Aims. Cartilage injuries rarely heal spontaneously and often require surgical intervention, leading to the formation of biomechanically inferior fibrous tissue. This study aimed to evaluate the possible effect of
We examined whether enamel matrix derivative
(EMD) could improve healing of the tendon–bone interface following
reconstruction of the anterior cruciate ligament (ACL) using a hamstring
tendon in a rat model. ACL reconstruction was performed in both
knees of 30 Sprague-Dawley rats using the flexor digitorum tendon.
The effect of commercially available EMD (EMDOGAIN), a preparation
of matrix proteins from developing porcine teeth, was evaluated.
In the left knee joint the space around the tendon–bone interface
was filled with 40 µl of EMD mixed with propylene glycol alginate
(PGA). In the right knee joint PGA alone was used. The ligament
reconstructions were evaluated histologically and biomechanically
at four, eight and 12 weeks (n = 5 at each time point). At eight weeks,
EMD had induced a significant increase in collagen fibres connecting
to bone at the tendon–bone interface (p = 0.047), whereas the control
group had few fibres and the tendon–bone interface was composed
of cellular and vascular fibrous tissues. At both eight and 12 weeks,
the mean load to failure in the treated specimens was higher than
in the controls (p = 0.009). EMD improved histological tendon–bone
healing at eight weeks and biomechanical healing at both eight and
12 weeks. EMD might therefore have a human application to enhance
tendon–bone repair in ACL reconstruction.