{"title":"Double-Incision Technique for the Treatment of Distal Biceps Tendon Rupture.","authors":"Michele Mercurio, Davide Castioni, Orlando Cosentino, Daniele Fanelli, Filippo Familiari, Giorgio Gasparini, Olimpio Galasso","doi":"10.2106/JBJS.ST.21.00033","DOIUrl":null,"url":null,"abstract":"<p><p>The double-incision technique with bone-tunnel fixation provides anatomical reattachment of a distal biceps tendon rupture to the radial tuberosity<sup>1</sup>. This technique has been described by Boyd and Anderson<sup>2</sup> and was later modified by Morrey et al.<sup>3</sup>. The aim of the procedure is to achieve good return of elbow strength and motion with a low rate of neurological complications.</p><p><strong>Description: </strong>A longitudinal antecubital incision of 3 to 4 cm allows dissection to identify and isolate the lateral antebrachial cutaneous nerve (LABCN). Supination of the forearm protects the posterior interosseus nerve, which often cannot be visualized. The distal portion of the distal biceps should be carefully identified and exposed. A high-resistance nonresorbable suture is sewn with use of a Krackow technique to whipstitch the distal 4 cm of the tendon. Alternatively, 2 sutures (4 strands) can be utilized. A curved forceps is placed in the interosseous space to identify the location for the second 4-cm incision, on the dorsal proximal forearm over the tip of the forceps with the forearm pronated. The radial tuberosity is exposed by bluntly separating the common extensor tendons, followed by transection of the supinator fibers. Two drill holes are made 5 mm apart from one another for suture passage. The tendon is passed across a loop of wire, from the anterior to the posterior incision. With the elbow at 90° of flexion and full pronation, the tendon is docked into the trough and the sutures are tied.</p><p><strong>Alternatives: </strong>Alternatively, the surgical repair of the distal biceps tendon rupture can be performed through a single anterior approach<sup>4</sup>. The exposure starts with a curved longitudinal antecubital incision, exploiting the interval between the brachioradialis and pronator teres with radial (lateral) retraction of the brachioradialis and medial retraction of the pronator teres. A single anterior incision allows repair through the use of various types of fixation devices, such as suture anchors, cortical buttons, and interference screws, but seems to carry an increased risk of neurological complications, especially in terms of paresthesias in the distribution of the LABCN. Nonoperative treatment might be acceptable for elderly patients with poor functional demands.</p><p><strong>Rationale: </strong>The double-incision technique with bone-tunnel fixation provides good fixation strength with an expected low rate of neurological complications<sup>1</sup>. This approach offers a useful treatment option for young and active patients with physically demanding lifestyles.</p><p><strong>Expected outcomes: </strong>The double-incision technique is an effective and safe procedure to restore elbow functionality in patients with distal biceps tendon rupture. A meta-analysis<sup>1,4-16</sup> revealed no significant differences in postoperative functional scores following procedures performed via the single-incision compared with double-incision approach. Although the differences were smaller than the minimal clinically important difference<sup>17</sup>, the single-incision technique yielded significantly greater flexion (mean ± standard deviation, 136° ± 13°) and pronation range of motion (79° ± 10°) compared with the double-incision technique (133° ± 13° and 75° ± 14°, respectively) at 2 years postoperatively. No differences in extension and supination were observed. Rates of heterotopic ossification ranged from 0.5% to 11% for the single-incision approach and from 1% to 21.4% for the double-incision approach, with significant differences favoring the single-incision technique, although in the majority of cases the heterotopic ossification was an incidental finding. Neurological complications were found in 24.5% and 13.4% cases for the single- and double-incision techniques, respectively, with a significant difference favoring the double-incision technique. When damage to specific nerves was evaluated, the double-incision technique was associated with significantly less risk of LABCN damage.</p><p><strong>Important tips: </strong>One or 2 high-resistance nonresorbable sutures are sewn with use of a Krackow technique to whipstitch the distal 4 cm of the biceps tendon.A curved forceps is placed in the interosseous space to identify the location for the second incision, on the dorsal proximal forearm over the tip of the forceps.Pronation of the forearm protects the posterior interosseus nerve, which often cannot be visualized during volar dissection and bone fixation.Positioning the tendon more posteriorly on the radial tuberosity allows for optimal biomechanical function.</p><p><strong>Acronyms and abbreviations: </strong>ROM = range of motionCR = conventional radiologyMRI = magnetic resonance imagingUS = ultrasoundLABC = lateral antebrachial cutaneousPIN = posterior interosseous nerveHO = heterotopic ossificationCI = confidence intervalSI = single incisionDI = double incision.</p>","PeriodicalId":44676,"journal":{"name":"JBJS Essential Surgical Techniques","volume":null,"pages":null},"PeriodicalIF":1.0000,"publicationDate":"2022-07-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9931040/pdf/jxt-12-e21.00033.pdf","citationCount":"9","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"JBJS Essential Surgical Techniques","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.2106/JBJS.ST.21.00033","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"SURGERY","Score":null,"Total":0}
引用次数: 9
Abstract
The double-incision technique with bone-tunnel fixation provides anatomical reattachment of a distal biceps tendon rupture to the radial tuberosity1. This technique has been described by Boyd and Anderson2 and was later modified by Morrey et al.3. The aim of the procedure is to achieve good return of elbow strength and motion with a low rate of neurological complications.
Description: A longitudinal antecubital incision of 3 to 4 cm allows dissection to identify and isolate the lateral antebrachial cutaneous nerve (LABCN). Supination of the forearm protects the posterior interosseus nerve, which often cannot be visualized. The distal portion of the distal biceps should be carefully identified and exposed. A high-resistance nonresorbable suture is sewn with use of a Krackow technique to whipstitch the distal 4 cm of the tendon. Alternatively, 2 sutures (4 strands) can be utilized. A curved forceps is placed in the interosseous space to identify the location for the second 4-cm incision, on the dorsal proximal forearm over the tip of the forceps with the forearm pronated. The radial tuberosity is exposed by bluntly separating the common extensor tendons, followed by transection of the supinator fibers. Two drill holes are made 5 mm apart from one another for suture passage. The tendon is passed across a loop of wire, from the anterior to the posterior incision. With the elbow at 90° of flexion and full pronation, the tendon is docked into the trough and the sutures are tied.
Alternatives: Alternatively, the surgical repair of the distal biceps tendon rupture can be performed through a single anterior approach4. The exposure starts with a curved longitudinal antecubital incision, exploiting the interval between the brachioradialis and pronator teres with radial (lateral) retraction of the brachioradialis and medial retraction of the pronator teres. A single anterior incision allows repair through the use of various types of fixation devices, such as suture anchors, cortical buttons, and interference screws, but seems to carry an increased risk of neurological complications, especially in terms of paresthesias in the distribution of the LABCN. Nonoperative treatment might be acceptable for elderly patients with poor functional demands.
Rationale: The double-incision technique with bone-tunnel fixation provides good fixation strength with an expected low rate of neurological complications1. This approach offers a useful treatment option for young and active patients with physically demanding lifestyles.
Expected outcomes: The double-incision technique is an effective and safe procedure to restore elbow functionality in patients with distal biceps tendon rupture. A meta-analysis1,4-16 revealed no significant differences in postoperative functional scores following procedures performed via the single-incision compared with double-incision approach. Although the differences were smaller than the minimal clinically important difference17, the single-incision technique yielded significantly greater flexion (mean ± standard deviation, 136° ± 13°) and pronation range of motion (79° ± 10°) compared with the double-incision technique (133° ± 13° and 75° ± 14°, respectively) at 2 years postoperatively. No differences in extension and supination were observed. Rates of heterotopic ossification ranged from 0.5% to 11% for the single-incision approach and from 1% to 21.4% for the double-incision approach, with significant differences favoring the single-incision technique, although in the majority of cases the heterotopic ossification was an incidental finding. Neurological complications were found in 24.5% and 13.4% cases for the single- and double-incision techniques, respectively, with a significant difference favoring the double-incision technique. When damage to specific nerves was evaluated, the double-incision technique was associated with significantly less risk of LABCN damage.
Important tips: One or 2 high-resistance nonresorbable sutures are sewn with use of a Krackow technique to whipstitch the distal 4 cm of the biceps tendon.A curved forceps is placed in the interosseous space to identify the location for the second incision, on the dorsal proximal forearm over the tip of the forceps.Pronation of the forearm protects the posterior interosseus nerve, which often cannot be visualized during volar dissection and bone fixation.Positioning the tendon more posteriorly on the radial tuberosity allows for optimal biomechanical function.
Acronyms and abbreviations: ROM = range of motionCR = conventional radiologyMRI = magnetic resonance imagingUS = ultrasoundLABC = lateral antebrachial cutaneousPIN = posterior interosseous nerveHO = heterotopic ossificationCI = confidence intervalSI = single incisionDI = double incision.
期刊介绍:
JBJS Essential Surgical Techniques (JBJS EST) is the premier journal describing how to perform orthopaedic surgical procedures, verified by evidence-based outcomes, vetted by peer review, while utilizing online delivery, imagery and video to optimize the educational experience, thereby enhancing patient care.