Pj. Horan et al., Acute and long-term response of the meniscus to partial meniscectomy usingthe holmium : YAG laser, ARTHROSCOPY, 15(2), 1999, pp. 155-164
The purpose of this study was to evaluate the histological effects of holmi
um:YAG laser partial meniscectomy in an in vivo rabbit model and compare it
with scalpel partial meniscectomy at selected time intervals. Twenty-four
adult male New Zealand rabbits underwent bilateral partial medial meniscect
omies through the avascular zone. In the right knee, partial medial menisce
ctomy was performed using a standard surgical blade; in the left knee, an a
natomically similar partial medial meniscectomy was performed using a Ho:YA
G laser (Coherent, Santa Clara, CA). All animals were randomized and three
animals were killed at postoperative days 1 and 3, and postoperative weeks
1, 2, 3, 4, 6, and 10. Samples of all medial and lateral menisci, with atta
ched synovium and Vascular rim, from both knees were harvested and submitte
d for histological and/or ultrastructural examination. The results indicate
that (I) at all time periods, laser cut menisci had more cell loss and mat
rix degradation; (2) synovial necrosis was more common in laser-treated kne
es; (3) the Ho:YAG laser creates three zones of damage in the meniscal fibr
ocartilage: a zone of fibrin and debris at the incision site, a zone of nec
rosis characterized by degeneration of the collagen and loss of viable cell
s, and a zone of thermal change characterized by collagen degeneration. The
zone of thermal change, with its histological injury was thought at the ti
me of surgery to be the viable border. The zone of thermal change may act a
s a barrier to delay healing, and the scalpel produced a consistently strai
ghter cut.