Download Pji risk factors

Role of osteotomy in
patellar mal-tracking

Patellar mal-alignment may be defined as a
Translational or rotational deviation of the patella
relative to any axis
It is caused by an abnormal relationship between
 Patella
 Soft tissues surrounding the patella
 Femoral and tibial osseous structures
Eckhoff stated that

‘‘the patella is a passive component of the
extensor mechanism, where the static and
dynamic relationships of the underlying tibia
and femur determine the patellar tracking
pattern’’
 Eckhoff DG,(1997). Clin Orthop Relat Res
The source of such abnormal patellar
kinematics may be

Peri-patellar tissue tightness or laxity

Osteo-chondral dysplasia (trochlear)

Bony abnormalities of the patella
The source of such abnormal patellar
kinematics may be

Rotational mal-alignment of the femur and tibia

Patella alta and patella baja

Inflexibility or weakness of the quadriceps
hamstrings, and iliotibial band (ITB), Achilles
tendon
Well-known risk factors for symptomatic PF malalignment include

Genu valgum

Patella alta

Trochlea dysplasia

Increased TT- TG distance

Femur or tibia mal-rotation
The key to the indications for surgical treatment is

Diagnosis of the specific anatomic defects that
cause the patient's symptoms

This underscores the importance of the history
and physical examination

Abnormal findings are often quite subtle, leading
to a major problem

Deviations in normal limb
alignment

Knee joint flexion-extension axis
advancing sideways

While the body moves forward
These deviations include

Excess femoral anteversion or retroversion

Excess internal or external tibial torsion

Genu valgum or varum

Foot hyper-pronation

Achilles contracture
Torsional deformities of the femur and/or tibia

Often go unrecognized in both adolescents and
adults

Who present with anterior knee pain, and
patellar mal-tracking and/or instability

foot progression angle (FPA)
Averages 10° to 15°

Remains similar despite differences in the torsion
of the tibia or femur

Hip rotation must vary if the torsion of the long
bones changes and the FPA stays constant
Constant foot progression angle (FPA)
is likely because

Proper ankle dorsiflexion cannot occur during gait
if the ankle joint axis is not aligned with the
direction of forward movement

Most stable position of the foot on the ground
If the knee joint twists inward
because the femur twists inward
Lateral pull on the quadriceps
Lateral displacement pull on
the patella
 Strain on the medial MPFL


Are increased

A similar increase of inward
pointing of the knee joint

Excess external tibial torsion
when the foot is pointed
forward

Compression on the lateral
patellar facet is increased

Compression on the medial
patellar facet is decreased
The clinical presentation may be

Pain

Instability

Arthrosis

Combination of these problems

If this force is great

If the trochlear support is
reduced

Medial ligaments may fail,
resulting in lateral patellar
instabilIty

If the trochlear support is normal

The ligament may not fail but
the articular load may increase,
causing arthrosis

Pain in the medial retinaculum is
a common symptom caused by
this increased stress

The dynamic picture is much worse

Ante-version puts the greater
trochanter pointing posteriorly

So there is no hip abduction power
and the pelvis collapses

In an attempt to increase hip
power and put the foot forward

The knee joint must point inward

Even more when there is an
increase in hyper-pronation
Yoshioka and associates (1989, J. Orth. Rech.)
found in male & female

Identical
femoral ante-version
equal genu valgus

But an increase in
external tibial torsion
foot external rotation
in females over males
This increase in external foot rotation may
account for

The apparent increased genu valgus in females

The increased incidence in PF symptoms in
females

Even the increased incidence of ACL tears in
females
Biomechanical study that measured PF contact
pressures concluded that

If an angular deformity and a torsional deformity
coexist, the rotatory component causes the
greater PF changes
 Fujikawa, K;Biomechanics of the patello-femoral
joint. Eng Med ,1983

The goal of operative treatment is to normalize
the biomechanics through restitution of normal
anatomy

The morbidity of surgery may dictate otherwise

When multiple anatomic abnormalities exist, it is
not known which may be more important
Surgery is indicated



Torsion of the femur or tibia exceeding 30° from
normal
Surgery is beneficial
Torsion exceeding 20° from normal
Abnormality less than 20°, the accuracy of surgery
or the morbidity may not justify the smaller
biomechanical changes
•
Clinical symptoms with
Angle > 2SD on CT Scan
•
Rotational osteotomy
Distal realignment procedures modify the



Medial-lateral
Anterior-posterior
Proximal-distal positions
of the patella by transfer of the tibial tubercle
The primary contraindication

Absence of a distinct anatomic defect

Because the goal of surgery is to restore normal
anatomy of the extensor mechanism
A specific contraindication to extensor mechanism
surgery is the presence of



Excessive hip anteversion or
Abnormal external tibial torsion
In these patients, a femoral or tibial derotation
osteotomy may be indicated
Patella alta

Congenital abnormality

An increased vertical position of the patella

Due to an elongated patellar tendon

Patella not engaging within the trochlea until a
mid-flexion range of motion

Patella instability or pain

Decrease in PF joint contact area at all knee flexion
angles

Risk for early PF arthritis

In most patients, other abnormalities of the
extensor mechanism are usually present
Cartilage lesions typically

Infero-lateral portion of the lateral patella facet

Lateral region of the trochlea
Indications for surgery

Recurrent dislocations

Anterior knee pain
that has not responded to conservative treatment

Patient is advised that symptoms of anterior knee
pain related to the arthritis will continue

It is thus preferable to correct a symptomatic
patellar alta condition early prior to the
development of cartilage deterioration
The goal

Restore a normal patellar height index

Patello-trochlear contact (~30% of the inferior patellar
articular cartilage) has engaged the trochlear at full
extension
When a distal transfer of the patellar tendon

Tenodesis of the tendon at the tibial insertion site
would restore normal tendon length

Decrease side-to-side patellar mobility, given the
high percentage of associated trochlear dysplasia
Indications (Fulkerson)

Patello-femoral pain

Either lateral or distal patellar arthrosis

Lateral subluxation/dislocations of the patella
The ideal candidate is someone with

Lateral patellar tilt (and/or subluxation) associated

With grade III or IV articular degeneration

Localized to the lateral and/or distal medial
patellar facets




Contraindications
No mal-alignment
Occult medial patella subluxation
Diffuse patellar articular cartilage disease
(especially at the proximal pole)
Mild articular changes (grade I or II) with tilt, and
no subluxation
 May be better treated with an isolated lateral
release

In patella mal-tracking
Abnormal findings are often quite subtle, but
combinations are surprisingly common

Torsional deformities are often unrecognized

For local cartilage lesions distal realignment may
be appropriate

Exact pre-op planning is necessary for
satisfactory outcome
Thanks for your attention