Infection Clinical Trial
Official title:
Single Center Prospective Randomized Control Trial on Negative Pressure Wound Therapy for Incisions Following Major Lower-limb Amputation to Reduce Surgical Site Infection
Surgical site infections following lower extremity amputations have been reported in up to 40% of patients. Surgical site infections have significant morbidity and even mortality in terms of emergency room visits, length of hospital stay, reamputation rates and death. Since its introduction, negative pressure wound therapy has been demonstrated to promote wound healing and possibly decreasing the need for future amputations. The aim of the study is to provide level I evidence for the use of negative pressure wound therapy devices in patients undergoing lower extremity amputation.
Amputations are common vascular surgery procedures performed on patients with multiple
medical comorbidities. Historically, morbidity and mortality following major amputation of
the lower extremity in this patient population has been high. Recent studies have cited
30-day mortality rates ranging from 6% to 17%, with greater risk among patients with
transfemoral vs transtibial amputation. Postoperative goals after amputation include
uncomplicated wound healing and, for appropriate candidates, progression to use of a
prosthesis for ambulation or transfer. Perioperative wound complications can be devastating
in this already debilitated population and can range from 13% to 40%.
Postoperative wound complications, such as infection, dehiscence, and formation of haematoma
or seroma, are common complications of surgical procedures; particularly among patients with
risk factors such as obesity and diabetes. Wound complications may delay recovery, increase
patient discomfort and reduce overall quality of life. Increased healthcare costs may be
incurred due to prolonged inpatient stay, repeat surgery and the need for increased
follow-up.
Wounds that are secondary to amputation are reported in 13-40% of cases and are one of the
most challenging types of lower extremity wounds to heal. These patients often have
compromised healing capacity. Kayssi et al studied Canadian readmission rates, early (<30
days) and late (30-365) readmissions were attributed to stump complications in 13% and 10% of
patients respectively.
Wound complications in major limb amputation frequently result in the need for further major
surgery in a group of patients with significant co-morbidity and enhanced operative risk. 1,
3, and 5 year reamputation rates for diabetics who have had major amputations are 4.7%,
11.8%, and 13.3% respectively. Henry et al suggested that undergoing multiple amputation
revisions may indicate aggressive measures to treat critical limb ischemia or chronic
infection that precede conversion to a more proximal amputation. Kono et al studied the
incidence and risk factors for reamputation after forefoot amputation. They found that 16/116
(14%) patients developed postoperative infection, and 10 of these required reamputation
(62.5%). Five of the ten reamputations occurred within 30 days after the patients developed
postoperative infections.
In addition to the morbidity from infection there is also an increased rate of phantom pain
as well as a delay to mobilisation with prosthesis. Minimizing postoperative infections would
likely have improvements in clinical outcomes, quality of life, and utilization of resources.
Currently, all patients are given prophylactic broad spectrum antibiotics to reduce the
incidence of wound infection. Sadat et al investigated whether a prolonged 5 day course of
antibiotics wound reduce stump infections, their results were positive however this treatment
is associated with the increased risk of antimicrobial resistance and c. difficile infection.
Negative-pressure wound therapy (NPWT) has traditionally been used for the treatment of open
wounds. In recent years, the indication for NPWT has been extended to include treatment of
closed surgical incisions. Armstrong et al conducted a randomized controlled trial to
determine whether NPWT delivered by the VAC system was clinically efficacious in treating
amputation wounds of the diabetic foot to improve the proportion of wounds with complete
closure. Treatment with NPWT resulted in a higher proportion of wounds that healed, faster
healing rates, and fewer re-amputations than with standard treatment. No randomized
controlled trials have been performed to assess NPWT and infection rates after major lower
limb amputation.
There is a paucity of scientific literature reporting outcomes following major amputation in
patients with critical limb ischemia, particularly with regards to wound problems and
infection. The purpose of this study is to provide Level I evidence on whether negative
pressure wound therapy is an effective strategy to significantly reduce postoperative
infections after major lower extremity amputation, thereby reducing patient morbidity and
mortality from this procedure.
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