Knee Injuries
https://www.youtube.com/watch?v=y0WDWZX9WLk
Important Structures
 Cruciate ligaments
 Collateral ligaments
 Menisci
 Articular cartilage
 Patellar tendon
Cruciate ligaments
 Control anterior and
posterior movements
 Fit inside the
intercondylar fossa
Collateral ligaments
 Control lateral movement
 Exposed to valgus (MCL) and varus (LCL)
forces
Menisci
 Weight distribution
 Without menisci the weight of
the femur would be
concentrated to one point on
the tibia
 Converts the tibial surface into
a shallow socket
Other Important Structures
 Articular cartilage
◼ 1/4 inch thick
◼ tough and slick
Patella and patellar tendon
Tibial tuberoscity
Patellofemoral groove
Patella acts like a fulcrum to
increase the force of the
quadriceps muscles
Ligaments
 Knee is like a round ball on a
flat surface
 Ligaments provide most of
the support to the knees
 Little structure or support
from the bones
Muscles
 Quadriceps - extension
 Hamstrings - flexion
 IT band from the gluteus
maximus and tensor fascia
latae
Acute Knee Injuries
Anterior Cruciate Ligament Tears
 Can withstand approximately
400 pounds of force
 Common injury particularly in
sports (3% of all athletic
injuries)
 May hear a ‘pop’ sound and
feel the knee give away
Types of ACL Tears
Causes of ACL Injuries
 Cutting (rotation)
 Hyperextension
◼ Straight knee landing
◼ When the knee is
extended, the ACL is at
it’s maximal length
putting it at an
increased risk of
tearing
External factors
 Amount of lower body strength
 Footwear and surface interaction
Unhappy Triad
1. ACL
2. Medial collateral
ligament
3. Medial meniscus
Lachman Test and Anterior Drawer Test
 Normal knees have
2-4 mm of anterior
translation and a solid
end point
 ACL injury will have
increased translation
and a soft end point
Women and ACL Tears
Anterior Cruciate Ligament Injuries in Female
Athletes: Why Are Women More
Susceptible?
James L. Moeller, MD; Mary M. Lamb, MD
THE PHYSICIAN AND SPORTSMEDICINE - VOL
25 - NO. 4 - APRIL 97
NCAA
 Four times more ACL tears in women than men
basketball players.
 Three times more in gymnasts
 2.4 times more in soccer
 Higher rates are also found among women in
team handball, volleyball and alpine skiing
Factors
 Smaller size of ACL
 Smaller intercondylar notch
 Larger Q-angle (doubtful)
◼ normal = 17 degrees in women
◼ Normal = 14 degress in men
Factors
 Weaker hamstrings
◼ Ratio of 10 (quadriceps) to 7 (hamstrings)
 Hormones
◼ Estrogen – reduces collagen strength
◼ Relaxin
ACL Reconstruction
Shockwave
Graft Harvest
Drill
Attach
Rehab
Meniscal Tears
Meniscal Tears
 One of the most commonly injured parts of the knee.
 Symptoms include pain, catching and buckling
 Signs include tenderness and possible clicking
 Meniscal tears occur during twisting motions with the knee
flexed
 Also, they can occur in combination with other injuries such
as a torn ACL (anterior cruciate ligament).
 Older people can injure the meniscus without any trauma
as the cartilage weakens and wears thin over time, setting
the stage for a degenerative tear.
PCL Injuries
PCL Injuries
 The posterior cruciate ligament, or PCL, is not
injured as frequently as the ACL.
 PCL sprains usually occur because the
ligament was pulled or stretched too far,
anterior force to the knee, or a simple
misstep.
 PCL injuries disrupt knee joint stability
because the tibia can sag posteriorly.
 The ends of the femur and tibia rub directly
against each other, causing wear and tear to
the thin, smooth articular cartilage.
 This abrasion may lead to arthritis in the knee.
Treating PCL Injuries
 Patients with PCL tears often do not have
symptoms of instability in their knees, so surgery
is not always needed.
 Many athletes return to activity without
significant impairment after completing a
prescribed rehabilitation program.
 However, if the PCL injury results in an avulsion
fracture, surgery is needed to reattach the
ligament.
 Knee function after this surgery is often quite
good
Collateral Ligament Injuries
Collateral Ligament Injuries
 Injuries to the medial collateral ligament are
usually caused by contact on the lateral side of
the knee
 Accompanied by sharp pain on the inside of
the knee.
 If the medial collateral ligament has a small
partial tear, conservative treatment usually
works.
 If the medial collateral ligament is completely
torn or torn in such a way that ligament fibers
cannot heal, surgery may needed.
 The lateral collateral ligament is rarely injured.
Chronic Injuries
1. Patellar Tendonitis
2. Patellofemoral Pain Syndrome
3. Subluxation of Patella
4. Chondromalacia
5. Osgood-Schlatters Disease
6. IT Band Syndrome
1. Patellar Tendonitist
Patellar Tendonitist
 Due to high deceleration or eccentric forces of the quadriceps at
the knee during landing
 As you land the hamstrings cause your knee to flex to absorb the
shock of impact
 In order to control or decelerate the flexion produced by the
hamstrings, the quadriceps muscles contract eccentricly
 Eccentric contractions occur as the muscle is being lengthened or
stretch
 Eccentric contractions produces high amounts of force, and
therefore stress to the patellar tendon
Patellar Tendonitist
 Prevention: strong quadriceps muscles
Squats Lunges
More Quadriceps Exercises
Leg Extension
Leg Press
More Quadriceps Exercises
Plyometric or Jump Training Uphill Running
2. Subluxation of the Patella
 Partial dislocation of the
patella
 Complete dislocation is rare
and is due to sudden (acute)
trauma
 Weak vastus medialis muscle
may contribute
3. Chondromalacia
 A softening & fissuring of the articular
cartilage of the patella
 Causes
◼ 1. Aging
◼ 2. Mechanical defects (next
slide)
Risk Factors: Subluxation and
Chondromalacia
1. Training errors
◼ Increasing intensity too soon
2. Weak vastus medialis muscle
3. Large Q angle
◼ Greater than 25 for women and
20 for men
4. Pronation of the foot causing
the tibia to medial rotate
5. Gender - more common in
women
6. Poor footwear and/or surface
4. Osgood- Schlatter Disease
 Overuse, not a diesease.
 Inflammation to the patellar tendon at the tibial
tuberoscity
 Most common in adolescents (8-13 year olds girls
and 10-15 year old boys); age of rapid bone
growth
Osgood- Schlatter Disease
 Anterior pain about 2-3 inches below the
patella
 Avulsion fracture
5. IT Band Syndrome - Anatomy
 The ITB moves anteriorly
over the lateral condyle of
the femur as the knee
extends
 The ITB slides posteriorly
over the lateral condyle of
the femur as the knee
flexes
 Recurrent rubbing can
produce irritation and
subsequent inflammation,
especially beneath the
posterior fibers of the ITB,
which are thought to be
tighter against the lateral
femoral condyle than the
anterior fibers.
Causes of ITB Syndrome
 Duration (or mileage)
of exercise
 Hip abductor
weakness
 Tight hip abductors
and/or IT band