Ulnar Nerve Transposition (Cadaver)
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Table of Contents
Ulnar nerve transposition is a surgical procedure performed to treat ulnar nerve compression of the elbow, also known as cubital tunnel syndrome. This procedure is utilized after both non-operative management and in situ decompression fails, or if these procedures are deemed inappropriate based on patient pathology or ulnar nerve instability. Transposition of the ulnar nerve involves not only decompression of the nerve but also its anterior repositioning to reduce compression and irritation while maintaining nerve integrity. This video demonstrates, on a cadaver arm, the operative technique for performing an ulnar nerve transposition using either a subcutaneous or a submuscular technique.
A 55-year-old male presents to you with sensitivity in his right elbow. He reports that the pain occurs on the posteromedial aspect of the elbow, and it is particularly bad when he flexes his elbow, such as when he is using his cell phone. He describes the feeling as a 5 out of 10 “aching” pain and says that it is sometimes accompanied by a sharp tingling sensation in his little finger and ring finger. He is also concerned because he feels his right-hand grip has recently become weaker. The patient’s past medical history is significant for an in situ cubital release performed on the right elbow 1 year prior for treatment of similar symptoms. The patient states he is particularly frustrated because the pain often wakes him up at night if he bends his arm in his sleep, and he cannot get a decent night’s sleep.
Cubital tunnel syndrome is seen with a slightly higher incidence in males than females, and increasing incidence is seen with increasing age in both genders.1 Individuals that perform repetitive or prolonged activities requiring the elbow to be in a fixed bent position are at an increased risk for developing cubital tunnel syndrome.2
Physical exam findings will vary based on the etiology and severity of the nerve compression. When the arm is moved through a full range of flexion and extension, the ulnar nerve may be observed subluxing over the medial epicondyle. There may be visible muscle atrophy of the affected hand around the little finger and ring finger, as well as clawing. This can be accompanied by decreased sensation in these fingers. Swelling and/or a cyst may be observed by the medial epicondyle.3 A positive Froment’s sign, indicating a compensatory thumb flexion during a pinching motion, is characteristic of ulnar compression. Additionally, persistent little finger extension and abduction, known as a positive Wartenberg’s sign, suggests ulnar nerve compression. Motor testing that reveals a weakened grasp and/or pinch also supports this diagnosis.3,4
Cubital tunnel syndrome is due to compression and irritation of the ulnar nerve at the elbow by the medial epicondyle. The cubital tunnel is a narrow space that the nerve must traverse with very little surrounding soft tissue for protection. Often, the exact cause of this nerve irritation is not known, but causes include holding a phone to the ear extensively, leaning on the elbows, an elbow cyst, and elbow arthritis. If the ulnar nerve remains compressed for an extended period of time it can lead to irreversible muscle wasting in the hand as well as ongoing pain and decreased function of the affected elbow and hand. For patients presenting with mild or moderate nerve compression, first-line treatment involves discontinuing activities that increase nerve compression, taking NSAIDs, and wearing a padded elbow brace or splint. If the nerve is severely compressed or non-surgical treatment methods are ineffective, then surgery is indicated. Surgical procedures include cubital tunnel release and anterior nerve transposition.3
X-ray can be used to visualize the bony structure of the elbow and reveal any bone spur or arthritis that may be responsible for the nerve compression. Nerve conduction studies are useful in determining the condition of the ulnar nerve, where the compression is occurring, and whether or not there is any associated muscle damage.
This procedure is performed under general or regional anesthesia using a sterile tourniquet. Position the patient supine with the arm externally rotated and flexed slightly so that the posteromedial aspect of the elbow is exposed. Disinfect the incision site, then fully extend the elbow and palpate the medial epicondyle to locate the ulnar nerve. Mark out the location of the ulnar nerve posterior to the medial epicondyle, extending 6–10 cm in both the proximal and distal directions.
Flex the arm slightly to visualize the path of the nerve. Create a longitudinal incision directly behind the medial epicondyle along the marked path. Dissect proximally to the medial epicondyle, down through the subcutaneous tissue. Open the incision and cauterize blood vessels as necessary. Identify the ulnar nerve proximal to the medial epicondyle.
Release the proximal ulnar nerve arcade using a spreading motion with scissors. Push the nerve around as needed to perform the release, but avoid grabbing it to prevent damage to the nerve or its accompanying blood vessels. Confirm the nerve is mobilized. Continue making a longitudinal incision distal to the medial epicondyle, and confirm the nerve is mobilized. Insert retractors at both the proximal and distal ends of the incision. Release the distal ulnar nerve arcade and confirm the nerve is mobilized. Take care to avoid cutting through any nerve branches or vessels. If one of these structures is inadvertently cut, be sure to cauterize it to prevent painful neuromas or excessive bleeding. Release the fascia between the 2 heads of the flexor carpi ulnaris (FCU), making sure to release the fascia in line with the nerve. Check for any deep investing fascia, and if any is observed, spread the fascia with scissors to release. Once the cubital tunnel has been fully opened and the ulnar nerve mobilized, gently pull the ulnar nerve away from the released fascia. Maintain the branches from the ulnar nerve if at all possible, and cauterize any nerve branches that cannot be preserved.
Once the nerve is mobilized, remove the intermuscular septum from the medial epicondyle using either a knife or a cautery. Excise about a 1-cm segment so that there is a bare supracondylar ridge exposed. Take care to protect the motor nerve branch on the ulnar side of the septum. Reposition the nerve by moving it anterior so that it sits over the supracondylar ridge without interference from any external structures. Cauterize the first branch of the ulnar nerve if it is tethering the nerve and inhibiting anterior mobilization and transposition.
Subcutaneous Technique. Close the cubital tunnel to prevent inadvertent resubluxation. To do this, mobilize the posterior tissues from the triceps extension and close the tissue flaps across the interval enclosing the medial epicondyle. Apply 2 figure-of-eight sutures to complete the closure. Then create a fascial sling to hold the nerve in place anteriorly. This can be done by repositioning the posterior aspect of the FCU across the nerve, leaving the fascia attached to its origin on the epicondyle. Use a 2-0 Vicryl or equivalent to fix the sling.
Submuscular Technique with Z-plasty. Temporarily translate the nerve posteriorly. Incise the flexor pronator muscle belly in a Z-fashion to create leaflets. To do this, mark out flaps on the flexor pronator muscle origin using three parallel lines: one on the leading edge, one down the middle, and one where you decompressed the ulnar nerve. This will create a distal flap and a proximal flap. The distal flap requires some dissection off the muscle, but the proximal flap pulls off rather easily because it goes in the direction of the muscle fibers. Move the nerve to within the prepared flexor pronator muscle leaflets. Connect the muscle leaflets end to end with 1–2 figure-of-eight sutures. Take care not to stitch too tightly, or there is a risk of inadvertently creating a new site of constriction on the nerve.
Now that the nerve has been stabilized, take the nerve through an active range of motion. Release any residual tension resulting from deep investing fascia.
Wash the wound thoroughly with sterile water. Drop the tourniquet. There may be a moderate amount of bleeding, so cauterize as needed. Close the skin with 3-0 Vicryl, a running 4-0 Monocryl, and then a glue or nylon for the skin.
Apply a cast or splint to the elbow to maintain a 90° bent position for 2–4 weeks postoperatively. Physical therapy is recommended to regain strength and range of motion, as well as to help with pain management.
Ulnar nerve transposition is considered an effective long-term treatment option for patients with cubital tunnel syndrome. It is most often recommended in cases where simple in situ cubital tunnel release is contraindicated,3,5–9 such as in cases of prior elbow trauma or underlying pathology.10 Retrospective studies have shown that in patients without elbow arthritis or elbow trauma, in situ decompression is an effective option for treating cubital tunnel syndrome that carries lower risk of adverse events and recurrence than ulnar nerve transposition procedures.7,9 A 2018 prospective cohort study found that patients experienced greater surgical morbidity following ulnar transposition than decompression as measured by narcotics consumption, patient-reported disability, and persistent olecranon paresthesia. However, most of these differences were transient and resolved by 8 weeks after surgery.5
A meta-analysis of four randomized controlled trials found no difference in motor nerve-conduction velocities or clinical outcome scores between simple decompression and ulnar nerve transposition in patients without prior traumatic injuries or surgeries of the affected elbow.6 A 2015 cadaveric study showed that both subcutaneous and submuscular transposition provided a statistically significant decrease in nerve strain in full flexion, while in situ release did not provide a change in strain in either flexion or extension. These results provide evidence that an ulnar transposition may be warranted over an in situ release when strain is the underlying pathology causing ulnar neuropathy.8
Once a surgeon has deemed a patient to be an appropriate candidate for ulnar transposition, there are a few transposition techniques to choose from. The current literature provides limited insight into the different outcomes between the available techniques. A 2015 meta-analysis of the available randomized controlled trials and observational studies comparing subcutaneous and submuscular transposition techniques found no difference in the outcome of clinically relevant improvement. However, the authors found that the incidence of adverse events was significantly higher following submuscular transposition than subcutaneous transposition. The authors acknowledged that the outcomes used in the various studies were inconsistent and there were very few randomized controlled trials, so more evidence is needed on this topic in order to draw meaningful conclusions.11 Retrospective studies have found similar evidence that while both subcutaneous and submuscular transpositions effectively treat cubital tunnel syndrome, submuscular transposition is associated with higher recurrence and more complications.12,13
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.
Citations
- Osei DA, Groves AP, Bommarito K, Ray WZ. Cubital tunnel syndrome: incidence and demographics in a national administrative database. Neurosurgery. 2017;80(3):417-420. doi:10.1093/neuros/nyw061.
- Adkinson JM, Zhong L, Aliu O, Chung KC. Surgical treatment of cubital tunnel syndrome: trends and the influence of patient and surgeon characteristics. J Hand Surg Am. 2015;40(9):1824-1831. doi:10.1016/j.jhsa.2015.05.009.
- Grandizio LC, Maschke S, Evans PJ. The management of persistent and recurrent cubital tunnel syndrome. J Hand Surg Am. 2018;43(10):933-940. doi:10.1016/j.jhsa.2018.03.057.
- Goldman SB, Brininger TL, Schrader JW, Curtis R, Koceja DM. Analysis of clinical motor testing for adult patients with diagnosed ulnar neuropathy at the elbow. Arch Phys Med Rehabil. 2009;90(11):1846-1852. doi:10.1016/j.apmr.2009.06.007.
- Staples R, London DA, Dardas AZ, Goldfarb CA, Calfee RP. Comparative morbidity of cubital tunnel surgeries: a prospective cohort study. J Hand Surg Am. 2018;43(3):207-213. doi:10.1016/j.jhsa.2017.10.033.
- Zlowodzki M, Chan S, Bhandari M, Kalliainen L, Schubert W. Anterior transposition compared with simple decompression for treatment of cubital tunnel syndrome: a meta-analysis of randomized, controlled trials. J Bone Joint Surg Am. 2007;89(12):2591-2598. doi:10.2106/JBJS.G.00183.
- Zhang D, Earp BE, Blazar P. Rates of complications and secondary surgeries after in situ cubital tunnel release compared with ulnar nerve transposition: a retrospective review. J Hand Surg Am. 2017;42(4):294.e1-294.e5. doi:10.1016/j.jhsa.2017.01.020.
- Mitchell J, Dunn JC, Kusnezov N, et al. The effect of operative technique on ulnar nerve strain following surgery for cubital tunnel syndrome. Hand (NY). 2015;10(4):707-711. doi:10.1007/s11552-015-9770-y.
- Gaspar MP, Kane PM, Putthiwara D, Jacoby SM, Osterman AL. Predicting revision following in situ ulnar nerve decompression for patients with idiopathic cubital tunnel syndrome. J Hand Surg Am. 2016;41(3):427-435. doi:10.1016/j.jhsa.2015.12.012.
- Krogue JD, Aleem AW, Osei DA, Goldfarb CA, Calfee RP. Predictors of surgical revision after in situ decompression of the ulnar nerve. J Shoulder Elbow Surg. 2015;24(4):634-639. doi:10.1016/j.jse.2014.12.015.
- Liu CH, Wu SQ, Ke XB, et al. Subcutaneous versus submuscular anterior transposition of the ulnar nerve for cubital tunnel syndrome: a systematic review and meta-analysis of randomized controlled trials and observational studies. Medicine (Baltimore). 2015;94(29):e1207. doi:10.1097/MD.0000000000001207.
- Bacle G, Marteau E, Freslon M, et al. Cubital tunnel syndrome: comparative results of a multicenter study of 4 surgical techniques with a mean follow-up of 92 months. Orthop Traumatol Surg Res. 2014;100(4)(suppl):S205-S208. doi:10.1016/j.otsr.2014.03.009.
- Zhou Y, Feng F, Qu X, et al. [Effectiveness comparison between two different methods of anterior transposition of the ulnar nerve in treatment of cubital tunnel syndrome]. Zhongguo Xiu Fu Chong Jian Wai Ke Za Zhi. 2012;26(4):429-432. http://open.oriprobe.com/articles/29148370/EFFECTIVENESS_COMPARISON_BETWEEN_TWO_DIFFERENT_MET.htm.
Cite this article
Kalbian I, Ilyas AM. Ulnar nerve transposition (cadaver). J Med Insight. 2023;2023(206.5). doi:10.24296/jomi/206.5.
Procedure Outline
Table of Contents
- Excise Intermuscular Septum
- Transpose
- a. Close Cubital Tunnel
Transcription
CHAPTER 1
My name is Asif Ilyas.I'm a professor of orthopedic surgeryand the program director of hand surgeryat the Rothman Institute in Philadelphiaat the Thomas Jefferson University.Today, we'll be talking about ulnar nerve transposition.Now ulnar nerve transposition is used to managesymptomatic cubital tunnel syndrome -also known as ulnar neuropathy of the elbow.That's when the ulnar nerve is under compressionas it traverses the cubital tunnelbehind the medial epicondyleat the level of the elbow.There's two broad ways to managecubital tunnel syndrome.One is with a cubi-an in situ cubital tunnel release,and the other iswith an ulnar nerve transposition.In this surgical video, we'll be looking atulnar nerve transposition.A transposition can be performed in a few ways,including subcutaneous, intramuscular, and submuscular.I'll be demonstrating both the subcutaneousas well as the submuscular technique.As we go through the procedure,I'll show you some tips and tricks andhazards to avoid. We'll also discusspostoperative management and rehab.
CHAPTER 2
Okay, so now we're going be addressingulnar neuropathy of the elbow,also known ascubital tunnel syndrome.You'll notice the armis flexed slightly,externally rotated.I'm looking at the posteromedial -posteromedial aspect of the elbow.The ulnar nerve is going to beright behind the medial epicondyle, and it is palpablein the specimen here.Now to manage, surgically, ulnar neuropathyof the elbow, you have two waysyou can approach this;you can do what is calledan in situ cubital tunnel releaseor an ulnar nerve transposition with neurolysis.Either way, the incision is placedin this aspect of the elbow,behind the medial epicondyle.So I'm going to mark outboth incisions to kind ofshare - to discuss how we go about this.So if you're doing anulnar nerve transposition,you bring the elbow straight.You'll feel the epicondyle here.The tendency is to bring the incisionanterior to the epicondyle,but recognize that you'll be awayfrom your - your nerve and alsoincrease the odds of injury inadvertentlyto the branches of the medial antebrachial cutaneous nerve.So with the elbow extended,I find it helpful to make arelatively straight incision.Behindthe elbow, which is the pathof the ulnar nerve.If I'm doing an ulnar transposition,centered on the medial epicondyle,my incision will go anywherefrom 6 to 8 cm distally -and similarly, about 6 to 10 cm, proximally.If I'm doing a cubital tunnel release,I can use the same incision.However, Ican also make a smaller incision -what I refer to as the mini open technique.And I'll use the same location on my incision,but I'll flex up the arma little bit moreto get a sense of where it is.And I place the incision directlybehind the medial epicondylelike so.If I'm taking the transposition,I'll go the full length.
CHAPTER 3
We do a long, longitudinal incision as marked out.Again, notice how the incision is fairly posterior,intentionally,to allow for easier exposure of the nerveas well asto decrease the odds ofinjuring or having to exposebranches of the medial antebrachial cutaneous nerve.
CHAPTER 4
And we'll start proximal.Tissue iseasier to manage and more viab- and,safer.Cauterize vessels as you go in.I do this procedure under - with the patient asleep -and with a sterile tourniquet.The nerve is readily foundproximal to the medial epicondyle, like so.
CHAPTER 5
It's mobilizedand released.What you're releasing is the arcadethat envelops it proximally.There's vessels that travel with the nerve,and you try to maintainas many of them as - as you can.I'm never grabbing the nerve;I just push the nerve.That's what I'm doing right now.Then I'll switch to usingeither a Penrose drain or an equivalent drainto help kind of control the nerve.So here's my nerve.I'm going to expose distally next.Okay, I'll try to use some retractors if possible.Let's see how they do.So much biggerexposurethan a cubital tunnel release.Again, this is a cadaver,so I'm cutting through some of these structures.But, you want to absolutely make surethey're not a nerve or a vessel.If they're a nerve,and you - you cut it by accident,you want to cauterize it, so as tonot cause any painful neuromas.And if it's a vessel,you similarly want to cauterize it.So the nerve is fairly wellmobilized, proximally.So I'm going to take that nerve release,distally, and you'll see it start to get tetheredwithin the medial epicondyle.We want to mobilize that.The first branch we'll come acrossis the articular branch to the joint.And that you can readily cauterize.And the first, most important branchyou'll get to are themotor branchesto FCU.So we're traversingthe cubital tunnel right here.There's adventitial tissue that holds it together.And here you'll seethe fasciabetween the two heads of FCU covering the nerve.So I will release that fasciain line with the nerve,like so.But I want you to appreciatethat there is also adeep investing fascia as wellthat can alsoput some compressionon the nerve,and you just spread through it.So,once mobilized,kind of gently pull away.As we do this,those first branches will become evident.Right here is probablythe first motor branchof FCU -right there.Now the question often comes up,what do you do with them?Well if you can maintain them, that's theoptimal thing to do. If you can't,then it's reasonable totake the first or second branch and cauterize it.The ulnar nerve innervates the FCUthe entire length of the arm,so if you take a branch or two,it will not result in any meaningful,denervation of the muscle -but avoid them if you can.Now you can see how loose the nerve isaltogether.
CHAPTER 6
So we want to transpose this anteriorly.So let's look at this now.So now that the nerve is released,we can transpose this in one of two ways;we can transpose thisin a subcutaneousor a submuscular fashion,and I will demonstrate both.
Either way,irrespective of which transposition you elect to do,the main structure you need to confirmis decompressed - or removed rather -is the intermuscular septum.The intermuscular septumis often considered a constricting elementto theulnar nerve,but frankly it's more of aconstricting structure to the ulnar nerve post-decompression.And I'll show you what I mean by that.So,here we go.So here is the intermuscular septum right here,and I'll expose it a little better for youso you can see it.It's this structure, right here,it comes off of the epicondyle,and it's quite palpable.And post-transposition, it can readilycause compression on the nerve, like so.So, it should be removed.So you can do this sharply,or you can do it with cautery.There are some bleeders back there,so cautery is a reasonable way todo this, but we'll use a knife here.You take it right off ofthe medial epicondyle.Again, there's a lot ofbleeding structures back here.So, I tend tocauterize very generouslyin this region.Again, with a cadaver limb,we don't have that senseof the bleeding that can occur.Once I'm exposed enough,I just excisea centimeter segmentofthat intermuscular septum.So now,what you'll notice,epicondyle's here,and there's a bare, supracondylar ridge,like so.So then when the nerveis transposed,it sits over that ridgewithout any kind of external structures bothering it.
So let's transpose this and see how it looks.So if we transpose this anteriorlyin a subcutaneous fashion,we see we're being tethered by this first branchof the ulnar nerve.So we have to make a decisionif we want to keep that or not.Like I mentioned, there are manybranches of theulnar nerve to the FCU.So I'll often cauterize that first base.So here I'll just cut it.I'll cauterize it,and that really helps to mobilizethis nerve even further.Once you transpose this anteriorly,the nerve's actually in moretensionand extension than in flexion,which is the opposite of normal.So you can see how it drapes over top.It can be under some tension.This patient's very thin,so you notice there'svery little tension on the nerve.But you'll also notice when I flexhow the nerve crimps upand has absolutely not tension on it.And most of usspend most of our timewith some amount of elbow flexion.So you'll notice how there's no tensionon the nerve once it's in this position.Now how do we stabilize this?Well there's a few waysto stabilize this nerve,and I'll show you thesubcutaneous technique first,and then the submuscular technique with a z-plasty.
CHAPTER 7
So when doing a subcutaneous transposition,the nerve moved anteriorly,the intermuscular septum taken down,I recommend two thingsto stabilize the nerve anteriorly.The first thing is to actuallyclose the cubital tunnelso that you prevent any inadvertentre-subluxation of the nerveback behind the epicondyle,because if it does, it will be trapped there.So what you do is you take your posterior tissues,mostly some triceps extension right here,and you just -you come acrossyour epicondyle,and you just close that interval.So typically, two sutures aremore than sufficient.I use two figure-of-eightsto close the interval down.And again, this is so that the nervedoes not inadvertently re-subluxinto the cubital tunnel.So that's the first thing.So once that's done,the second thing you want to doto stabilize the nerve,anteriorly, is you want to placesome kind of fascial slingto hold it in place.So once the cubital tunnelhas been closedwith some of the fascia of the triceps,you need a fascial sling to hold the nerveanteriorly.So I just take a little bitof the posterior aspect of the fasciaof FCUand come across like so.Leave it attachedto itsorigin on the epicondyleand then tease it back.And then this then is subsequently repaired.Repairedto here.Looking for a second pickup - here we go.So using a 2-0 Vicryl or equivalent,repair like so.And what that does with this repaired,it prevents the nerve fromtranslating posterior - it acts as a -a postor a bolster to prevent it from slipping back,as such.
CHAPTER 8
Alternatively,asubmuscular transposition can be done.And I will actually translate the nerveposteriorly, temporarily.And to do thiswith a z-plasty,the orientation you want to haveis basicallylike so.Okay?So we also already didsome of it,like so.And then we come across.It's a little short, but that's okay.And we come across like thisto complete the rest of it.Now how deep you take this is whatdefines whether this isan intramuscular or a submuscular.Obviously, this requires significantdissection and splitting of the FCU muscle belly.This is not my preferred wayto do transposition,but it is a very effective way to do it.And I'll use this technique in revision casesor cases where I need to bury the nerve a bit -maybe a complaint of neuritis orwhat have you, a thin patient -and that way it allows me tomake the nerve less palpable.And then these two ends -I'll show you the orientation again.They start like this,and then once we're done, it's like this.So let's move that nerve into this space here.Actually, I'm going to releasesome of this fascia here first.I have to stay close the epicondyleas the medial - median nerve is not far from here.So I don't want to wander too far away.I'm just staying on the supracondylar ridge.The nerve then just moves overto here,anteriorly.We have this branch here.This leaflet here and this leaflet hereis then repaired end-to-end, like so.One or twofigure-of-eight sutures will do the trick.You have to be mindful not to cause a newsite of constriction of the nerve.I'll just do onefor the sake of demonstration,but obviously, you can do moreas needed.Like so.Once done,you'll now have asubmuscular - or intramuscular - transpositionof the ulnar nerve.And let's take a look at that.So here's our bridge.It's been lengthened with a z-plasty.The nerve is below.You want to make sureyou absolutely haveplenty of room for the nerve.You want to checkyour nerve deep.Make sure it's satisfied and not tight.Here you'll find a little bit of residual tensionof that deep investing fascia that I had mentioned.I'll release that a little bit further.So here's that deep investing fascia.The nerve is deep to me.There's that fascial layer.I'll just release that a little bit further.Once released,you'll notice the nerve is very loose.I can easily pull itin either directionwith no tension on it.Like so.
CHAPTER 9
I then again take the nervethrough an active range of motionto confirm that there is no tension on it.Again, no tension.
CHAPTER 10
At this point, I typically drop the tourniquetas there's typicallyquite a lot of bleedingbecause of all of the cutting of theFCU - I'm sorry, the flexorpronator mass musculature.So I'll cauterize that until satisfied.I do no more additional deep closure.I just close the skin with 3-0 Vicryl or an equivalent,and a running 4-0 Monocryl,and then a glue for the skin,or a nylon for the skin.