ACL Injury Prevention Training for Young Athletes
Steve
Daisey MPT, CSCS
ACL injury
is devastating to a young athlete, virtually always requiring
surgery, and at least 4 to 6 months of rehabilitation before
returning to a competitive level. Nearly 80% of the time, injury
occurs without contact from another player (1). In other words,
at a high speed, the muscular system failed to protect the knee
joint adequately, excessive stress was transferred to the ACL,
and it simply snapped.
Females
are at an even greater risk than males, injuring their ACLs
at six times the rate of males (2). There are numerous theories
as to why this occurs including hormone estrogen level (3),
anatomical differences related to pelvic structure (4) and the
smaller size of the female ACL coupled with a narrower notch
where it attaches on the femur (5).
Recently,
research has shifted focus to the movement patterns and training
techniques of the male and female athletes. From that research,
some startling discoveries have been made.
In a landmark
study in 1996, female athletes were found to have a marked imbalance
of the strength and power between their hamstrings and quadriceps
as compared to males (6). Because of this imbalance, forces
within the knee when decelerating from a jump or sprint were
much higher in those athletes with less active hamstrings (6).
Studies have shown that the hamstrings play a pivotal role in
stabilizing the knee and protecting the ACL when the knee is
bending while decelerating (6-8).
What is
most exciting is that these studies, along with others, have
found that training to correct this imbalance appeats to result
in a lower incidence of ACL injury (9,10)
At Seneca,
through our Beyond Fitness
program, we have taken this research a few practical steps further.
We recognize that in normal, efficient sports movement mechanics,
the hip joint should take the majority of the stress of deceleration.
In other words, athletes who frequently injure their knees,
generally over-use their knees and under-use their hips.
If you watch
a mature, seasoned, well-trained athlete move, you will see
them move through their hips quickly and efficiently. This means
that the athlete dominates with his or her hamstrings and gluteals
(which cross the hip) moreso than the quadriceps (which for
the most part does not cross the hip). This goes beyond strength,
and has more to do with what part of the body the brain tells
to stress first and stress most. A young athlete at risk
will often over-flex the knees during movement. This can be
seen by the knees translating far in front of the feet when
decelerating, landing and squatting.
I have included
3 exercises that are designed to teach the hamstrings and gluteals
to be more dominant, thereby creating movement patterns in
the athlete which will allow forces to be decelerated at the
hip and less at the knee. This is accomplished by emphasizing
the hamstrings and gluteals.
While these
are very basic exercises and represent only a fraction of a
thorough ACL injury prevention program, they provide an excellent
beginning foundation.
THE
SQUAT
This is one
of the most important movements in sports. If an athlete cannot
perform this correctly, he or she will be unable to use the
hips efficiently, placing entirely too much stress on the knees.
Squat down
to the floor as shown. Have someone watch to make sure your
back is straight, you are bending at the hips, and that your
knees do not go in front of your toes. Keep your head over your
feet.
Do 20 correct
repetitions of this each afternoon and each night, for a total
of 40 each day. You should feel this primarily in your hamstring
(back of the leg) and gluteal (buttock) region, but not get
overly fatigued there.
Stop if
you feel this in the knees at all or if all the fatigue is felt
entirely in the quadriceps muscle (front thigh). Have someone
else look at the picture and watch you at the same time to critique
your form.
LATERAL
LUNGES
The lateral lunge forces the athlete to decelerate
movement through one hip at a time, placing greater emphasis
on the gluteals and hamstrings. It also trains the young athlete
to move correctly in the lateral direction, where many injuries
occur.
Step to
one side and squat toward the floor. Drop your hip down and
back. Let your trailing leg relax and lag behind as shown.
Keep the back straight and your knees behind your toes.
Get down toward the floor by dropping and bending your hip.
Hold for one second. You should feel this mostly in the hamstrings
and gluteals. Stop if you feel anything in the knee joint itself.
LATERAL
BOUNDING
The next
step is to take the lateral lunge and turn it into a ballistic
training exercise. Lateral bounds train the hamstrings and gluteals
to decelerate the body at real-time speed, making it a very
functional ACL prevention exercise. And because the ankles are
involved in slowing the momentum of the lateral movement, this
becomes an excellent ankle sprain prevention exercise as well.
Lateral
bounds are performed by hopping from one foot to the other in
a quick motion, with very little ground-contact time. Imagine
you are bouncing from one trampoline to another. The same form
applies - knees should not be in front of the toes when landing.
Keep the back straight and bend at the hips. Landing should
be soft and quiet with minimal ground-contact time (see movie
below).
Try doing
two sets of 20 to 30 seconds with a one-minute rest in between.
As with the previous two exercises, it is important that you
feel this in the hips, hamstrings and/or gluteals and NOT in
the knee or too much in the quadriceps.
As
most young athletes are in-season this time of year, it is
important not to over-do these exercises. While you can do
the free-standing squats each day in order to practice your
form, try the others twice each week. They can be done as
part of a warm-up or a cool-down to practices.
References:
1. Noyes FR,
et al: The symptomatic anterior cruciate-deficient knee. Part
1: The long-term functional disability in athletically active
individuals. J Bone Joint Surg 1983; 65A: 154-62.
2. Lindenfeld TN, et al: Incidence of injury in indoor soccer.
Am J Sports Med 1994; 22: 364-71.
3. Wojtys EM, et al: Association between the menstrual cycle and
anterior cruciate ligament injuries in femal athletes. Am J Sports
Med 1998; 26: 614-9.
4. Haycock CE, Gilette JV: Susceptibility of women athletes to
injury: Myth vs. reality JAMA 1976; 236: 163-5.
5. Shelbourne KD, et al: The relationship between intercondylar
notch width of the femur and the incidence of anterior cruciate
ligament tears. A prospective study. Am J Sports Med 1998; 26:
402-8.
6. Hewett TE, et al: Plometric training in female athletes: Decreased
impact forces and increased hamstring torques. Am J Sports Med
1996; 24: 765-76.
7. Baratta R, et al: Muscular coactivation: The role of the antagonist
musculature in maintaining knee stability. Am J Sports Med 1998;
16:113-22.
8. More RC, et al: Hamstrings - an anterior cruciate ligament
protagonist: An in-vitro study. Am J Sports Med 1993; 21: 231-7.
9. Hewitt TE, et al: Neuromuscular training and knee injury in
female athletes: A prospective study. Am J Sports Med 1999; 27:
699-705.
10. Caraffa A, et al: Prevention of anterior cruciate ligament
injuries in soccer: A prospective controlled study of proprioceptive
training. Knee Surg Sports Traumatol Arthrosc 1996; 4(1): 19-21.
