Quadricipital Tendon: Option in Knee Ligament Reconstruction

• Abstract
• Introduction
• Technical Description
• Surgical Technique
• Step 1: Patient Preparation and Positioning
• Step 2: Subcutaneous Access and Dissection
• Step 3: Graft Removal
• Step 4: Graft Preparation
• Step 5: Closing
• Discussion
• Final Considerations
• Referências

Abstract

Although it is a versatile tendon, only 1% of surgeons choose to use the quadricipital tendon as a graft in anterior cruciate ligament (ACL) reconstruction. The present article aims to describe a quadricipital graft removal technique in which its deepest part is maintained. The technique consists of an approach in which the first incision is made in the medial part of the quadricipital tendon to prevent it from getting too short. This is due to its triangular design. The technique also addresses the depth and identification of the three layers of the quadricipital tendon so that it is possible to preserve its deepest part. This approach aims to preserve the extensor apparatus and to not communicate it with the joint environment, avoiding fluid extravasation both in the trans and postoperative periods.

Introduction

Due to its high incidence in the economically active population, there is great interest in the advances of surgical techniques of anterior cruciate ligament (ACL) reconstruction, including the grafts used.[1] Despite the advances, it is estimated that ∼ 25% of patients progress with failure in the 10 years following primary surgery, either due to graft rupture or clinical failure; therefore, many of them undergo new surgery, requiring a second graft.[2] [3]

Considered by some authors as the "forgotten graft", the quadriceps muscle tendon is versatile and can be used with or without a bone plug in ligament reconstruction.[4] Its advantages include favorable clinical response and low morbidity of the donor site, especially when it is removed without the bone plug. Complications such as fluid extravasation during arthroscopy, muscle gap, retraction of the femoral rectum, aesthetic deformity, and hematoma at the graft site may occur.[5]

Although it is a versatile tendon, only 1% of surgeons choose to use the quadricipital tendon as a graft in ACL reconstruction due to nonfamiliarity with graft removal techniques and lack of specific instrumentation.[4] [5]

The present article aims to describe a quadricipital graft removal technique in which the deepest layer, composed of the vastus intermediate, is maintained.

Technical Description

The present study was approved by the Research Ethics Committee through opinion 35471420.2.0000.5225.

Surgical Technique

Step 1: Patient Preparation and Positioning

The patient is put in the supine position, usually under spinal anesthesia. The knee is positioned at 90°. After emptying the limb with Esmarch bandage, the garrote is inflated ([Figure 1]).

Step 2: Subcutaneous Access and Dissection

The center of the patella is used as a reference in the access of the skin, which starts from the center in the proximal direction, of approximately between 4 and 5 cm. Dissection of soft tissues and subcutaneous tissue is performed with the aid of a scalpel and a rugine.

Step 3: Graft Removal

After access, the incision in the graft is started by the medial portion, at between 3 and 5 mm lateral to the myotendinous transition from the proximal vastus medial of the oblique vastus to the proximal pole of the patella ([Figure 2]).

The second incision in the tendon is made at 10 mm lateral to the first incision, determining the width of the graft.

The tendon is dissected carefully, observing its layers. The first layer is that of the femoral rectum. When dissecting it, it is possible to observe a lamina of adipose tissue by disparating it from the confluence of the vastus medial and lateral. Then, the scalpel is deepened below the fat and the medial and lateral vastus sections. Below that, as the third layer, is the vast intermediate and, in this technique, we intend to preserve it. To aid the measurement of the depth of the first two layers, the highest cutting of the blade of a scalpel number 23 can be a parameter, as it measures ∼ 5 mm. This is the approximate depth of the surface of the quadricipital tendon to the beginning of the third layer, the vast intermediate ([Figure 3]).

After the depth is defined, a Kelly-type hemostatic forceps is positioned transversely 3 cm above the proximal pole of the patella, disparating the intact vastus intermediate from the rest of the quadriceps. The tweezers can be forced proximally and distally to assist in dissection ([Figure 4]).

Once the cutting layer is defined, the dissection to the proximal and distal can be done bluntly, forcing the Kelly forceps itself or with a cutting tool. Usually, we prefer to perform proximal dissection with metzenbaum scissors and dissection to the bone plug with scalpel.

We usually use electric cautery for marking the bone plug, and we prefer a small baguette (15 mm long and 10 mm wide). Before performing the side cuts, the middle of the plug is drilled with a 3.5 mm drill for passage of the anchor suture.

The cuts are made with an oscillatory saw with an angle of 45°, in order to remove a trapezoidal plug. Distally, the cut is straight, at 90°. After the use of the saw, with a narrow osteotome, the bed plug is highlighted. Since the quadricipital tendon involves the entire thickness of the patella, after loosening the bone block, it is common for it to remain attached by the tendon ([Figure 5]).

To loosen the graft, this transition is carefully dissected so as not to pierce the vast intermediate and expose the joint, in addition to preventing the graft from falling.

Step 4: Graft Preparation

The tendinous part of the graft is prepared with Krackov-like stitches, with polyester thread number two. The bone plug is prepared by seaming edges to create a bone tunnel of smaller diameter. A polyester number five thread is passed through the hole in the bone plug for traction.

Step 5: Closing

Bed inspection is performed to verify that there was no violation of the suprapatellar bursa; if it occurred, a simple suture with polyglycolic acid number one thread is performed.

The arthroscopic procedure is performed before skin closure, because if there is liquid extravasation, it is possible to locate the drainage site by direct visualization and close the hole.

The garrote is turned off and inspection and hemostasis are carried out.

Patella defect correction is not performed, neither is the approach of the edges of the quadricipital tendon, since the deepest part of the vastus intermediate has been preserved.

Discussion

When preparing and positioning the patient, it is important that, when inflating the garrote, the knee is frailted at 90° in order to keep the quadriceps muscle in its greatest distension, which will keep the quadriceps tendon under lower tension for graft removal.[6] For the removal of grafts from the flexor tendons, the opposite is performed: the garrote is inflated with the knee extended ([Figure 1]).

Differently from the descriptions that initiate the removal of the quadricipital graft by the bone block,[7] we consider essential that the first incision is in the quadricipital tendon. We started with a linear incision, parallel to the tendon, 3 to 5 millimeters lateral to the myotendinous region of the vastus medial. The reason we insist on this point is that the quadricipital graft is triangular and its medial portion is more parallel to the femur than the lateral one. Thus, we are careful not to place the incision too lateral, as this would result in a very short graft ([Figure 2]).

There is a thin layer of adipose tissue that separates the femoral rectum from the vastus intermediate, and it is easier to separate the femoral rectum from the second layer than the second from the third. Since we are proposing a technique in which there is a preservation of the last layer of the quadricipital tendon, it is necessary to deepen the incision beyond the division of the femoral rectum with the second layer. Thus, the thickness of the tendon is increased and the vastness of the intermediate is preserved. This step is not always simple, as there is a tendency to stop after the femoral rectum.

After the removal of the tendon and the garrote, we consider important to inspect for communication with joint media and to evaluate hemostasis. This is especially important in cases of intra-articular surgeries, as this communication can cause a large hematoma in the quadriceps postoperatively.[5] This type of hematoma is painful and hinders rehabilitation. Therefore, close the skin and subcutaneous at the end of the procedure, because if there are signs of fluid outflow during surgery, it can be closed.

Ferrer et al.[8] performed a computed tomography (CT) study to verify the pattern of the patellae that suffered fracture after the removal of the quadricipital tendon graft. Fractures are more common in cases in which the block was removed more laterally and when it exceeds more than 30% of the thickness of the patella. This reinforces our thinking of keeping the first incision close to the vast medial. We also believe that a small baguette is enough to perform most procedures that require this type of graft.

Final Considerations

The onset of the incision 5 mm lateral to the medial myotendinea region can prevent the removal of a short graft.

It is possible to remove two of the three layers of the quadricipital graft preserving part of the extensor apparatus and obtain an adequate graft.

Conflito de Interesses

Os autores declaram não haver conflito de interesses.

Work developed in the Department of Surgery - Orthopedics and Traumatology, Universidade Federal do Paraná, Curitiba, PR, Brazil.

• Referências

• 1 Barié A, Köpf M, Jaber A. et al. Long-term follow-up after anterior cruciate ligament reconstruction using a press-fit quadriceps tendon-patellar bone autograft. BMC Musculoskelet Disord 2018; 19 (01) 368
  CrossrefPubMedGoogle Scholar
• 2 Condello V, Zdanowicz U, Di Matteo B. et al. Allograft tendons are a safe and effective option for revision ACL reconstruction: a clinical review. Knee Surg Sports Traumatol Arthrosc 2019; 27 (06) 1771-1781
  CrossrefPubMedGoogle Scholar
• 3 Crawford SN, Waterman BR, Lubowitz JH. Long-term failure of anterior cruciate ligament reconstruction. Arthroscopy 2013; 29 (09) 1566-1571
  CrossrefPubMedGoogle Scholar
• 4 van Eck CF, Illingworth KD, Fu FH. Quadriceps tendon: the forgotten graft. Arthroscopy 2010; 26 (04) 441-442 , author reply 442–443
  CrossrefPubMedGoogle Scholar
• 5 Slone HS, Romine SE, Premkumar A, Xerogeanes JW. Quadriceps tendon autograft for anterior cruciate ligament reconstruction: a comprehensive review of current literature and systematic review of clinical results. Arthroscopy 2015; 31 (03) 541-554
  CrossrefPubMedGoogle Scholar
• 6 DeAngelis JP, Fulkerson JP. Quadriceps tendon--a reliable alternative for reconstruction of the anterior cruciate ligament. Clin Sports Med 2007; 26 (04) 587-596
  CrossrefPubMedGoogle Scholar
• 7 Fulkerson JP, Langeland R. An alternative cruciate reconstruction graft: the central quadriceps tendon. Arthroscopy 1995; 11 (02) 252-254
  CrossrefPubMedGoogle Scholar
• 8 Ferrer GA, Miller RM, Murawski CD. et al. Quantitative analysis of the patella following the harvest of a quadriceps tendon autograft with a bone block. Knee Surg Sports Traumatol Arthrosc 2016; 24 (09) 2899-2905
  CrossrefPubMedGoogle Scholar

Endereço para correspondência

Publication History

Received: 17 August 2020

Accepted: 01 December 2020

Article published online:
13 August 2021

© 2021. Sociedade Brasileira de Ortopedia e Traumatologia. This is an open access article published by Thieme under the terms of the Creative Commons Attribution-NonDerivative-NonCommercial License, permitting copying and reproduction so long as the original work is given appropriate credit. Contents may not be used for commecial purposes, or adapted, remixed, transformed or built upon. (https://creativecommons.org/licenses/by-nc-nd/4.0/)

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• Referências

• 1 Barié A, Köpf M, Jaber A. et al. Long-term follow-up after anterior cruciate ligament reconstruction using a press-fit quadriceps tendon-patellar bone autograft. BMC Musculoskelet Disord 2018; 19 (01) 368
  CrossrefPubMedGoogle Scholar
• 2 Condello V, Zdanowicz U, Di Matteo B. et al. Allograft tendons are a safe and effective option for revision ACL reconstruction: a clinical review. Knee Surg Sports Traumatol Arthrosc 2019; 27 (06) 1771-1781
  CrossrefPubMedGoogle Scholar
• 3 Crawford SN, Waterman BR, Lubowitz JH. Long-term failure of anterior cruciate ligament reconstruction. Arthroscopy 2013; 29 (09) 1566-1571
  CrossrefPubMedGoogle Scholar
• 4 van Eck CF, Illingworth KD, Fu FH. Quadriceps tendon: the forgotten graft. Arthroscopy 2010; 26 (04) 441-442 , author reply 442–443
  CrossrefPubMedGoogle Scholar
• 5 Slone HS, Romine SE, Premkumar A, Xerogeanes JW. Quadriceps tendon autograft for anterior cruciate ligament reconstruction: a comprehensive review of current literature and systematic review of clinical results. Arthroscopy 2015; 31 (03) 541-554
  CrossrefPubMedGoogle Scholar
• 6 DeAngelis JP, Fulkerson JP. Quadriceps tendon--a reliable alternative for reconstruction of the anterior cruciate ligament. Clin Sports Med 2007; 26 (04) 587-596
  CrossrefPubMedGoogle Scholar
• 7 Fulkerson JP, Langeland R. An alternative cruciate reconstruction graft: the central quadriceps tendon. Arthroscopy 1995; 11 (02) 252-254
  CrossrefPubMedGoogle Scholar
• 8 Ferrer GA, Miller RM, Murawski CD. et al. Quantitative analysis of the patella following the harvest of a quadriceps tendon autograft with a bone block. Knee Surg Sports Traumatol Arthrosc 2016; 24 (09) 2899-2905
  CrossrefPubMedGoogle Scholar