman,,PhD, Eric

doi:https://doi.org/10.24296/jomi/91

Main Text

Injury to the medial deltoid ligament complex is rare as it is the strongest of the ankle ligaments. However, damage to this structure can occur, often in association with an avulsion fracture of the medial malleolus due to the ligamentous strength of the complex. Deltoid ligament repair remains a primary option for patients with severe acute injuries, or patients with chronic instability who have failed conservative measures. Repair of the medial ankle ligaments provides improved stability with reduced risk of recurrent sprains and potential damage to local cartilage. We present a case of a young woman with concomitant medial and lateral ankle instability who successfully underwent deltoid ligament repair for her medial ligament injury.

Ankle sprain; medial ligament complex; deltoid ligament repair; ankle instability.

Injury to the medial deltoid ligaments is rare as collectively this complex is the strongest of the ankle ligaments.¹ However, damage to this structure can occur, often in association with an avulsion fracture of the medial malleolus due to the ligamentous strength of the complex.¹¹ The deltoid ligament is comprised of the medial collateral ligaments of the ankle, with a superficial layer that includes the tibionavicular, tibiospring, tibiocalcaneal, and superficial posterior tibiotalar ligaments, as well as a deep layer that includes the anterior tibiotalar and deep posterior tibiotalar ligaments.² Diagnosis and management of medial ankle instability remain challenging and are rarely discussed in the literature. We present a case of medial ankle instability due to injury to the deltoid ligament managed successfully by open repair.

This patient presented with medial ankle pain and reported instability in association with concomitant lateral ankle instability. Typically, patients report the onset of symptoms following an acute traumatic eversion event, with inability to bear weight.³ Patients may also present with a more chronic injury to the medial ankle region, with the ankle described as “giving way” or loose, particularly on uneven ground. Pain may be reported, and often radiates laterally due to subfibular impingement from associated hindfoot valgus.

In assessment of ankle injuries, obtaining information such as the nature of the injury, whether the patient could weight bear following the injury, and whether prior injury has occurred is critical to the history for treatment planning purposes.³

Physical examination of patients with suspected medial ankle instability should begin with bilateral inspection of the ankles in standing, walking, and sitting position.^3, 4 The examiner should note any swelling, hematoma, malalignment, deformity, or scars, as well as asymmetrical planovalgus and abductus upon weight-bearing. Inspection should be followed by palpation of the medial and lateral ligaments and joint spaces in addition to the syndesmosis and posterior tibial, peroneal, and Achilles tendons. Tenderness in the medial gutter overlying the deltoid ligament is commonly seen with injury. Tenderness along the posterior tibial tendon may indicate associated posterior tibial tendon insufficiency, which often co-occurs. Eversion and external rotation stress tests can assess stability of the deep and superficial deltoid ligaments, and the anterior drawer test may be used to diagnose anteromedial subluxation.

For acute injuries, standard radiographs should be obtained to exclude concurrent widening of the medial ankle clear space, deltoid avulsion fragments, syndesmotic injuries, and ankle fractures.^3, 4 MRI and ultrasound play an important adjunct role to be used when acute or chronic injury is suspected. Preoperative MRI can help elucidate associated pathology and provide valuable insight into operative planning; however, up to 20% of patients will have false negative results on MRI when evaluating acute deltoid ligament complex injury.⁵ Ultrasound has been shown to be useful particularly in acute ligamentous ankle injuries, with a sensitivity of 94% and specificity of 100% in detecting anterior talofibular ligament tears against MRI.^6–8

Isolated acute medial ankle instability as a result of minor deltoid ligament injury may be managed conservatively and some patients may become asymptomatic depending on the severity of the tear. However, patients remain at risk for progression to chronic medial ankle instability, injury recurrence, and long-term complications such as osteoarthritis.³ Severe ankle injury is unlikely to improve without intervention, with a greater risk of these complications.

Conservative management with protection, rest, ice, compression, and elevation may be attempted for minor isolated acute injuries for 1–2 weeks. A soft ankle orthosis may be added for Grade I sprains, though Grade II–III sprains may require a stronger brace or walker to prevent eversion for up to 6 weeks. Physiotherapy protocols should be included as early as possible to maximize range of motion and strength.

Isolated acute Grade II–III sprains may require operative intervention if evaluation reveals additional injuries or the patient participates in high-level athletics. Arthroscopy should be employed to confirm diagnosis before further surgical intervention such as deltoid ligament repair.

Chronic medial ankle instability may be treated with similar conservative measures for 3–6 months, at which time patients may be considered for operative intervention including deltoid ligament repair if they fail to become asymptomatic, or if associated pathology warrants earlier intervention. Patients with limitations in their daily activities, recurrent sprains, or worsening deformities are indicated for surgical intervention.

Surgical intervention with deltoid ligament repair can significantly improve stabilization of the medial ankle ligament complex and prevent progression to chronic instability.³ Goals of surgery also include the correction of deformities such as hindfoot valgus or pes planovalgus et abductus, and prevention of future sprains and potential damage to the cartilage. Common associated injuries are addressed on a case-by-case basis depending on the type and severity of co-injury.

The patient successfully underwent deltoid ligament repair. An incision was made over the medial gutter of the ankle, and dissection was carried down to the anterior fibers of the deltoid ligament. The saphenous nerve and vein were protected. An avulsion of the anterior fibers of the deltoid ligament off of the anterior aspect of the medial malleolus was noted. Laxity of the incompetent ligament was observed upon testing for range of motion intraoperatively. A rasp was used to prepare the bone prior to drilling, and the resulting debris was irrigated out of the wound. Drill holes were made proximally, and a suture anchor was placed. The sutures were then passed through the proximal portion of the anterior fibers of the deltoid ligament, and these were tied down to their origin. The ankle was put through a range of motion to test for stability and ensure that the repair remained intact under stress. The wound was then thoroughly irrigated and closed in a layered fashion.

Conservative measures have been shown to be helpful for patients with minor medial ankle injuries. Physiotherapy programs may improve range of motion and muscular strength leading to better stabilization, and these measures are typically incorporated as soon as the patient is able following an acute injury. For more severe injuries including Grade II–III ankle sprains, operative intervention may be required in the setting of additional injury, including fractures, dislocation, and injuries to the syndesmosis.³

Of note, ankle arthroscopy should be performed prior to deltoid ligament repair to confirm the diagnosis, assess the degree of insufficiency, and to exclude additional pathology.⁹ More recently, a new treatment strategy involving augmentation of the repaired ligament construct with an internal brace has been employed.¹⁰ Patients undergoing this procedure were shown to have significantly improved FAAM and SF-36 scores with no evidence tradeoff in terms of stability or reoperation. While further study is needed, this may be of benefit to future patients with chronic medial ankle instability.

Although the arthroscopic evaluation for this case was not filmed, Figure 1 represents a similar case of the avulsion of medial fibers of the superficial deltoid ligament.¹⁷

Figure 1. The arthroscopic view shows avulsion of the tibio-spring ligament (TSL), and the exposed talar head (TH). The posterior tibial tendon (PTT) is retracted in a plantar direction.

Some degree of controversy exists surrounding the need to perform deltoid ligament repair in the context of a malleolar fracture. Yu et al. reported 131 patients with ankle fractures and noted a significant improvement in AOFAS ankle-hindfoot scores, visual analog scale (VAS) scores, and Medical Outcomes Study Short Form 36-item questionnaire scores compared to preoperative status.⁵ However, several studies are questioning the necessity of repairing the deltoid ligament if a successful open reduction and internal fixation (ORIF) was performed.^11–13 Patients described “satisfactory” outcomes when ORIF was performed without deltoid ligament repair. Of note, these studies did report a significant finding of residual ankle pain in long-term follow up, so further study is warranted.

Deltoid ligament reconstruction may also be performed in the setting of valgus ankle osteoarthritis when a corrective osseous procedure is also planned.^14,15 Due to the nature of longstanding osseous abnormalities associated with the pathogenesis of osteoarthritis, isolated deltoid ligament repair is unlikely to be effective as a treatment option, but may be used as an adjunct to a corrective osseous procedure as described by Pagenstert.¹⁶

Depuy Mitek Suture Anchor
Rasp
Self-stopping drill guide
Surgical drill

Nothing to disclose.

The patient referred to in this video article has given their informed consent to be filmed and is aware that information and images will be published online.

This article is the companion to the following JOMI articles by Dr. Eric Bluman, MD, PhD:

Citations

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Hintermann B, Golanó P. The anatomy and function of the deltoid ligament. Tech Foot Ankle Surg. 2014;13(2):67-72. doi:10.1097/BTF.0000000000000044.
Alshalawi S, Galhoum AE, Alrashidi Y, et al. Medial ankle instability: the deltoid dilemma. Foot Ankle Clin. 2018;23(4):639-657. doi:10.1016/j.fcl.2018.07.008.
Corte-Real N, Caetano J. Ankle and syndesmosis instability: consensus and controversies. EFORT Open Rev. 2021 Jun 28;6(6):420-431. doi:10.1302/2058-5241.6.210017.
Yu GR, Zhang MZ, Aiyer A, et al. Repair of the acute deltoid ligament complex rupture associated with ankle fractures: a multicenter clinical study. J Foot Ankle Surg. 2015;54(2):198-202. doi:10.1053/j.jfas.2014.12.013.
Henari S, Banks LN, Radiovanovic I, Queally J, Morris S. Ultrasonography as a diagnostic tool in assessing deltoid ligament injury in supination external rotation fractures of the ankle. Orthopedics. 2011;34(10). doi:10.3928/01477447-20110826-11.
Allison SJ, Nazarian LN. Musculoskeletal ultrasound: evaluation of ankle tendons and ligaments. AJR Am J Roentgenol. 2010;194(6). doi:10.2214/AJR.09.4067.
Sconfienza LM, Orlandi D, Lacelli F, Serafini G, Silvestri E. Dynamic high-resolution US of ankle and midfoot ligaments: normal anatomic structure and imaging technique. Radiographics. 2015 Jan-Feb;35(1):164-78. doi:10.1148/rg.351130139.
Arthur D, Pyle C, Shymon SJ, Lee D, Harris T. Correlating arthroscopic and radiographic findings of deep deltoid ligament injuries in rotational ankle fractures. Foot Ankle Int. 2020;42(3). doi:10.1177/1071100720962796.
Pellegrini MJ, Torres N, Cuchacovich NR, Huertas P, Muñoz G, Carcuro GM. Chronic deltoid ligament insufficiency repair with Internal BraceTM augmentation. Foot Ankle Surg. 2019;25(6):812-818. doi:10.1016/j.fas.2018.10.004.
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Dabash S, Elabd A, Potter E, et al. Adding deltoid ligament repair in ankle fracture treatment: Is it necessary? A systematic review. Foot Ankle Surg. 2019 Dec;25(6):714-720. doi:10.1016/j.fas.2018.11.001.
Hunt KJ, Phisitkul P, Pirolo J, Amendola A. High ankle sprains and syndesmotic injuries in athletes. J Am Acad Orthop Surg. 2015 Nov;23(11):661-73. doi:10.5435/JAAOS-D-13-00135.
Hogan MC V, Dare DM, Deland JT. Is deltoid and lateral ligament reconstruction necessary in varus and valgus ankle osteoarthritis, and how should these procedures be performed? Foot Ankle Clin. 2013;18(3):517-527. doi:10.1016/j.fcl.2013.06.012.
Savage-Elliott I, Murawski CD, Smyth NA, Golanó P, Kennedy JG. The deltoid ligament: an in-depth review of anatomy, function, and treatment strategies. Knee Surg Sport Traumatol Arthrosc. 2013;21(6):1316-1327. doi:10.1007/s00167-012-2159-3.
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Cite this article

John Doe, Eric Bluman, MD, PhD. Deltoid ligament repair. J Med Insight. 2024;2024(91). https://doi.org/10.24296/jomi/91

Procedure Outline

An incision was made over the medial gutter of the ankle.
Dissection was carried down to find the anterior fibers of the deltoid ligament.
Careful dissection was performed and great care was taken to protect the saphenous nerve and vein.
- It was clear from the arthroscopy that had been done previously that the anterior fibers of the deltoid had been avulsed off the anterior portion of the medial malleolus.

This area was further cleaned of fibrous tissue.

The ankle was put through a range of motion to test for stability and demonstrate laxity of the incompetent ligament.

A rasp was used to prepare the bone prior to drilling, and the resulting debris was irrigated out of the wound.

Drill holes were made, and a suture anchor was placed.
The sutures were then passed through the proximal portion of the anterior fibers of the deltoid ligament, and these were tied down to their origin.

The ankle was put through a range of motion to test for stability and ensure that the repair remained intact under stress.

After this had been done, the wound was thoroughly irrigated and closed in a layered fashion.

Transcription

CHAPTER 1

So basically now, we've shown through our arthroscopic evaluation of the joint that there's a deltoid deficiency. Superficial deltoid ligaments are shown to be avulsed. We did a functional test showing that they're not working properly, so we're going to go ahead and do an open repair now. And what I'll do is - using that medial portal, we're going to make an incision over the anterior portion of the medial malleolus. And I'm gonna use some surface anatomy, palpate that area, and I'm gonna just extend this right like that. And we’ll probably have to adjust that as we go. Alright. So we're going to just make an incision. Structures we need to watch out for in this area are the saphenous vein and nerve. This can be a fairly linear incision. A little bit of curve to it is okay. Forceps, please. And we're just going to deepen this straight down, watching out for any neurovascular structures that we can avoid. So we're again, give me some Bovie. Great. Thank you. I'm going to need to extend this a little more. And get through this fibro-fatty tissue over the anterior portion of the joint. A little bit of distension because of the arthroscopy but not - not too bad. Can we have a 2-3 self-retainer, please? Yeah. Little stretch on the tissues, and basically, continue with our sharp dissection, straight down. And this is basically our capsule, right here. Let me convert to Metzenbaums. We're going to enter the joint here. Come from the top there. Alright, come - come down this way a little bit more - yeah, yeah. Yep. And now we're in the joint.

CHAPTER 2

Let me have a knife, please? Yep, just what we saw - there’s that little bit of scar tissue. That's a pretty good view. There's that scar tissue that we didn't clean out that we’ll clean out right now. And there is your stump. There’s your stump of deltoid right there. Clean out this. We may be able to use some of the stump to sew to, so I'm not going to totally get rid of it. I'm going to take a knife. And switch back in a little. Better. There we go - that’s nice. I think right there is the saphenous nerve. Right over here? Yeah, yep. So we got that well protected. And there you can see this area here where it's a avulsed from the bone. I’m peeling back some tissue. Yeah. This is his nice thick capsular tissue, and we're going to put it right back in there - close it right down to that raw area, which I'm going to freshen up with a rongeur. Take this whole area - confluent capsule and deltoid ligament - and put it in there. I'm going to - I thought I was going to be able to use that. I think that we may need to just remove that. Let me have a knife, please. Guys, how's it looking? Yours looks great. I just - at back - I need to move it to my right. Yeah. What else? That's it. Good. Not too deep, but it's - you know, it's not the - not the biggest incision in the world. Okay so now, we've got the front of the medial malleolus cleared off pretty well, and I'm going to expose some raw bone to facilitate healing of the - of the - of the anterior deltoid ligament fibers back to the medial malleolus.

CHAPTER 3

There you go. Yep. Look at that - wow. That's really popping out there.

CHAPTER 4

So we're going to take a rasp, and I'm going to freshen up the front edge here. We’ll irrigate out the joint a little bit and make sure that we don't take any of this slurry into the joint. Good. Alright, let's irrigate a little bit here. And just cleaning out any debris from the joint. Things are looking pretty good. Yeah, looks great.

CHAPTER 5

So again, we’ll find that slip - we’ll see this slip of tissue that we're going to grab. And this is this - avulsed. Yeah. This is just a drill guide - self-stop. We're going to create a pilot hole for the - for the suture anchor, and I'm going to put it right up in the axilla here. I'm not going to put it in the joint. I don't want to put it too far from the joint. I'm going to put it right up here. I'm going to cant it a little bit superior and medial - make sure it's in really good bone within the medial malleolus and drill. And just create that pilot hole. You can see it right there. This is the suture anchor we're going to use. You don't need a huge suture anchor. We're just going to use it to hike up the tissue, hold it in place, anchor it there until - until we get healing. So here it goes - right into the pilot hole. I'm going to orient the tines parallel with the middle malleolus. Give me something to grab this with because these are always problematic. And then release the sutures. Double-armed. And then we're gonna take this nice, big, thick cuff of tissue here. And get a big, big bite of it. And Greg, I'm going to have you just come up here. Push the foot up. And I'm going to show you - this is gonna slip right up into this area here. Just a simple suture, here. Okay? So you can oppose the tissues there nicely. Anchor that up there, and then - We're gonna put some reinforcement sutures using a #1 Vicryl. I got it. Yep, I got it. We're gonna put a 2-3 retainer in here, just deep enough so that we can see - you can see that that has corrected nicely, and now we're just gonna reinforce it with some of these fibers here and some of these fibers here. And again, taking nice, healthy bites of tissue, we're just going to repair it. Can probably take it in one? Oh, we'll take it in two. And I'll just do some figure-of-eights here. Scissor, please. Let's put one more in here.

CHAPTER 6

Okay, cut, please. Okay. Needle back. Let’s test this out now. So, I’m going to feel just to make sure that she’s got good range of motion, I don't feel any crepitance, and then I'm going to - oh yeah. Oh yeah. So we’re - we’re much more stable - oh yeah - on the medial side. We still have some lateral instability, but we're going to take care of that right now. So why don't we do this - why don’t we close this up right now. Can I have a 3-0 Vicryl - Monocryl? Do you want a 4? 3 or 4 is fine.

CHAPTER 7

Yeah, you don't need to go that deep. Just get the skin. Yeah. Yeah. I’ll take scissors, please. Alright, good. We'll take nylon now.

DOI
Publication Date	2024/07/18
Article ID	91
Production ID	0091
Volume	2024
Issue	91
https://doi.org/10.24296/jomi/91

Deltoid Ligament Repair

Main Text

Table of Contents

Abstract

Keywords

Case Overview

Background

Focused History of the Patient

Physical Exam

Imaging

Natural History

Options for Treatment

Rationale for Treatment

Discussion

Equipment

Disclosures

Additional Information

Citations

Cite this article

Procedure Outline

Table of Contents

1. Exposure

2. Debridement

3. Examine for Instability

4. Rasp and Irrigate

5. Repair Ligament

6. Test Repair

7. Closure