• www.sportordination.at
  • www.sportordination.at
  • www.sportordination.at
  • www.sportordination.at
  • www.sportordination.at

Patella

The kneecap, also known as the patella, transfers the strength of the extensor musculature (quadriceps tendon) in the thigh to the lower leg. In doing so, the patella glides, like a type of drive belt, in a trough-shaped articular surface in the femur. The sliding surface of the knee joint consists of joint cartilage, which reduces the stress on the joint due to its elasticity and its special texture enables wear-free joint function. If these cartilage surfaces close, cartilage damage occurs.


LATERALISATION OF THE PATELLA/PATELLAR SUBLUXATION:

 

A deviation of the patella from the articular surface may occur congenitally, through a lack of muscular direction or even as a result of previous patellar injuries. This is called lateralisation of the patella or patellar subluxation. The deviation from the articular surface leads to increased contact pressure of the patella on the articular surface, which can result in damage to the joint cartilage and lead to arthrosis. Often it is not only pain that occurs but also pronounced joint noise behind the kneecap.

The treatment of choice is a relieving incision, which can also be carried out arthroscopically, to reduce the pull on the patella from outside and to further optimise the pulling direction with concomitant capsulorrhaphy on the medial side. The pressure will therefore be distributed evenly behind the kneecap again and the damaged cartilage has the potential to heal. Otherwise, appropriate additional treatment measures (see cartilage) are required. Concomitant physiotherapy can and should be commenced shortly after the operation.


KNEECAP DISLOCATION (Patellar dislocation):

 

Dislocation of the patella (kneecap dislocation) from the femoral groove can occur at any age. However it is often a common problem for young girls and women and more rarely occurs in young boys and men. Depending on the anatomical basis, the patellar dislocation occurs due to a pre-existing weakness in the muscles and ligaments or due to sufficient application of force. In all cases, the medial groove of the patella ruptures and causes the patella to dislocate, i.e. it springs out laterally. The patella often does not stay fixed laterally but springs back spontaneously. The springing back can cause injuries in the region of the cartilage. In an X-ray, significant tilting and lateral displacement of the patella is seen in the images of the kneecap and smaller cracked splinters, for example, can be shown. Suitable treatment is decided upon depending on the malposition of the patella following dislocation and the diagnosis of cartilage damage.
In many cases, there is a predisposition for the dislocation of the patella (=habitual dislocation) - this is more common in women than in men. The cause of this is incorrect formation of the patella guide channel (trochlear hypoplasia). The patella therefore has no available guide trough and only an inclined plane. As a result of this predisposition, the patella also does not develop correctly, a so-called Jägerhut patella occurs (see also Wiberg classification of patella shapes)

 

TREATMENT:

 

As pronounced knee joint effusion usually occurs, arthroscopy is recommended as the blood and blood by-products can damage the cartilage. In the context of the arthroscopy, the blood is removed from the joint and the cartilage surfaces are examined for any damage. In the event that a larger osseous avulsion exists, this can be refixed arthroscopically or in an open procedure. The main problem, however, is often the tear in the region of the medial patellofemoral ligament. I recommend one of the following treatment methods, depending on the patient's age, the injury and malposition.

  • In the case of a very slight malposition, which can be diagnosed by means of X-ray as well as using arthroscopy, consistent physiotherapy is carried out, regardless of age or gender. Physiotherapy serves to improve the centring of the patella, during which the musculature that pulls the kneecap medially is primarily strengthened. A final clinical follow-up check and corresponding X-ray imaging are carried out after three months. It can then be decided whether the treatment can be concluded.
  • If there is an older injury, the patient is elderly, or if the malposition has already balanced itself out well with a flexed position of 20°, arthroscopic relief of weight-bearing on the lateral fixation apparatus (lateral release) is completely adequate. It must be confirmed, however, using MRI, that the medial patellofemoral ligament (MPFL) is intact! Optimised guiding of the patella can then be achieved during physiotherapeutic follow-up care (the same as stated above). A final clinical follow-up check and corresponding X-ray imaging are also carried out here after three months.
  • If this concerns a fresh dislocation, the patella is markedly obliquely positioned and an extensive tear formation is located on the medial side, I recommend arthroscopic or open suturing and reconstruction of the medial ligament. The indication for lateral release should only be made in exceptional cases, as it has been demonstrated that lateral release operations can also lead to uncomfortable instability of the patella. After the operation, the knee is immobilised in a splint for four weeks. The patient must not bear weight for the first 14 days and must be mobilised using crutches. Further weight bearing is carried out according to the pain. Physiotherapeutic exercises can be commenced from two weeks after the operation. Concomitant strength training can be carried out after six weeks. A clinical follow-up check and follow-up X-rays are also compulsory here after three months.
  • If patellar dislocation has already occurred several times (recurrent patellar dislocation), precise clinical investigation must be carried out: if there is hypoplasia of the articular surface, the patella is stable in a flexed position of 90°, something has to be carried out on the articular surface; is the medial femoropatellar ligament (MPFL) that stabilises the patella in a medial direction intact? What does the cartilage look like behind the patella?
Image: Schematic depiction of the MPFL reconstruction (with permission from Arthrex)

After the operation, the knee is immobilised in a splint for six weeks. In the first two weeks, no weight bearing is permitted and the knee joint should not be flexed by more than 30°. The patient can then bear weight with half of their body weight after two weeks and the leg can be flexed by up to 90° (for another four weeks). The splint can be removed after six weeks if progress is normal. Physiotherapy is commenced immediately.


PATELLAR DISLOCATION IN CHILDREN AND ADOLESCENTS:

 

Frequently occurring patellar dislocation can lead to severe destruction of the cartilage behind the kneecap, even in childhood or adolescence, with free pieces of cartilage in the joint and the risk of early-onset arthrosis. Following investigation of the leg axis and the articular surfaces, you should NOT wait until growing has concluded, but rather carry out MPFL reconstruction as quickly as possible - the anterior cruciate ligament should also be replaced in children and adolescents in this way in the case of an unstable cruciate ligament situation, in order to prevent premature destruction of the joint.

References: click here

 

Please note that medical indications and treatments change constantly. Sometimes these changes occur more rapidly than I am able to update on my homepage. Some information regarding dosage, prescription and compositions of medications may have changed in the meantime. Reading an internet page cannot replace visiting a doctor - it may be that during an examination and subsequent discussion with your doctor, other information is also communicated as a result of new scientific knowledge.