A NOVEL TECHNIQUE FOR THE
LAPAROSCOPIC APPLICATION OF THE SEPRAFILM® ADHESION BARRIER
A. Advincula, A. Song, W. Burke, R.K. Reynolds
University of Michigan, Ann Arbor, MI
OBJECTIVE: We sought to develop a technique for the introduction of
the Seprafilm® Adhesion Barrier into the abdominopelvic cavity during
laparoscopic surgery.
MATERIALS AND METHODS: Postoperative adhesions occur in 60% to 90%
of patients undergoing major gynecologic surgery. Although laparoscopy has been
shown to decrease the development of adhesions when compared to laparotomy,
adhesions still occur. They can often result in infertility, chronic pelvic
pain, intestinal obstruction, and/or difficult re-operative surgery. All
commercially available adhesion barriers are not designed to be easily applied
during laparoscopic surgery.
The Seprafilm®
Adhesion Barrier is a sterile, bioresorbable translucent membrane composed of
two anionic polysaccharides, sodium hyaluronate (HA) and carboxymethylcellulose
(CMC). It serves as a temporary bioresorbable barrier separating apposing
tissue surfaces. When applied within the abdominopelvic cavity, it can be
expected to reduce adhesions during the early phases of peritoneal wound
repair. A noteworthy property is that approximately 24 to 48 hours after placement,
the membrane becomes a hydrated gel that is slowly resorbed within one week.
Excretion from the body occurs within 28 days.
By
taking advantage of the membranes conversion to a hydrated gel within the body,
a novel technique for introducing this adhesion barrier into the abdominopelvic
cavity during laparoscopy was developed. A single multi-pack of the Seprafilm®
Adhesion Barrier containing six – 3 x 5 inch membranes was determined by our
gynecology service to adequately cover the pelvic peritoneum during gynecologic
surgery. Each membrane is cut into shavings with Metzenbaum scissors and a
gelatinous mixture is formed by combining it with 35 milliliters of saline in a
basin. This process is performed approximately 30 minutes prior to application
and loaded into a 60 milliliter Toumy catheter tip syringe. A size 20 Red
Robinson catheter is used to introduce the gelatinous mixture into the pelvis
through either the fascial defect created by a 5 millimeter trocar or through a
10 millimeter trocar. The inverted inner electrode of a reusable Kleppinger
bipolar forceps can be used as a guidewire through the catheter during
placement through a fascial defect or trocar. After evacuating all irrigation,
an assistant can help guide the Red Robinson catheter tip with atraumatic
graspers during injection of the slurry. The consistency of the gelatinous
mixture is one that allows it to adhere to the peritoneal surfaces of the
pelvis and reproductive viscera.
RESULTS: We have used this technique of applying the Seprafilm®
Adhesion Barrier in a variety of gynecologic procedures where concern for adhesion
prevention exists. These laparoscopic procedures are myomectomy, extensive
resection of endometriosis or lysis of adhesions, supracervical hysterectomy,
and certain oncologic staging cases.
CONCLUSION: The conversion of the Seprafilm® Adhesion Barrier from a
membrane into a gelatinous mixture allows for its easy application in
laparoscopic surgery.
Key Words: surgical technique, adhesions, laparotomy, laparoscopy
Disclosure
– Nothing to disclose.