Brostrom-Gould Procedure for Lateral Ankle Instability
Main Text
Table of Contents
Acute ankle sprains are most frequently treated conservatively, although some surgeons may advocate acute repairs in certain situations. Surgery is indicated for chronic sprains with persistent ankle instability despite well-designed conservative management. Several anatomic and nonanatomic operative procedures are available. The Broström-Gould procedure is a widely-used operative intervention for the treatment of chronic lateral ankle sprains. It consists of an anatomic repair or reconstruction of the injured lateral ankle ligament complex (Broström procedure), followed by suturing of the inferior extensor retinaculum to the periosteum of the distal fibula (Gould modification).
This article describes the standard Broström-Gould procedure starting with the identification of the anatomic landmarks. The skin incision follows the anterior border of the distal fibula, and careful subcutaneous dissection is carried out to expose the extensor retinaculum and the torn ligaments. This is followed by bone preparation and ligament repair utilizing a box stitch technique while holding the ankle in an appropriate position. Finally, the Gould portion of the procedure is demonstrated.
Lateral ankle instability; chronic ankle sprains; foot and ankle; ankle ligament repair; Gould modification.
Ankle injuries are among the most common complaints presenting to primary care and emergency departments.1–5 The majority of acute tears are managed conservatively, except in the case of severe injury.6 Chronic ankle sprains may result, involving persistent ankle instability and/or pain refractory to conservative management for an acute ligament injury. Surgery is indicated for chronic sprains after initial management fails.7 A variety of procedures are available to aid in surgical correction; the Broström procedure is a widely-used intervention to address lateral ankle instability in association with a chronic sprain. The Broström procedure consists of an anatomic repair or reconstruction of the injured lateral ankle ligament complex, and it is often accompanied by the Gould modification, which subsequently attaches the inferior extensor retinaculum to the periosteum of the distal fibula via suture.7
This patient presented with lateral ankle instability in association with a chronic sprain. Her acute injury involved an inversion of a plantar-flexed foot leading to injury of the lateral ankle ligament complex. Persistent pain and instability were noted, and the patient underwent peroneal tendoscopy, which identified a chronic injury to the ligament complex and the need for definitive surgical repair.
In assessment of ankle injuries, obtaining information such as the nature of the injury, whether the patient could bear weight following the injury, and whether a prior injury has occurred is critical to the history for treatment planning purposes.6, 8
Ankle injuries often present with swelling and ecchymosis, which may or may not persist in chronic cases. Pain is also an important symptom and is used in grade determination.6 Palpation of the entire fibula is warranted, as well as areas required for the criteria within the Ottawa ankle rules. Additional physical exam tests should include determination of current weight-bearing ability, as well as special tests including the squeeze test, the external rotation stress test, the anterior drawer test, and the talar tilt test. It should be noted that these special tests are often clinically helpful but have not been studied extensively.6
Plain radiographs are sufficient in diagnosing concomitant fractures in acute ankle sprains.6 Patient selection for radiography in acute injuries should be made in association with the Ottawa ankle rules.9 Ankle sprains with persistent pain up to 8 weeks following initial presentation may benefit from MRI to detect soft tissue injury, suspected syndesmosis, or talar dome fractures.6, 10 Peroneal tendoscopy may be performed in refractory cases as a supplementary diagnostic measure.
Approximately 30% of patients with acute sprains develop some degree of chronic ankle instability.7, 11 Notably, a cohort study of patients with chronic ankle injury found no correlation between the severity of the initial injury and the degree of residual instability.12 The majority of patients who develop chronic ankle injury will continue to demonstrate features of instability unless a surgical correction is performed, and surgery should be offered to patients who are avoiding or modifying daily or sporting activities as a result of the injury.
For patients with chronic ankle instability or pain limiting daily or sporting functions, surgery is advised. Most patients will achieve satisfactory recovery via the Broström or Broström-Gould procedure;13,14 however, in high-demand individuals and athletes, the standard Broström procedure may be inadequate, and additional augmentation, such as the Evans procedure involving split transfer of the peroneus brevis, may be performed.7
The purpose of the Broström procedure is to correct the injury to the lateral ankle ligament complex. The subsequent Gould modification attaches the inferior extensor retinaculum to the periosteum of the distal fibula via suture. The combination of these procedures corrects locally-scarred tissues in and around the ligament complex and provides sufficient stabilization in most patients.7
This patient underwent successful repair of a chronic lateral ankle injury via the Broström-Gould procedure. A 6-cm skin incision was made following the anterior border of the distal fibula, starting 4 cm proximal to the tip of the fibula and curving toward the sinus tarsi, followed by careful subcutaneous dissection down to the extensor retinaculum and torn ligaments. The anterior central branch of the superior peroneal nerve was identified and preserved, as well as the sural nerve posteriorly. Bone preparation and ligament repair attaching the anterior talofibular ligament to the calcaneofibular ligament was performed using a box stitch technique with #1 Ethibond sutures while manually stabilizing the ankle in an appropriately-dorsiflexed and everted position. The Gould modification was performed, anchoring the inferior extensor retinaculum to the periosteum of the distal fibula via suture. A two-layer closure was performed, and wound dressing and posterior splinting were applied for the recovery period.
The Broström-Gould procedure offers several advantages that have made it a preferred surgical intervention for chronic lateral ankle instability. It is relatively simple to perform, uses a small cosmetic incision, protects the sural nerve, does not require the sacrifice of the peroneal tendon, and provides an anatomic reconstruction maintaining full range of motion with limited potential for locking the subtalar joint in eversion.7 Outcomes are good to excellent, with 85–95% of patients achieving a successful outcome without nerve injury or major complications.13,14 A systematic review of 11 studies involving 669 Broström-Gould procedures reported a revision rate of 1.2% at a weighted mean follow-up period of 8.4 years.15 While open repair remains a standard and commonly-recommended approach, recent research investigating arthroscopic repair has demonstrated similar efficacy with smaller incisions, shorter recovery, and lower pain scores, but increased cost and operating times.16–18
In certain high-demand individuals, the Broström-Gould procedure alone may provide an inadequate repair, and augmentation with an Evans procedure should be considered.7 First described in 1953, the Evans procedure involves division of the peroneus brevis tendon, passing of one muscle belly through a tunnel drilled into the fibula, and reattachment to the other muscle belly on the opposite side.19 Two modifications to this approach have been made since its initial description. The first is a routing of the entire peroneus brevis through the fibular tunnel posteriorly-superiorly, and then reattaching it to the periosteum or adjacent to its insertion at the base of the fifth metatarsal. This approach allows the reconstruction to act as a tenodesis rather than a dynamic stabilizer. The second modification is known as the “split Evans procedure,” in which a portion of the tendon is divided, passed through the fibular tunnel, and sutured to the fibular periosteum.20 This approach reduces the potential concern for “locking” the subtalar joint in eversion, as with a standard Evans approach. Each of these augmentations may be considered in highly-active patients undergoing surgical repair for chronic lateral ankle instability. A retrospective case series of 19 patients undergoing a Broström-Evans modified repair identified minimal loss of peroneal strength, decreased inversion range of motion, and no recurrent instability or progressive symptomatic subtalar arthritis requiring reoperation at long-term follow-up.21 The decreased range of motion identified in these patients suggests that certain performance activities, such as dance, gymnastics, and ice skating may be contraindications to this augmented approach.7
Postoperative management for stabilizing procedures for lateral ankle instability involves placement in a non-weight bearing splint in slight plantar flexion and eversion for 2 weeks, followed by a weight-bearing cast in the neutral position for 2–3 weeks.7 Exercises and formal physical therapy are generally recommended at this point in recovery using a basic ankle brace. Inversion is generally avoided for up to 12 weeks, and cutting activities are avoided for 14–16 weeks. Sport-specific conditioning and a gradual return to sport usually occur at approximately 4 months postoperatively.
Proprioceptive training may be an acceptable therapeutic modality for patients with chronic ankle instability before surgery. There is evidence to suggest that strength and balance exercises contribute to improved ankle strength, range of motion, and perceived ankle stability in comparison to usual care.22–24 A systematic review of seven trials involving 3726 participants identified a statistically significant decrease in ankle sprain incidence in patients who had undergone proprioceptive training (RR=0.65, 95% CI 0.55–0.77), including patients with a history of ankle sprain (RR=0.64, 95% CI 0.51–0.81).25 One study assessing a 6-week proprioceptive training program in 70 athletes with chronic ankle instability reported no significant difference in pain scores between intervention and control groups; however, further study is warranted as most studies have not identified pain as a primary outcome.26 As such, proprioceptive training may have preventive or therapeutic benefit in patients with or at risk for a lateral ankle injury.6
No special equipment used.
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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- Waterman BR, Owens BD, Davey S, Zacchilli MA, Belmont PJ. The epidemiology of ankle sprains in the United States. J Bone Joint Surg - Series A. 2010;92(13):2279-2284. doi:10.2106/JBJS.I.01537.
- Fong DTP, Hong Y, Chan LK, Yung PSH, Chan KM. A systematic review on ankle injury and ankle sprain in sports. Sport Med. 2007;37(1):73-94. doi:10.2165/00007256-200737010-00006.
- Vuurberg G, Hoorntje A, Wink LM, et al. Diagnosis, treatment and prevention of ankle sprains: update of an evidence-based clinical guideline. Brit J Sport Med. 2018;52(15):956. doi:10.1136/bjsports-2017-098106.
- Doherty C, Delahunt E, Caulfield B, Hertel J, Ryan J, Bleakley C. The incidence and prevalence of ankle sprain injury: a systematic review and meta-analysis of prospective epidemiological studies. Sport Med. 2014;44(1):123-140. doi:10.1007/s40279-013-0102-5.
- Maughan KL. Ankle Sprain. In: Post TW, ed. UpToDate. 2020.
- Hunt KJ, Anderson RB, Hamilton WG. Lateral ankle ligament reconstruction with and without split peroneus brevis tendon augmentation. In: Master Techniques in Orthopaedic Surgery: The Foot and Ankle. 2013:459-477.
- McKay GD, Goldie PA, Payne WR, Oakes BW. Ankle injuries in basketball: injury rate and risk factors. Brit J Sport Med. 2001;35(2):103-108. doi:10.1136/bjsm.35.2.103.
- Stiell IG. Decision rules for the use of radiography in acute ankle injuries. Refinement and prospective validation. JAMA. 1993;269(9):1127-1132. doi:10.1001/jama.269.9.1127.
- Nikken JJ, Oei EHG, Ginai AZ, et al. Acute ankle trauma: value of a short dedicated extremity MR imaging examination in prediction of need for treatment. Radiology. 2005;234(1):134-142. doi:10.1148/radiol.2341031060.
- Miklovic TM, Donovan L, Protzuk OA, Kang MS, Feger MA. Acute lateral ankle sprain to chronic ankle instability: a pathway of dysfunction. Phys and Sport Med. 2018;46(1):116-122. doi:10.1080/00913847.2018.1409604.
- Konradsen L, Bech L, Ehrenbjerg M, Nickelsen T. Seven years follow-up after ankle inversion trauma. Scand J Med Sci Sport. 2002;12(3):129-135. doi:10.1034/j.1600-0838.2002.02104.x.
- DiGiovanni BF, Partal G, Baumhauer JF. Acute ankle injury and chronic lateral instability in the athlete. Clin Sport Med. 2004;23(1):1-19. doi:10.1016/S0278-5919(03)00095-4.
- Baumhauer JF, O'Brien T. Surgical considerations in the treatment of ankle instability. J Athl Train. 2002 Dec;37(4):458-462.
- So E, Preston N, Holmes T. Intermediate- to long-term longevity and incidence of revision of the modified Broström-Gould procedure for lateral ankle ligament repair: a systematic review. J Foot Ankle Surg. 2017;56(5):1076-1080. doi:10.1053/j.jfas.2017.05.018.
- Rigby RB, Cottom JM. A comparison of the “all-inside” arthroscopic Broström procedure with the traditional open modified Broström-Gould technique: a review of 62 patients. Foot Ankle Surg. 2019;25(1):31-36. doi:10.1016/j.fas.2017.07.642.
- Woo BJ, Lai MC, Koo K. Arthroscopic Versus Open Broström-Gould Repair for Chronic Ankle Instability. Foot Ankle Int. 2020 Jun;41(6):647-653. doi:10.1177/1071100720914860.
- Zeng G, Hu X, Liu W, et al. Open Broström-Gould repair vs arthroscopic anatomical repair of the anterior talofibular ligament for chronic lateral ankle instability. Foot Ankle Int. 2020;41(1):44-49. doi:10.1177/1071100719875964.
- Evans DL. Recurrent instability of the ankle—a method of surgical treatment. J Roy Soc Med. 1953;46(5):343-344. doi:10.1177/003591575304600507.
- Shibuya N, Bazán DI, Evans AM, Agarwal MR, Jupiter DC. Efficacy and safety of split peroneal tendon lateral ankle stabilization. J Foot Ankle Surg. 2016;55(4):812-816. doi:10.1053/j.jfas.2015.07.017.
- Hsu AR, Ardoin GT, Davis WH, Anderson RB. Intermediate and long-term outcomes of the modified Broström-Evans procedure for lateral ankle ligament reconstruction. Foot Ankle Spec. 2016;9(2):131-139. doi:10.1177/1938640015609970.
- Faizullin I, Faizullina E. Effects of balance training on post-sprained ankle joint instability. Int J Risk Safe Med. 2016;27(s1):S99-S101. doi:10.3233/jrs-150707.
- Hall EA, Docherty CL, Simon J, Kingma JJ, Klossner JC. Strength-training protocols to improve deficits in participants with chronic ankle instability: a randomized controlled trial. J Ath Train. 2015;50(1):36-44. doi:10.4085/1062-6050-49.3.71.
- van Ochten JM, van Middelkoop M, Meuffels D, Bierma-Zeinstra SMA. Chronic complaints after ankle sprains: a systematic review on effectiveness of treatments. J Orth Sport Phys Ther. 2014;44(11):862-871. doi:10.2519/jospt.2014.5221.
- Schiftan GS, Ross LA, Hahne AJ. The effectiveness of proprioceptive training in preventing ankle sprains in sporting populations: a systematic review and meta-analysis. J Sci Med Sport. 2015;18(3):238-244. doi:10.1016/j.jsams.2014.04.005.
- Cruz-Diaz D, Lomas-Vega R, Osuna-Pérez MC, Contreras FH, Martínez-Amat A. Effects of 6 weeks of balance training on chronic ankle instability in athletes: a randomized controlled trial. Int J Sport Med. 2014;36(9):754-760. doi:10.1055/s-0034-1398645.
Cite this article
John Doe, Eric Bluman, MD, PhD. Brostrom-gould procedure for lateral ankle instability. J Med Insight. 2024;2024(23). https://doi.org/10.24296/jomi/23Procedure Outline
Table of Contents
- IV antibiotics are administered and popliteal and saphenous nerve block is placed.
- Mark Anatomic Landmarks
- Incision 4.0 cm Proximal to Tip of Fibula, Curving Towards Sinus Tarsi
- Incision should be 6 cm long, curving distally and posteriorly around the distal tip of the fibula.
- Must be able to access ATFL and CFL from your incision.
- Locate Anterior Central Branch of Superior Peroneal Nerve and Retract
- Also ID and preserve sural nerve posteriorly.
- Identify and Incise Extensor Retinaculum
- Incise anterior retinaculum with Metzenbaum scissors. This will be repaired at the end of the case.
- Mobilize Soft Tissues
- Find and Define Anterior Tibiofibular Ligament (ATFL), which runs perpendicular to fibula, about 1 cm proximal to its tip.
- Use a right angle snap to define its borders.
- Cut ATFL Remnant and Elevate
- This will later be sewn to Calcaneofibular Ligament (CFL).
- Debride Anterior Distal Fibula
- Retract Peroneal Tendons Inferiorly to Expose CFL
- Incise the peroneal sheath to identify the peroneal tendons and retract them posterioriy.
- CFL is located on the floor of the peroneal sheath, heading posterolaterally off tip of the fibula.
- Suture ATFL Remnant to CFL with #1 Ethibond Sutures
- Use box stitch technique.
- Foot should be in dorsiflexion and eversion.
- Oversew Repair with #0 Vicryl Sutures
- Keep foot in dorsiflexion and eversion.
- Two Layer Closure
- Dress Wound and Apply Posterior Splint
Transcription
CHAPTER 1
So, what we're getting ready to doright now is a classic lateral ankleligament repair, namely the Brostrom-Gould Procedure.I'm going to usea fairly standard incision that allowsgood exposure of the joint lineand allows good identification andmobilization of the tissues thatwe're going to need to reef up and repair.So I’ve got my fibula depicted herewith the hash marks we've already done aperoneal tendoscopy here,and that's what these sutures are. We're going to goahead and fix the lateral ankle ligament complex here. So,essentially, I'm going to initially findwhere the lateral shoulder of the talus is andit's right about here,we're not going to need to go up any fartherthan that.I'm feeling the distal fibula here, and tip of the fibula isreally down here so going right down along here is going toprovide us with good access to the lateral ankle ligaments.One of the questions that is commonly brought upis that this could be at nearright angles to incisions if you need to come down and do atendon repair or do a fibular fracture in the future.And - I haven't come across any problems with tissuenecrosis or poor healing in thesecases and I think this is a safe combinationto make, especiallyif they're separated temporally from each other.So we'll go ahead and startthis portion of the case.
CHAPTER 2
So we’ll make this incision here, go through here,watch out and make sure that we're identifyingand protecting branches of the superficial peroneal nerve.I'm going to do a littlebit of dissection here,using a Jake right here just to mobilize someof these vessels.Try to preserve as many of thesedraining vessels as possible,but in this case it's we’re going to have to take these vessels.I haven't had any problemswith significant swelling postoperativelysecondary to decreased vascular outflow.That might be a little branch there, huh?This looks like a little superficial branchof the superficial peronealnerve so we're going to leave that alone and I'mgoing to skeletonize it just a little bit to make it a little more mobile,so we can move it out of the way, but I think we're goingto be able to retract it out of the way.
Go ahead and giveme a Ragnell, please.I think we're pretty good, otherwise. It's looking good.Yeah, maybe it’s a little branch - could be.Give me a knife, please.
CHAPTER 3
Now I’m just going to go back to the knifeand I'm going to open up the - there's a little bit of fatty tissue here.And I think this is it here, and I'm just going to -just gonna raise up -raise up some of that.You can see here, this is a layer that's developing.And that's going to be I think helpful for us.Down here we're going tobe close, very very close, to the peroneal tendons.And we want to make sure that we're not damaging those.This is this is the retinacular fibers here,I'm going to switchhands here and just develop this underneath.You can see here's capsule underneath us,and this is some extensor retinaculum right here aswell, and I'm going to develop this planebecause it's going to be aa nice little pants-over-vest, I think, later on.So now I’ll go up rightunderneath this.And in this patient, it's a pretty stout layer, which is good.It's going to help us.You know, she's pretty much plantar-flexedand inverted, which is notwhere she's going to end upand I think we're going to be ableto mobilize that very very well later on. So here's a littlebit extra tissue that we're going to be ableto incorporate that, and I'm just bluntly coming up on thedistal fibula, which is right here.
And what I'm doing now is I'm actually feeling to say,okay, where am I going to make my incision here in thisvery much attenuated portion of the capsule.There no rents in it but you can see it's pretty beatup and scarred in.This is a lot of scar tissue here attached,and that's peroneals, right inhere, you can see themand that's about as distal as we're going to have to go even ifwe have to go into the to the CFL.I'm feeling here for the joint line.Let me have a knife, please.And I'm going to go right in here.Right off the distal fibula,and I'm going to lift this tissue.This is the ATFL, andit's moving down into the CFL.More posterior, right?Yeah, more inferior and posterior.This is just scar tissue here that I'mgoing to release from the distal fibulaand it’s going to allow me to eventually look into the joint.You want to readjust?Okay, so again this is now the extensorretinaculum here.
What we're going to use forour Gould modification, and I'm lifting upthe tendon - rather, excuse me - the ATFLoff of the fibula, and I'm also going to create...A little...Bare spot on the fibula forthis tissue to heal down onto.You can see some of that fluid coming out from the joint.Can I have a freer, please?We're just releasing some of the scar tissue underneathso that she has -we got some excursion, and we can actually reef it upto a place where she's stable.Again, I'm clearing off tissue from the distal fibula to leave a nicefootprint for this to heal back down to.
CHAPTER 4
I’m developing that plane betweenthe talus now.You can see the talus in here.And we really need to free up all the tissue in there.Knife, please.And there's the fibular cartilage, right there.That really released it and that's good becausenow we can hike that up.
Let’s take a quick look at the CFL. Actually surprising theCFL looks fairly intact here.ATFL is clearly out.
CHAPTER 5
Alright so now we've got -we're able to do our repair, and we're going to ask for some#1 Ethibond sutures if we have it.And so this is our, again this is our capsule here.And then this is the extensor retinaculum right herethat we're going to use to reef over.And probably attach it to this tissue at the end.So we're going to take our ligamentous tissueand do a repair right now.We’re going to put probably 3 sutures in there.Okay.So this is some pretty heavy gauge,non-absorbable suture we're going to usefor this.And what I'm going to do is create a stitch that we're going tobe able to use. Take this out of the way, please. This is ourcuff from before...I think we're going to be able toput three good sutures in this location.I'm going to put a stitch in through here.Do we have anythingon a smaller needle?You have a 1?That is a #1. This is the smallest needle we got?Yep. Okay.So I’m going to put what we call a little box stitch here.I'm going to come up through herein this tissue, and we're really going to take a pretty healthy biteto reef it up.And create a little box stitch, which I'm going tohopefully illustrate for you guys, right here.You usually start out with something akinto a horizontal mattress suture.Then you’re going to come back underneath the tissue cuff.And that suture is going to be a reinforcementfor another stitch.You're going to take right here.It’s more of a cross stitch, butwe call it a box stitch.And then this is going to come back upthrough that tissue sleevethat we created before.One more, you’re right.And again we’re just going to do a repeatof what we just did.Box stitch coming through the proximal sleeve.So again we got this cross stitch right here.I don't know if you guyscan see it in close up.It’s a little cross stitch - box stitch.And again we’re going to finish upwith a littlegoing proximal,grabbing a nice tissue bite.So now - I think we're going to be alright.We’re going to have nice coaptation of that tissue, I think.Yeah it's perfect.Do you have a snap? Or snaps?Okay so we tie from inferior first.So what I'm going to do is -we're gonna tie it off here, and put a little, yeah, a little clamp on itjust to hold it in place. We're not going to snap it down onthe suture we're just going to hold it in placeon the tissues just like this.You'll see what I'm talking about here so - no, not yet, not yet.Hold that up please.Yep.That's going to lock that suture down for me.Cut that off.And then the other one, we're going to do the same thing.Greg, with the other hand please. Hold this here.Yeah, and move this up here.A little bit more. A little bit deeper, okay.You can seethat’s going to reef that up very nicely.
Now, we’re going to keep the good positionof the foot dorsiflexion and eversion,and now I'm going to take the Vicryl sutureand oversew this repair that I just did -figure-of-eight sutures.Have any preference for interrupted versus running?Yeah, I think that this isa strength - definitely strength sutures.I think they all need to be interrupted.
That completes that the Brostrom portion,and now what we need to do is -you can see that that that holds pretty nicely,but we're going to dois take this retinaculum that we developed earlierand actually sew it. Look at this.Take that down, we’ll reef thosetwo together pretty tightly.And I think this is going to be a nice augmentation to our to Brostrom.So here we go again. Here's the retinaculum.And I do this with absorbable.This is pretty superficial underneath the skin.Certainly in thin people,ladies, you know it can be very prominent -the knots can be prominent ifyou're using non-absorbables,especially large gaugesutures.So you can see that - look at that nice, coming together - reefed.Again, I'm taking pretty generous bites here becauseI'm going to use this to strengthen and reinforce the repair.Bringing the tissues together is going to tighten this up.When would you consider doing bone tunnels?Good question - I do bone tunnelswhen I'm doing a combined open peroneal procedure and Brostrom.And I do all the bone tunnels straightthrough the fibula and tie it right on the backsideI also repair - you're reefing your ATFLand your lateral ligament complex with the same sutures that you're using to close your superior peroneal retinaculum.The other thing that people do is -suture anchors - I think it's fine.I sometimes do that.If I can't mobilize the tissue on the top or I'mworried that I'm not going to have a very stable repair,I'll do that.And again, this is looking pretty good.You're seeing the superior peroneal retinaculum.The tissues have been reefed closed.They're nice and stable.
I'm gonna give it a little test nowon the lateral side to seeif her - and she's nice and stable now.I don't see any sulcus sign.I don't see any big movement there.That's a very stable repair.
CHAPTER 6
Now, what we'll do is I'll keep this... Some irrigation, please.I'll keep this dorsiflexion and eversion soI don't stress the repair during the closure.I do a two layer closure - subcutaneous layer and skin.And then we're going to go dorsiflexion, everted splintto hold her in a good position while this heals.