Surgery for Anterior Cruciate Ligament Deficiency in Children and Young Adults.
Edited By: Gregory A. Schmale, M.D.
Last updated Wednesday, January 12, 2005
Considering surgeryWhat kinds of surgery are recommended for anterior cruciate ligament deficiency? Surgery for the unstable knee may be considered during the diagnostic as well as the therapeutic phases of treatment.
Exam under anesthesia with stress radiographs may help with
diagnosis. Diagnostic arthroscopy may also be helpful in making the
diagnosis as well as initiating treatment of the knee injury.
Reduction (re-alignment to a more natural position) of displaced
tibial eminence fractures (fractures of the bony bump on the central
tibial plateau that are moved from their natural position) should be
performed via attempts at closed reduction with or without general
anesthesia. Myers and McKeever type II fractures with anterior
displacement and posterior hinging (tilting up of the front of the bony
prominence where the ACL attaches to the tibia) may respond to casting
in full extension, either by pressure of the condyles on the plateau
based fragment or pressure of the notch on the displaced eminence (the
thigh bone may actually push the piece fractured off the top of the
tibia back into place when the knee is extended or straightened).
Menisci ("C"-shaped cartilage rings that serve as bumper between the
thigh and leg bones) may be entrapped under displaced fragments
prohibiting reduction.
Fully displaced fragments, Myers and McKeever type III fractures,
require anatomic reduction and internal fixation. Treatment of these
injuries may proceed via arthroscopic exam. Fixation is performed via
arthroscopically guided suture placement, potentially through drill
holes placed with the ACL tibial guide, and tied over a narrow anterior
tibial bone bridge just medial to the tibial eminence. Arthroscopically
assisted open reduction and internal fixation, by suture(s), epiphyseal
screws, or transphyseal screws may also be performed. Open reduction
and fixation through a small incision on the front of the knee without
the use of arthroscopy may also be performed, though it may miss
concomitant meniscal injuries.
Because interstitial tearing of the anterior cruciate may accompany
avulsion fractures, some laxity may persist despite fixation of
fragments. Recessing fragments prior to fixation so as best restore
prior tension to the ACL may decrease future laxity and decrease the
risk of symptomatic giving-way (buckling or collapse from pain or
weakness).
Acute reconstruction of anterior cruciate ligament deficient knees
(i.e. within the first three weeks after injury) is not indicated
unless significant meniscal injury is suspected. Meniscal repairs have
a higher success rate when performed at the same time as an ACL
reconstruction. Knees having undergone acute ACL reconstruction prior
to restoration of normal motion are at risk for post-operative
stiffness.
Skeletally immature youth deserve a trial of rehabilitation of the
knee with strengthening of secondary stabilizers such as the hamstrings
prior to embarking on reconstruction. High level sports should be
attempted with brace support to prevent meniscal injury from
subluxation events (giving-way episodes). Unlike adults, however,
children and adolescents may be unlikely to apply a knee brace prior to
unorganized play such as recess/playground time after school and prior
to neighborhood pick-up games. It is during these activities that
further knee injury may occur. Graf (1992) noted new meniscal injuries
in ACL deficient knees in seven of twelve patients over an average
period of 15 months. Because of this, reconstruction of the ACL is
recommended in prepubescent skeletally immature patients with laxity
greater than 11-12 mm, i.e. an amount necessary to produce a pivot
shift, despite absence of giving-way events.
The method selected for ACL reconstruction should depend on the
skeletal age of the child. Repair of torn anterior cruciate ligaments
has historically been as unsuccessful in children as it has in adults,
and thus is not recommended. For those children of skeletal age
approaching closure of their femoral and tibial physes or growth
plates, approximately bone age 14 1/2 years in girls and 16 years in
boys, the method of ACL reconstruction selected is of less importance.
For children with more than one to two years of growth remaining,
however, ACL reconstruction may put open physes (still growing at the
knee) at risk for injury and/or early closure. Reconstructions in this
population should not employ the use of grafts with bone blocks placed
into transphyseal tunnels (tunnels that cross the growth plates above
and/or below the knee). Any method employing the use of transphyseal
tunnels puts the physes at risk, though few reports of growth arrests
or angular deformities after such procedures exist in the literature.
Transphyseal tunnels enable isometric or ideal positioning of a graft,
allowing for optimal function of a reconstructed knee. Non-isometric
positioning, via over the top femoral or tibial graft placement may
result in progressive laxity as range of motion is restored in the
post-operative period.
A number of animal studies have helped identify the effects of
drilling tunnels across open physes. Early work in rabbits showed that
drill holes left open across the physes or growth plates of the femur
and tibia lead to bone growth across the tunnels, effectively causing
bony bars and local growth arrests. Drilling across open physes in
canine knees where soft tissue graft filled the tunnels resulted in no
growth arrests in a recent study. Another dog model followed the growth
of the femora and tibia after transphyseal tibial and femoral tunnel
drilling and ACL reconstruction via fascia latta autograft fixed with
80 newtons of tension (greater than typical tension used in fixation of
ADULT ACL grafts). In this model, angular deformities developed over
four months following reconstruction (valgus of the distal femora and
varus of the proximal tibiae), leading the authors to caution against
excessive tension with this form of fixation.
Long term follow-up of a group of young children who have undergone
ACL reconstruction using fixation above and below a graft passed
through transphyseal femoral and tibial tunnels has not been published.
Andrews et al. (1994), reported on eight patients between age 10 and 15
years chronologically, bone age unknown, who underwent ACL
reconstruction with transphyseal tibial tunnels and over the top
allograft placement on the femoral side. No significant limb length
differences were identified at skeletal maturity in any patient. The
transphyseal tunnels were 7 mm in diameter, positioned centrally and
oriented vertically in the proximal tibia. A similar procedure was
employed by Lo et al. (1997) in five patients with a minimum
anticipated growth remaining of 5 cm. One patient in this group at 4
1/2 years follow-up has developed no significant laxity, no angular
deformities at the knee, and no leg length inequalities, with proximal
migration of the femoral fixation suggesting growth and elongation of
the new, reconstructed ligament. The risks of over the top fixation on
the femoral side include exposure of the physis or growth plate and
resulting formation of a bony bar which would arrest growth, and
inadvertent stapling across the physis as performed in one patient in a
series reported by Lipscomb (1988). Because of these risks, small,
centrally and vertically oriented transphyseal tunnels on both the
femoral and tibial sides in pre-pubescent patients with more than one
to two years of growth remaining are recommended using hamstring
autograft. Who should consider anterior cruciate ligament deficiency surgery for anterior cruciate ligament deficiency and in what cases? Children and adolescents with pathologic laxity (positive pivot
shift or greater than 10-12 mm of anterior translation on Lachman’s
test) would benefit most from reconstruction of their anterior cruciate
ligament, so as to protect their knee from meniscal or chondral injury.
Those with ACL deficiency without pathologic laxity would probably
do best to pursue an aggressive non-operative ACL rehabilitation
program. They should participate in sports in a hinged knee brace
designed to prevent against hyperflexion (bending beyond the normal
amount of knee bending), hyperextension (straightening past the normal
amount of knee straightening), varus and valgus deformity (bow-legged
or knock-kneed deformities), and anterior translation of the tibia on
the femur (increased forward slipping of the tibia at the knee) until
such time as they approach within one-two years of skeletal maturity,
or they are unsatisfied with this form of treatment.
For those who fail these tests for non-operative management, and who
have more than one to two years of growth remaining at the knee, we
recommend reconstruction procedures that provide the most anatomic
reconstruction with the least risk of growth arrest or angular
deformity of the knee. The graft should be autograft of semitendonosis
and gracilis tendon. The tibial graft placement should be through a
vertically oriented, centrally located transphyseal tunnel less than or
equal to 7 mm in diameter, with the graft fixed at the tibial
metaphysis. The femoral fixation may be either over the top, well
proximal to the physis, or via a transphyseal femoral tunnel with
proximal metaphyseal cortical fixation.
ACL reconstruction is most effective when the patient follows a
simple exercise program after surgery. Thus, the patient's motivation
and dedication are important elements of the partnership. When performed by an experienced surgeon, how effective is anterior cruciate ligament deficiency surgery for anterior cruciate ligament deficiency likely to be and how long will the benefit last? Satisfaction after this kind of surgery is typically found in greater
than 90% of patients. Though this surgery is performed commonly in
adults by general orthopaedists, those with specialty interests and
experience in sports medicine or pediatric orthopaedics are best
trained to treat this condition in children and adolescents.How urgent is anterior cruciate ligament deficiency surgery for anterior cruciate ligament deficiency? Anterior cruciate reconstruction is an elective procedure that should
not be performed before return of near normal knee motion, unless
meniscal injury (injury to the "C"-shaped cartilage bumper between the
femur and tibia) which may require repair is suspected. The patient and
family have plenty of time to become informed and select their surgeon.What are the most frequent and most serious risks of anterior cruciate ligament deficiency surgery for anterior cruciate ligament deficiency? How common are they? The most serious risks of anterior cruciate ligament surgery in
children and adolescents would be of growth arrest or deformity about
the knee resulting from injury to the growth plate of the tibia or
femur. This complication is not commonly encountered but is potentially
devastating enough to discourage many from pursuing reconstruction in
children with much growth remaining about the knee, particularly those
who are pre-pubescent.
Physeal or bony bars across a growth plate can be treated, however,
with bar resection or osteotomy--bone cutting and realignment--above or
below such a deformity, or with closure of the growth plate on the side
of the knee opposite an increasing deformity. Thus this complication is
treatable and is potentially without long-lasting sequelae
(consequences).
On the other hand, injury to the menisci may lead to early
arthritis, which is not reversible. The menisci help to distribute the
load borne by the knee evenly across the tibial plateau. Injury to the
menisci during youth as a result of an unstable knee with an untreated
ACL deficiency may lead to cartilage injury and painful arthritis in
the future.
Risks of surgery also include graft loosening and recurrence of
instability, infection, nerve or blood vessel injury, and the need for
additional surgeries. There is also an anesthesetic risk to this
procedure, as a general anesthetic is usually employed. If risks occur during or after anterior cruciate ligament deficiency surgery for anterior cruciate ligament deficiency how are they managed? Many of the risks of anterior ligament reconstruction surgery can be
effectively managed if they are promptly identified and treated.
Infections may require a wash-out in the operating room followed by a
course of antibiotics. Rarely, the graft may have to be removed.
Growth arrest is determined by careful monitoring of the growth of
the operative limb in comparison to the non-operative limb. As
described above, such a complication can be effectively treated with
further surgery.
Post-operative stiffness not responding to therapy may require
manipulation or arthroscopy to debride (clear out) scar tissue which
can grow in the notch region of the knee, preventing full flexion
(bending) or extension (straightening).
If the patient has questions or concerns about the course after surgery, the surgeon should be informed as soon as possible.
Surgery for Anterior Cruciate Ligament Deficiency at the University of Washington If you are interested in making an appointment to discuss this procedure, you can request an appointment using our online referrals website. To request a referral online, please click here. You can also call 206-987-3700 to make an appointment.
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