Anterior cruciate ligament reconstruction surgery, aspects of graft choice, graft fixation and bone mineral loss
Abstract
The aim of this thesis was to measure bone mineral changes in the calcanei, hips and lumbar
spine of patients reconstructed
with bone-patellar
tendon-bone
(BPTB)
or hamstring
tendon
(HT)
autografts
following
anterior
cruciate
ligament (ACL)
injury.
Furthermore,
the
aim was to compare
the clinical
results
after
ACL
revision
reconstruction
with either
reharvested
ipsilateral
or contralateral
BPTB
autografts.
A third
aim was to compare
bone
tunnel widening after ACL reconstruction using either bioabsorbable or metal interference
screws. In Study I, bone mineral areal mass (BMA) was measured in the calcanei using the
dual-energy photon absorptiometry (DPA) technique in 92 male patients scheduled for
ACL reconstruction using BPTB autografts. The patients had a significantly lower BMA
on the injured side compared with the uninjured side, before the reconstruction and two
years after the reconstruction. A high level of activity correlated with the BMA on both
the injured and the uninjured side two years after the reconstruction. In Study V, BMA was
prospectively measured using the dual-energy X-ray absorptiometry (DEXA) technique in
67 patients scheduled for ACL reconstruction with HT autografts. After five years both female
and male patients had
lost more
BMA in the calcanei
and the hips compared
with the
age-dependent
decrease
in reference
populations
made
up of normal
healthy
individuals.
The
BMA
loss was not correlated
with activity
level,
knee function
scores
or the health-related
quality-of-life
score
EQ-5D.
In Study
III,
77 patients,
scheduled
for
ACL
reconstruction
using
HT
autografts
were
randomised
to poly-L-lactide
acid
(PLLA)
or metallic
screw
fixation
of
the grafts.
After
eight years,
the bone-tunnel
widening
was
significantly
larger
on
the
femoral
side but not on
the tibial side in the PLLA
group
compared
with the metal group.
There
were
no differences
in the clinical
evaluation
parameters
between
the two
groups
after
eight years.
In Study
II,
24 patients underwent
surgery
using reharvested
or primary
harvested
patellar
tendon
grafts
in
ACL
revision
reconstruction
and
they
were
assessed
after
two
years
in terms
of their subjective
and objective
outcome,
activity
level
and MRI
findings
relating
to the patellar
tendons.
The
patients who were
given
primary
harvested,
contralateral
BPTB
grafts
had
a significantly
better outcome
in the Lysholm
knee score
than the
patients
who were
given
reharvested
BPTB
grafts.
Magnetic resonance
imaging (MRI)
findings
were
unable to detect any
differences
in the length,
width,
thickness
or size
of the
residual
gaps in the
reharvested
tendons
compared
with
the primary
harvested
tendons.
In
Study
IV,
patients from
the reharvested
group
returned
for
histological,
radiographic
and
clinical
evaluation
three
and ten years
after
the ACL
revision
reconstruction.
Histological
evaluation
revealed
that,
after
three
years,
the tendons
showed
signs of “ligamentisation”
with
an increased
number of cells,
capillaries
and glycosaminoglycan
content.
Parts of work
I. Bone mineral assessments in the calcaneus after anterior cruciate ligament injury. An investigation of 92 male patients before and two years after reconstruction or revision surgery. Kartus J, Stener S, Nilsén R, Nilsson U, Eriksson BI, Karlsson J. Scand J Med Sci Sports 1998;8(6):449-455. ::PMID::9863984 II. Ipsi- or contralateral patellar tendon graft in anterior cruciate ligament revision surgery. A comparison of two methods.
Kartus J, Stener S, Lindahl S, Eriksson BI, Karlsson J.
Am J Sports Med. 1998;26(4):499-504.
::PMID::9689367 III. A long-term, prospective, randomized study comparing biodegradable and metal interference screws in anterior cruciate ligament reconstruction surgery: radiographic results and clinical outcome.
Stener S, Ejerhed L, Sernert N, Laxdal G, Rostgård-Christensen L, Kartus J.
Am J Sports Med. 2010;38(8):1598-1605. ::PMID::20392970 IV. The reharvested patellar tendon has the potential for ligamentization when used for revision ACL surgery.
Stener S, Ejerhed L, Sernert N, Movin T, Papadogiannakis N, Kartus J.
Knee Surg Sports Traumatol Arthrosc 2012;20(6):1168-1174.
::PMID::22310901 V. Anterior cruciate ligament reconstruction reduces bone mineral areal mass.
Stener S, Kartus J, Ejerhed L.
Arthroscopy; Accepted for publication
Degree
Doctor of Philosophy (Medicine)
University
University of Gothenburg. Sahlgrenska Academy
Institution
Institute of Clincial Sciences. Department of Orthopaedics
Disputation
Fredagen den 8 november 2013, kl. 09.00, Mölndalsaulan, V-huset, Mölndals sjukhus
Date of defence
2013-11-08
sven.stener@vgregion.se
Date
2013-10-25Author
Stener, Sven
Keywords
Anterior cruciate ligament
Reconstruction
Revision
PLLA
Bone mineral areal mass
DEXA
Publication type
Doctoral thesis
ISBN
978-91-628-8738-4
Language
eng