Arthroscopy and Arthrotomy of the Stifle 179(C)MFCSM***(A) (B)LFC*** SMFigure 23.13 Arthroscopic-assisted arthrotomy facilitates assessment of intra-articular pathology at the time of
arthrotomy (A). The synovium can be evaluated for hyperplasia, hyperemia, and fibrosis. Synovial biopsies can be
obtained using arthroscopic assistance to ensure that optimal tissue samples are obtained. (B) Small osteophytes (∗∗∗)
along the attachment of the joint capsule to the lateral femoral condyle (LFC) can be seen in this patient having an early
cruciate ligament rupture. Minimal inflammation of the synovial membrane (SM) is seen. (C) Moderate-sized osteophytes
(∗∗∗) are present along the medial femoral condyle (MFC) in this patient with a chronic cruciate ligament rupture. The
synovial membrane (SM) appears hyperplastic in the area of the osteophytes.
view of the menisci (Figures 23.3, 23.4 and
23.14B,C). The joint is then explored using the
magnified view of the arthroscope. Controlling
the position of the arthroscope in the joint can
be more difficult with this technique, compared
with portal arthroscopy. Resting the surgeon’s
hand against the patient or resting the surgeon’s
elbow on a Mayo stand can help avoid a shaky
image and inadvertent withdrawal of the scope
from the joint (Figure 23.15). The surgeon can
also steady the image and prevent inadvertent
withdrawal of the arthroscope by grasping the
shaft of the arthroscope near the arthrotomy
incision (Figure 23.15).
Fluids are delivered through the arthroscope
cannula, similar to portal arthroscopy. The rate
of fluid flow should be lowered because of
reduced resistance to flow from the arthrotomy
incision. Fluid egress occurs freely from the inci-
sion and fluid collection should be performed.
Fluid egress can be captured using a drainage
pouch with suction attachment, floor drain, or
simply placing towels or absorbent towels on
the floor (Figure 23.15). A water-impervious
drapeshouldbeusedtoavoidsurgicalsitecon-
tamination (Figure 23.15). The tip of the arthro-
scope should be placed near the target tissue
to provide the best view. Bubbles may obscure
the view if the tip of the scope is drawn too
far away from the tissue (Figure 23.16A). Sur-
gical instruments are used with a combination
of direct and arthroscopic observation. Arthro-
scopic treatment also helps to minimize carti-
lage injury. A scrubbed assistant can help to
manipulate an instrument, such as a grasper
or probe, during surgery (Figure 23.16B). The
surgeon typically holds the arthroscope and
the cutting instrument or shaver. The menisci
should be carefully probed to assess for damage
(Figure 23.17). Damaged meniscal tissue, such
as a bucket-handle tear, should be removed by
partial meniscectomy (Figure 23.18). After treat-
ment, the affected area should be re-examined,
using the arthroscope to ensure complete treat-
ment. This is particularly important during
meniscectomy, as it is common to find a second
or third bucket-handle tear after removal of the
first tear (Figure 23.19). The meniscus should
be probed under arthroscopic viewing to ensure
that additional damaged meniscal tissue is not
left behind. Medial meniscal release can also be
performed more accurately using arthroscopic
guidance (Figure 23.20).
Surgical procedures require the use of surgi-
cal instruments. Surgeons often use a variety
of instruments for operative procedures in the
joint, including scalpel blades, hemostats, and
thumb forceps. Arthroscopic hand instruments
typically used for traditional arthroscopic
surgery may provide a benefit to surgeons using
arthroscopic-assisted arthrotomy. Arthroscopic
hand instruments are typically low profile, with