The key consideration to make when using Interceed — a biodegradable woven fabric composed of oxidized, regenerated cellulose — is the importance of achieving meticulous hemostasis. Its efficacy is reduced, or can even be lost, in the presence of blood. Care also must be taken not to stretch the material or alter its shape and the spacing between the weaves. Otherwise, the material, once gelated, will have a greater potential for spaces in which the tissue surfaces would not be separated and thus a greater potential for blood coagulation and fibroblast in-growth. Multiple pieces of the material may be overlapped, but there have been no benefits demonstrated (at least in animal studies) to using double layers.
Care in application also is critically important for Seprafilm, a film composed of modified hyaluronic acid and carboxymethylcellulose. Seprafilm is brittle and is difficult to apply through small incisions. While it's not impossible to deliver the product laparoscopically, many surgeons have found this very difficult. And in the United States, it is approved for use with laparotomy only.
In applying Seprafilm, it is critical to first get good exposure of the field and then position the film very carefully. Attempts to reposition the product will often result in tears or breaks. Of course, just as with Interceed, this device is believed to work primarily by separating tissue surfaces, and thus it has little to no chance of success if it does not completely separate the surgically injured tissue from other tissue surfaces in the initial postoperative period while remesothelialization is occurring.
The use of adjuvants, moreover, is no substitute for good surgical technique that aims to minimize tissue injury, tissue devascularization, and inflammation. This is easier to achieve, of course, during a microsurgical procedure such as a tubal anastomosis than in a patient with severe endometriosis or many large fibroids. Still, to the extent possible for the procedure being conducted, the tenets of gynecologic microsurgery should always be considered:
▸ Handle as little tissue as possible, as minimally as possible. To the extent possible, handle only those portions that will subsequently be excised.
▸ Keep tissues moist. Tissue drying leads to injury and loss of mesothelial cells. Raw surfaces are more prone to develop adhesions.
▸ Take special care in the use of suture. Consider whether clinical situations will allow use of less reactive and smaller-caliber suture. When using suture to tie off blood vessels, skeletonize the vessels so as to minimize the amount of tissue distal to the suture that will become hypoxic and serve as a nidus to adhesion development.
▸ Target the use of electrosurgery and other energy sources. Use it in specific localized sites where it's needed, such as to stop bleeding, but avoid widely dispersed use, when possible, again to minimize the amount of residual devitalized tissue remaining in the pelvis at the conclusion of the surgical procedure.
Pelvic Adhesions — An Update
“A number of human interventional trials and animal studies have evaluated techniques and materials designed to prevent and reduce postsurgical adhesions. The results have been inconclusive and sometimes contradictory. Thus, preventing postsurgical adhesions remains an art, rather than a science.” So I began my introduction to the program on adhesion prevention at the 2010 Congress of the Society of Laparoscopic Surgeons in New York City.
Patients with adhesions can present with small bowel obstruction or with complaints of infertility, chronic pain, or dyspareunia. Unfortunately, adhesive disease is problematic. Four percent of the patients undergoing abdominal and pelvic surgery will be readmitted due to adhesion-related complications. In excess of 400,000 surgical procedures are performed annually in the United States for lysis of adhesions. In a Scottish National Health Service Study of nearly 9,000 women who previously underwent open gynecologic surgery, just less than 3% were readmitted secondary to adhesions; the highest readmit rate was ovarian surgery (BJOG 2000;107:855–62).
While one would expect a reduction in the number of patients undergoing laparoscopic surgery, in reality, the verdict is not yet clear. A 1998 meta-analysis showed a decrease in both reformed (26.6% vs. 14.3%) and de novo adhesions (45.2% vs. 37.2%) in the laparoscopic group, compared with laparotomy (Fertil. Steril. 1998;70:702–11).
Despite this, other authors cite pneumoperitoneum, prolonged surgery, high insufflation pressure, and overzealous use of energy to cut and coagulate as reasons why laparoscopic surgery increases risk of adhesions.
The economic impact of adhesions is staggering, in excess of $1.3 billion in the United States per year.
For this current excerpt of the Master Class in Gynecologic Surgery, I have solicited the wisdom of Dr. Michael Diamond. He is the Kamran S. Moghissi Professor of Obstetrics and Gynecology and associate chairman of the department of obstetrics and gynecology at Wayne State University, Detroit. Dr. Diamond also is director of the division of reproductive endocrinology and infertility and assistant dean for clinical and translational research at the university. Dr. Diamond has spent much of his academic career involved in the pathogenesis, prevention, and treatment of pelvic adhesions. He is truly considered the world's leader in this area, and we are honored to have Dr. Diamond as guest author of this important area of our surgical arena.