Anatomy, Bony Pelvis and Lower Limb, Popliteus Muscle


Article Author:
Scott Hyland


Article Editor:
Matthew Varacallo


Editors In Chief:
Dustin Constant
Donald Kushner


Managing Editors:
Avais Raja
Orawan Chaigasame
Carrie Smith
Abdul Waheed
Khalid Alsayouri
Trevor Nezwek
Radia Jamil
Erin Hughes
Patrick Le
Anoosh Zafar Gondal
Saad Nazir
William Gossman
Hassam Zulfiqar
Hussain Sajjad
Steve Bhimji
Muhammad Hashmi
John Shell
Matthew Varacallo
Heba Mahdy
Ahmad Malik
Sarosh Vaqar
Mark Pellegrini
James Hughes
Beata Beatty
Beenish Sohail
Nazia Sadiq
Hajira Basit
Phillip Hynes


Updated:
11/14/2018 12:02:15 AM

Introduction

Despite its small size, the popliteus is a major stabilizer of the knee. The popliteus is involved in both the closed chain phase and open chain phase of the gait cycle. During the closed chain phase, which is when the foot is in contact with the ground, the muscle externally rotates the femur on the tibia. In the open chain phase, or swing phase of the limb, the popliteus acts to internally rotate the tibia on the femur.[1] The popliteus is accompanied by the tibialis posterior, flexor digitorum longus, and flexor hallucis longus forming the deep posterior compartment of the leg. It forms the base of the popliteal fossa and is the only muscle of either the deep posterior or superficial posterior fossa to act solely on the knee joint as a posterolateral stabilizer.

Often overlooked as a critical stabilizer of the knee joint, the popliteus can commonly be involved in posterolateral corner injuries of the knee.  These injuries typically occur secondary to a varus force or direct blow to the knee (from medial to lateral). Diagnostic imaging of choice is magnetic resonance imaging (MRI) for evaluation and dysfunction. MRI can also point to other related issues within the knee. An iatrogenic popliteal injury may result in a future poor functional outcome and is critical to address, particularly following knee reconstruction surgery. Patients with anatomically smaller knees may also be at increased risk for popliteal injury.[2]

Structure and Function

The muscle fibers of the popliteus originate from the lateral femoral condyle of the femur and insert on the posterior surface of the tibia, superior to the soleal line. Cadaveric dissections have also revealed fibers originating from the styloid portion of the fibular head and run obliquely blending with the main muscular structure. The popliteus is a capsular structure although extra-articular and separates the lateral meniscus from the lateral collateral ligament.[3][4]

The popliteus also assists in knee flexion. Its function is dependent on whether the lower extremity is in a weight-bearing or non-weight bearing state; it is considered the primary internal rotator of the tibia in the non-weight-bearing state.[5] "Locking" the knee occurs with extension during weight bearing. This describes the femur medially rotating on the tibia, allowing for full extension without muscular expenditure. When "unlocking" the knee, the popliteus contracts causing flexion and lateral rotation of the femur on the tibia. This is why some refer to the popliteus as the "key" to the locked knee.[1]

There are attachments between the popliteus and the lateral meniscus. When the knee motions into flexion the popliteus retracts the lateral meniscus posteriorly to avoid being entrapped between the femur and tibia.[4]

Embryology

The mesoderm is the middle layer of the trilaminar disc of tissue that is formed as a result of gastrulation in a fetus. Surrounded by the endoderm and ectoderm, the mesoderm is the structure giving rise to connective tissue and muscle of the human body aside from muscle of the head, which is developed from neural crest tissue. Thus, the popliteus muscle originates from the mesoderm.[6] The popliteus muscle has several surrounding attachments and ligaments -- the most important ones include ligamentous connections to the lateral meniscus and fibular head are formed during the cavitation that ultimately forms the residing bursa, and forms obliquely consistent with the musculotendinous structures. Although there is no direct ligamentous attachment from the posterolateral femur to the tibia, an indirect relationship exists between the popliteal tendon and the fibular head known as the popliteofibular ligament.[7]

Blood Supply and Lymphatics

Arterial supply to the popliteus is provided by the medial inferior genicular branch of the popliteal artery and muscular branch of the posterior tibial artery.[8] Lymphatic drainage extends to the popliteal nodes and subsequently drains to the deep inguinal nodes of the thigh. Mapping and determining lymphatic flow is important when considering infectious or metastatic processes.[9]

Nerves

The tibial nerve innervates the popliteus from spinal nerve roots L5 through S1. Previous studies revealed approximately 2 to 3 parallel tibial nerve branches. The entry point of the nerve is the lateral distal margin of the muscle found inferior to the fibular head. After entry, the nerve splits into anterior, medial, and lateral distributions throughout the muscle.[10]

Muscles

There are 4 compartments of the leg, of which the deep posterior compartment is where the popliteus resides. Other muscles that are also in the deep posterior compartment accompanying the popliteus are the following:

  • Flexor hallucis longus: Originates at the distal portion of the fibula and inferior interosseus membrane and inserts at the base of the distal phalanx of the great toe. It is innervated by the tibial nerve (S1, S2) and functions to support the medial longitudinal arch of the foot. Contraction also flexes the great toe and serves as a secondary plantar flexor. 
  • Flexor digitorum longus: Originates posteromedial aspect of the tibia and broad tendon of the fibula. Insertion is seen at the distal phalanges of digits 2 to 5 and is also innervated by the tibial nerve (S1, S2). It supports longitudinal arches, enables plantarflexion of the ankle and flexion of toes 2 through 4
  • Tibialis posterior: Originates from the interosseous membrane, posterior tibial surface inferior to the soleal line, and posterior fibular surface. The tibialis posterior inserts at the tuberosity of navicular, cuneiform, cuboid, and sustentaculum tali of the calcaneus in addition to the bases of metatarsals 2 to 4. Innervated by the tibial nerve (L4 to L5). This muscle is a major plantar flexor and inverter of the ankle.

Physiologic Variants

Occasionally, a small sesamoid bone called a cyamella can be seen embedded in the popliteal tendon. Sesamoid bones are accessory bones typically found in muscles or tendons that assist in physiologic function. The cyamella is located in the tendon inferior to the joint line or at the musculotendinous junction which is superior to the joint line. Articulation can be seen with the lateral condyle of the tibia and is naturally close to the fibular head. This variant does not usually become physically impairing, but they can cause pain mimicking a posterolateral meniscal tear.[11]

The popliteus minor and peroneal tibialis muscles are uncommonly seen in relation to the popliteus. The popliteus minor, if present, can be found medial to the plantaris and inserts onto the posterior ligament of the knee. The peroneal tibialis is also seen in a limited portion of the general population. When present, it can be found lying below the popliteus, medial to the fibular head, and extending to the superior portion of the oblique line of the tibia. Both structures have a very limited discussion in the current literature.

Surgical Considerations

Total Knee Replacement

Although the most recent reports still cite that up to 1 in 5 patients remain dissatisfied following TKA, the risks of patient-reported dissatisfaction can be mitigated by selectively operating on patients that have had other potentially relevant clinical pathologies like hip and/or back conditions ruled out as confounding pain generators. Success following TKA results in significant improvements in patient-reported pain and functional outcome scores in the short- and long-term postoperative periods [12].  One reason for unexplained persistent knee pain following total knee replacement is secondary to popliteal impingement on the femoral component during total knee range of motion.

Mechanical symptoms can develop following this major operation due to interaction with femoral components of the prosthesis. Ultrasound-guided injections are used to confirm the diagnosis and may be used therapeutically if the patient finds consistent relief, however, there is a higher infection risk with injecting around a prosthetic knee.[13] Ultimately, the patient may benefit from popliteal tendon release due to extensive scar tissue development of the tendon following a total knee replacement.[14]

Another consideration that may also be taken to avoid popliteal tendon dysfunction is the actual size of the prosthesis. The variation in the size of femoral and tibial components, even if fitted appropriately, can result in popliteal tendon impingement. Studies have shown that normalized or oversized tibial components can cause abnormal physiologic function of the popliteus through the arc of motion of the lower extremity. Undersized tibial component showed no change in pre-surgical physiological motion.[15]

Approaches to the knee

Several approaches to the posterolateral corner of the knee have been described in the literature concerning popliteal tendon repair. The historic, more common approach has been an open repair, but arthroscopic techniques have been developed in recent years. The popliteal tendon insertion is intracapsular, so when an open approach is undergone, a capsulotomy must be performed. One must consider the possible complications due to exposure such as wound drainage, intraarticular sinus formation, infection, and stiffness. Arthroscopy certainly comes with risk as does any operation; however, this approach may limit the mentioned complications.[16]

Clinical Significance

Posterolateral Corner Knee Injuries

The popliteus is most often injured as part of an associated posterolateral corner (PLC) knee injury.  PLC injuries occur secondary to 

  • Direct blows to the anteromedial knee
  • Varus blows to the flexed knee
  • Varus/Hyperextension, (contact or non-contact injuries)
  • Knee dislocations

In any setting of these aforementioned injuries, urgent evaluation of the patient's neurovascular status of the limb is performed.  In the setting of knee dislocations, the vascular status of the limb is assessed, followed by closed reduction of the knee joint.  The vascular status is then reassessed, typically utilizing Ankle Brachial Index (ABI) measurements.  Patients should be admitted for serial observations, and in some situations, either an external fixator must be placed by the orthopedic surgeon, or a vascular repair is performed by the trauma/vascular surgeon on call.  With respect to the latter two modalities, the external fixator is placed prior to the vascular repair in order to optimize the stability of the knee/limb prior to performing the potentially limb-saving vascular repair.

PLC knee injuries are clinically examined utilizing the following exam maneuvers:

  • Varus stress at 0 degrees of knee extension: positive laxity indicates injury to the LCL and one of the cruciate ligaments (ACL or PCL)
  • Varus stress at 30 degrees of knee extension: positive laxity at 30 degrees indicates injury only to the LCL (much more rare)
  • Dial test: External rotation is compared between the normal and injuries lower extremity.  External rotation asymmetry (> 10 degrees) of the affected side compared to the normal side at 30 degrees only is indicative of PLC injury; If the external rotation asymmetry persists at 90 degrees as well, this would suggest a combined injury to the PLC and PCL

Isolated popliteus injuries:

The Garrick test can assist in assessing popliteus etiology of the lateral knee pain. The Garrick test consists of the patient lying supine with hips and knees flexed to 90 degrees with subsequent resisted internal rotation and passive external rotation of the knee. If either elicits pain, then the test is considered positive and may suggest popliteal etiology, although accuracy has not been evaluated. Symptoms can be reproduced by downhill running with exaggerated stride length. Ultrasound imaging and MRI may also be helpful in confirming the diagnosis.[17] 

Popliteus tendinopathy is a condition presenting as posterolateral knee pain that can be difficult to single out due to other more common knee pain etiologies in the vicinity. The popliteus serves to inhibit excessive tibial rotation and prevent significant anterior translation of the knee. This mechanism can be pathologically overcome secondary to excessive sprinting or running downhill.  Clinicians should advise patients to avoid terrain that has exacerbated their symptoms. They may re-introduce physical activity by running on flat surfaces such as a treadmill, but those who have a more difficult recovery may benefit from a course of physical therapy or home exercise program. NSAID medication or cryotherapy may be added to the patient's regimen which could be beneficial during the recovery phase. Lunge exercises also have been shown to improve stabilization of the knee and may increase in weight resistance as pain allows. It is important to gradually increase the workload on the lower extremity to avoid re-injury or exacerbation that may lead to a chronic problem.[18]

Most of these injuries heal without further issue or complication. Recovery time may take anywhere from 3 to 16 weeks and can resume full physical activity without restriction after completing a functional assessment. Professional functional assessment has been found to be more reliable in terms of return to restrictionless activity than a set time.


  • Image 7078 Not availableImage 7078 Not available
    Image courtesy S Bhimji MD
Attributed To: Image courtesy S Bhimji MD

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Anatomy, Bony Pelvis and Lower Limb, Popliteus Muscle - Questions

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Which of the following muscles rotates the femur laterally on the tibia?



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Which muscle unlocks the knee joint when one starts flexion motion?



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The vessel providing the arterial supply of the popliteus muscle is a branch of which larger artery?



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If present, what anatomical variation can be found medial to the plantaris muscle?



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Which motion would one expect due to the popliteal mechanism in knee flexion in open chain phase while walking?



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The popliteus muscle inserts at what location?



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Anatomy, Bony Pelvis and Lower Limb, Popliteus Muscle - References

References

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de Simone V,Demey G,Magnussen RA,Lustig S,Servien E,Neyret P, Iatrogenic popliteus tendon injury during total knee arthroplasty results in decreased knee function two to three years postoperatively. International orthopaedics. 2012 Oct     [PubMed]
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Oransky M,Canero G,Maiotti M, Embryonic development of the posterolateral structures of the knee. The Anatomical record. 1989 Dec     [PubMed]
Thompson JH,Jahangir A, Fracture, Tibia null. 2018 Jan     [PubMed]
Pan WR,Zeng FQ,Wang DG,Qiu ZQ, Perforating and deep lymphatic vessels in the knee region: an anatomical study and clinical implications. ANZ journal of surgery. 2017 May     [PubMed]
Rehmatullah N,McNair R,Sanchez-Ballester J, A cyamella causing popliteal tendonitis. Annals of the Royal College of Surgeons of England. 2014 Jan     [PubMed]
Westermann RW,Daniel JW,Callaghan JJ,Amendola A, Arthroscopic Management of Popliteal Tendon Dysfunction in Total Knee Arthroplasty. Arthroscopy techniques. 2015 Oct     [PubMed]
Bonnin MP,de Kok A,Verstraete M,Van Hoof T,Van Der Straten C,Saffarini M,Victor J, Popliteus impingement after TKA may occur with well-sized prostheses. Knee surgery, sports traumatology, arthroscopy : official journal of the ESSKA. 2017 Jun     [PubMed]
Geannette C,Sahr M,Mayman D,Miller TT, Ultrasound Diagnosis of Osteophytic Impingement of the Popliteus Tendon After Total Knee Replacement. Journal of ultrasound in medicine : official journal of the American Institute of Ultrasound in Medicine. 2018 Feb 24     [PubMed]
Salzler MJ,Martin SD, All-arthroscopic anatomic repair of an avulsed popliteus tendon in a multiple ligament-injured knee. Orthopedics. 2012 Jun     [PubMed]
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