The C-seal is a biofragmentable drain protecting the stapled colorectal anastomosis. In this video, details of the manufacturing, deployment and use are shown.
Colorectal anastomotic leakage (AL) is a serious complication in colorectal surgery leading to high morbidity and mortality rates1. The incidence of AL varies between 2.5 and 20% 2-5. Over the years, many strategies aimed at lowering the incidence of anastomotic leakage have been examined6, 7.
The cause of AL is probably multifactorial. Etiological factors include insufficient arterial blood supply, tension on the anastomosis, hematoma and/or infection at the anastomotic site, and co-morbid factors of the patient as diabetes and atherosclerosis8. Furthermore, some anastomoses may be insufficient from the start due to technical failure.
Currently a new device is developed in our institute aimed at protecting the colorectal anastomosis and lowering the incidence of AL. This so called C-seal is a biofragmentable drain, which is stapled to the anastomosis with the circular stapler. It covers the luminal side of the colorectal anastomosis thereby preventing leakage.
The C-seal is a thin-walled tube-like drain, with an approximate diameter of 4 cm and an approximate length of 25 cm (figure 1). It is a tubular device composed of biodegradable polyurethane. Two flaps with adhesive tape are found at one end of the tube. These flaps are used to attach the C-seal to the anvil of the circular stapler, so that after the anastomosis is made the C-seal can be pulled through the anus. The C-seal remains in situ for at least 10 days. Thereafter it will lose strength and will degrade to be secreted from the body together with the gastrointestinal natural contents.
The C-seal does not prevent the formation of dehiscences. However, it prevents extravasation of faeces into the peritoneal cavity. This means that a gap at the anastomotic site does not lead to leakage.
Currently, a phase II study testing the C-seal in 35 patients undergoing (colo-)rectal resection with stapled anastomosis is recruiting. The C-seal can be used in both open procedures as well as laparoscopic procedures. The C-seal is only applied in stapled anastomoses within 15cm from the anal verge. In the video, application of the C-seal is shown in an open extended sigmoid resection in a patient suffering from diverticular disease with a stenotic colon.
Fabrication of the C-seal
The C-Seal is made of biodegradable polyurethane, composed of hard and soft molecular components. The hard component provides the material the desirable elastic and mechanical properties. The hard component consists of polyurethane bindings (HNCO2) composed of a di-isocyanate (OCN-NCO) and a diol (HO-OH).
The soft segment determines the degradation behavior of the polyurethane. The soft segment is called the prepolymer and consists of polyether-ester chains. The hard segment is incorporated into the soft segment. This incorporation is called ‘chain-extension’ of the polymerization.
Once these two segments interact, a poly-ether-ester-urethane is synthesized and the polymer is ready to be processed into a C-Seal:
Surgical Procedure
The patient has given informed consent for participation in the C-seal study.
Representative Results
When the C-seal is applied correctly (figure 2 and 3), it covers the anastomosis. If a dehiscence is formed at the anastomotic site or distal from the anastomosis in the proximal rectal stump, extravasation of feces is prevented since the C-seal covers the defect and directs the fecal matter through the anus. In the postoperative phase, the C-seal protrudes from the anus (figure 3).
Figure 1: Schematic drawing of the C-seal.
Figure 2: Schematic representation of attaching the C-seal to the stapler head.
Figure 3: After inserting the stapler-head together with the attached C-seal in the proximal bowel and the stapler in the rectal stump, the stapler is fired and gently pulled through the anus together with the C-seal.
The C-seal is a technique aimed at preventing anastomotic leakage in stapled colorectal anastomoses. It can be used in laparoscopic surgery as well as during a laparotomy. The C-seal does not prevent anastomotic dehiscence; however, it prevents leakage of feces outside the bowel lumen.
When applying the C-seal, extra care should be taken at the moment the C-seal is inserted in the proximal bowel loop. Adequate positioning of the C-seal in the proximal bowel loop is important, since it is theoretically possible to double staple the C-seal. Double stapling of the C-seal occurs when the tail of the C-seal is folded and ends up between the stapler and the stapler head. The marble helps in determining the position of the C-seal in the proximal bowel loop. The marble should be positioned at adequate distance of the stapler head, to guarantee that the C-seal tail is stretched and can not become stapled together with the anastomosis.
The C-seal can be positioned in the proximal bowel loop in different ways. If a side-to-end anastomosis is preferred, we advise to perform this according to the following protocol: The C-seal is inserted via the open bowel end, tail first followed by the stapler head. The connection pin is then penetrated through the bowel wall by stabbing it in the direction of the open bowel end. Subsequently, the open bowel end is closed and a pursestring suture is placed around the connection pin for extra support. The pin is connected to the stapler, the position of the marble is checked and the stapler is fired.
If an end-to-end anastomosis is preferred, the C-seal is inserted in the open proximal bowel end, tail first. A pursestring suture encircles the bowel end around the connection pin. The pin is connected to the stapler, the position of the marble is checked and the stapler is fired.
In a pilot study initiated by the University Medical Center Groningen, the C-seal was employed in 15 patients undergoing resection of the rectum followed by a stapled anastomoses10. No clinical or subclinical AL was diagnosed in these patients. Currently, a phase II study testing the C-seal in another 35 patients is recruiting.
The authors have nothing to disclose.
The C-seal project is a part of the collaboration between the department of surgery of the University Medical Center Groningen (UMCG) and Polyganics BV. The project was initially supported by a SenterNovem Grant of the Dutch Ministry of Economic Affairs. Intellectual property, commercial interest and patent are held by Polyganics BV. Intellectual interest is held by the UMCG. Polyganics BV has manufactured the devices for this study. The study was performed in the UMCG.
Material Name | Typ | Company | Catalogue Number | Comment |
---|---|---|---|---|
Stainless Steel Marble | ||||
C-seal | Polyganics |