Surgical Site Infection Clinical Trial
Official title:
Wound Protector Dual-ring Alexis® in Pancreaticoduodenectomy: a Randomized Single-blind Controlled Clinical Trial
Surgical site infection (SSI) is a leading cause of preventable morbidity and mortality in North America and worldwide. This condition has consistently been reported to account for up to 25% of all healthcare-associated infections. In a cost analysis, SSIs post-pancreaticoduodenectomy (PD) dramatically increases the treatment costs. More importantly, postoperative wound infections delay postoperative adjuvant chemotherapy, which is indicated in the majority of patients undergoing PD for pancreatic cancer. Protective covers or 'wound protectors' are hypothesized to be an improvement over adhesive membrane barriers as they are believed to reduce intraoperative contamination while concomitantly preserving the temperature and humidity of the surgical wound. The aim of this study is to assess if the use of wound protector can reduce the wound infection rate in patients undergoing to PD.
Surgical site infection (SSI) is a leading cause of preventable morbidity and mortality in
North America and worldwide. This condition has consistently been reported to account for up
to 25% of all healthcare-associated infections. Prolonged hospitalization, more frequent
hospital re-admissions after surgery and a greater than twofold increase in costs and
mortality have consistently been associated with this condition over the past decade. The SSI
is associated with an increased risk of postsurgical pain, poor wound healing and aesthetic
results and an increased risk of incisional hernias. The literature shows an incidence rate
of SSI at 30 days after surgery that reaches 51% of cases. In particular, the incidence of
wound infection is 15%. In our experience, the rate of wound infection in patients undergoing
Pancreaticoduodenectomy (PD) is 10%.
SSI is an infectious process that is localized to surgical incision level and it is
classified as being either incisional or organ/space. Incisional SSI is further divided into
those involving only skin and subcutaneous tissue (superficial incisional SSI) and those
involving deeper soft tissues of the incision (deep incisional SSI).
In a cost analysis, SSIs post-PD dramatically increases the treatment costs. More
importantly, postoperative wound infections delay postoperative adjuvant chemotherapy, which
is indicated in the majority of patients undergoing PD for pancreatic cancer. During recent
years there is also an increasing incidence of antibiotic-resistant pathogens in hospitals,
so several studies have suggested primary or secondary prevention strategies to reduce SSI
rate. In order to minimize the risk of SSI, various measures of perioperative care have
already been adopted, including the cleaning of the skin, the hair removal of the
intervention area, the prevention of intraoperative hypothermia and perioperative antibiotic
therapy. However there are few studies on the effectiveness of surgical procedures for
primary prevention to reduce the contamination in the surgical site, especially in patients
undergoing major gastrointestinal surgery. The surgical procedures classified as contaminated
or dirty (with a higher bacterial load within the surgical site and/or regarding
gastrointestinal or biliary tracts) remain associated with an increased risk of SSI, about
two times, compared to the interventions classified as clean or clean-contaminated. The PD is
classified as surgery contaminated / dirty.
The use of adhesive membrane barriers over the skin of the surgical site emerged 50 years ago
as a possible solution to minimize endogenous cross-contamination during surgery. The initial
idea relied on the principle of reducing exposure of the surgical site to bacteria inherent
in the surrounding skin or to airborne bacteria in the operating room. Major applicability
was expected in clean surgeries, where the skin is considered the main source of bacteria.
Unfortunately, however, no evidence in support of plastic adhesive drapes was found in a
recently updated systematic review of randomized controlled trials (RCTs) including five
studies and 3082 patients. In fact, a 23% increase in the risk of SSI was found in the group
that received adhesive drapes. In the 1960s, other devices were described and then developed
based on the concept of combining a non-traumatic surgical wound retractor with a protective
membrane covering of the incisional margin in abdominal surgeries. Such protective covers or
'wound protectors' (WP) were hypothesized to be an improvement over adhesive membrane
barriers as they were believed to reduce intraoperative contamination while concomitantly
preserving the temperature and humidity of the surgical wound. In support of this hypothesis,
early studies demonstrated reduced exposure of the surgical wound to enteric bacteria at the
end of gastrointestinal operations. These results were further supported by several RCTs,
which demonstrated that wound protectors were efficacious in reducing the incidence of
incisional SSI as compared to usual care in patients undergoing gastrointestinal surgeries. A
recently meta-analysis of RCTs on the WP enrolled 6 studies and 1008 patients, finding that
the pooled estimated risk of SSI among patients fitted with wound protectors during surgery
was 0.55 (95% CI 0.31 to 0.98) times the pooled estimated risk of SSI in control groups.
The aim of this study is to assess if the use of WP can reduce the wound infection rate in
patients undergoing to PD.
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