Carpal tunnel syndrome (CTS), one of the most common entrapment neuropathies, can, in fact, be considered as a socio-economic issue that reduces work productivity, increases disability, and requires prolonged rehabilitation.1 The diagnostic workup of CTS must include a comprehensive evaluation including clinical findings, nerve conduction studies, and ultrasound imaging (US)2,3, which represents the modality of choice due to the superficial course of the median nerve (MN).3,4 Nerve US examination is performed with high-frequency probes that provide a detailed depiction of nerve echotexture and fascicles.5,6 US-based morphological parameters for detecting CTS are an increased cross-section area (CSA) of the MN at the carpal tunnel inlet or outlet, flattening of the MN, and bowing of the transverse carpal ligament (TCL) at the level of the carpal tunnel outlet.7,8,9 Elastography has been proven as a useful adjunct US method in CTS evaluation.10
Therapeutic recommendations for CTS depend on disease severity and may include anything from a conservative approach to surgical intervention.2,3 US-guided injections have become increasingly
important in the treatment of mild and moderate CTS2,3 and, as landmark-guided injections have been proven to be less effective and cause more complications, US imaging has become the foundation of therapeutic recommendations.2,3 US-guided carpal tunnel injections are the most effective minimally invasive treatment method with minimum side effects that can remarkably improve the symptoms and functional status.11 The authors of this review performed a literature search that revealed several differences in US-guided carpal tunnel injections and summarized the differences in an attempt to unify individual stages of CTS injections protocol for future guidance.
For our narrative review paper, we conducted an Ovid MEDLINE and PubMed search in which we included the papers published from 2002, when the first paper on US-guided injection was published12, to 2021 with the keywords »carpal tunnel injection« and »ultrasound-guided carpal tunnel injection«. The search results included case-control studies, systematic reviews, and meta-analyses that contained data on US-guided carpal tunnel injections. References in these papers were carefully reviewed and were included in our review if they met our criteria (Figure 1). After we reviewed the papers, we used the differences between them to define the steps of US-guided carpal tunnel injections: patient preparation, approaches, needle positioning, injected medications and injected volumes.
The patient can be either seated or lying supine.13 When seated, the elbow is resting on the examination table in a 90° flexion position.14 When lying supine, the arm is abducted to 90° with the elbow extended.11,15,16 In both positions the forearm is supinated and the wrist is in a 15–35° dorsiflexion position.11,15,16 Careful US examination is important for injection planning. The wrist is examined with a linear probe along the carpal tunnel and special attention is given to the MN anatomy (size, position, aberrant variants) and the course of blood vessels.13,17,18
Authors reported two different procedures for disinfecting the skin11,16,17,19: some clean the puncture area with an alcohol swab and use a sterile ultrasound gel11, while others perform surgical disinfection and use a sterile probe sleeve.16,17,19 Even though there is no clear consensus on patient preparation, in recent years some authors (
Three approaches to carpal tunnel injections can be found in the literature and all of them are performed with a linear transducer of varying frequencies (5–17 MHz).11,13,14,26,27,28,29
The transducer is positioned at the distal wrist crease perpendicularly to the course of the MN (Figure 2A).13 The probe is then moved ulnarly keeping the MN in view until the pisiform bone, ulnar nerve, and artery are brought into view. On the ulnar side, the pisiform is seen as a hyperechoic structure and the honeycomb appearance of the ulnar nerve may be differentiated radially to the pulsating ulnar artery (Figure 2B).13 The needle is introduced in plane in an ulnar to radial direction, then passes the ulnar nerve and ulnar artery superficially, and punctures the TCL so that the needle tip can be advanced adjacently to the MN (Figure 2C).15,26,27,28
In the radial approach, the transducer is positioned at the distal wrist crease perpendicularly to the course of the MN (Figure 3A).14 The probe is moved radially keeping the MN in view until the scaphoid and flexor carpi radialis tendon are brought into view. On the radial side, the scaphoid is seen as a hyperechoic structure and the flexor carpi radialis tendon lies inferolateral to the MN (Figure 3B). The needle is introduced in plane in a radial to ulnar direction, then proceeds above the flexor carpi radialis tendon, and punctures the TCL so that the needle tip can be advanced adjacently to the MN (Figure 3C).14
In the longitudinal approach, the transducer is positioned parallel to the MN at the distal wrist so that the MN is seen along the TCL from the carpal tunnel inlet to the carpal tunnel outlet (Figures 4A,B).
The probe is then moved laterally to the MN approximately 0.5 cm until the nerve disappears.11 Two modifications can be found in the literature, namely the proximal to the distal and the distal to the proximal.11,29 In the proximal to distal, the needle is inserted at the distal wrist crease and is advanced distally.29 In the distal to proximal, the needle is inserted approximately 2 cm distally to the distal wrist crease and is advanced proximally.11 In both modifications, the needle is introduced in plane and punctures the TCL so that the needle tip can be advanced adjacently to the MN (Figures 4C,D).11,29
The aim of carpal tunnel injection is to position the needle tip adjacent to the MN without inducing nerve or vascular injury. When the needle is positioned perineurally, the injection volume can be injected as a single or multiple deposit. In a single deposit, the injection is deposited at a single location11,14,29, whereas in a multiple deposit, the needle is repositioned to deposit the injection volume on multiple locations.16
Medications used for carpal tunnel injections are corticosteroids30,31,32,33,34,35, local anaesthetics (LA)35, dextrose36,37, platelet-rich plasma (PRP)25,38, progesterone23,39 and saline.40 The most widely used medications for carpal tunnel injections are corticosteroids30,31,32,33,34,35, which ameliorate MN compression due to their anti-inflammatory properties.3 Particulate (
There is no consensus on the optimal volume injected into the carpal tunnel and injection volumes anywhere between 1 ml to 10 ml can be found in the literature.30,31,32,33,34,35,37,40,42,43,44,45,46 The injectate can be a manufactured single-compound solution or a multi-compound preparation. The latter is a mixture of active compounds with either saline or LA or both.30,31,32,33,34,35,40,42,43,44,45,46 Corticosteroids are predominantly injected as a multi-compound solution of 1–2 ml corticosteroids with 1–2 ml of LA or 1–2 ml of saline.28,30,31,32,33,34,45,46 LAs are usually added to multi-compound solutions as an anaesthetic during the injection and are rarely injected as a single compound, but when they are, the volume ranges from 0.5 to 4 ml.35,47 Saline is mostly used as a mixture substance for other medications as a part of multi-compound solutions.30,31,32,33,34,35,36,37,40,44,45,46 In hydrodissection, saline is used as a single-compound solution of 3–10 ml in volume.40,48 Dextrose is injected as a single-compound solution of 3–10 ml in volume.37,40,48 PRP is injected as a single-compound solution of 1–3 ml in volume.25,38 Progesterone is injected as a multi-compound solution, a mixture of 0.5 ml of LA and 0.5 ml of progesterone.23,39
Even though US-guided injection therapy has become an established treatment option for CTS2, no consensus has yet been achieved on what steps should be taken to achieve the best results. Carpal tunnel injections may be performed with the landmark-guided approach, but several complications have been noted, such as nerve injury, intravascular application of medication, failure to perforate TCL,
Three approaches to carpal tunnel injections can be found in the literature. The ulnar approach is the most frequently used, as it helps better visualize the carpal tunnel content and thus enables accurate perineural injection by avoiding neurovascular structures.13 This approach is also easier to learn in comparison to the other two approaches and provides good needle control.13 Reports on radial and longitudinal approaches are scarce.14,27,29,49 The reviewed authors do not offer any personal perspective on the benefits and difficulties of the radial approach.14 Jurbala and Burbank have come to the conclusion that the ulnar approach carries a higher risk of inadvertent penetration of the neurovascular structures because the needle is directed toward and not tangential to the MN.11 It has to be noted that scanning in the long axis can be challenging because it is difficult to differentiate between swollen nerve fascicles, muscles, and inflamed tendons.11 Only a single study was found where different approaches – radial and ulnar, to be precise – were compared to one another, but the results showed no difference in patient outcome or measured US parameters.14 Even so, the ulnar approach should be considered as the first choice because it is backed by the largest amount of evidence and is easier to learn than other approaches.13
Only a few papers included a detailed report on needle positioning, making it difficult to discern the benefits of different approaches.11,16,29 A randomized controlled study on US-guided single-deposit injections of corticosteroids showed no difference in patient outcome, electrodiagnostic, and US findings in terms of deposition between the MN and TCL or deposition between the MN and flexor tendons.14 The authors emphasized that placing the needle below the MN is technically less demanding and is, therefore, the better option for less experienced practitioners.14 A study by Nwawka
Another aspect to be taken into consideration in US-guided CTS injection treatment is the choice of medication. Several medications can be used for carpal tunnel injections, of which the most widely utilized are corticosteroids.30,31,32,33,34,35 Although there is no consensus on what type or dose of corticosteroids achieves the best outcome, it is thought that the effect of particulate corticosteroids lasts longer due to the quick uptake of nonparticulate corticosteroids; however, recent studies did not prove the superiority of either type of corticosteroids.30,31,32,33,34,35 Salman Roghani
Injection volume also remains a question of debate as only a few studies compared the effects of different volumes. In most studies, relatively low volumes of injectate were used (1–3 ml).42 In the study by Lin
Some limitations of our review need to be noted. The majority of papers reported a short-term follow-up and only a few reported a follow-up of up to 12 months. Furthermore, all the reviewed papers provided very little information on the optimal protocol of US-guided carpal tunnel injection. Even though we retrieved a large number of papers, only a few of them focused on a specific question related to the proposed steps in US-guided carpal tunnel injection. Further studies are required to fully assess the contribution and efficacy of US-guided injection therapy for CTS, and this paper should serve as a reference to determine which study aims are important.
In recent years, US-guided injection therapy has become an established treatment option in mild to moderate CTS. Although no consensus has yet been reached as to which protocol gives the best results, the ulnar approach with a single deposit should be considered as the first choice and dextrose as the first-line medication option injected in larger volumes. Furthermore, as terminological differences make it difficult to draw a uniform comparison between the reviewed papers, the presented steps of US-guided carpal tunnel injection might serve as a guideline for future studies.