INTRODUCTION
Although pressure ulcers are considered a “never event” in healthcare, they are still widely prevalent, with approximately 2.5 million patients treated annually [
1,
2]. These patients typically have many medical comorbidities, and the elderly, the acutely ill, or those with hip fracture or spinal cord injuries are particularly susceptible to developing pressure ulcers [
3-
9]. These associated conditions are not only risk factors for pressure ulcer development, but can also affect the healing process following surgical management, leading to a high incidence of wound dehiscence and ulcer recurrence [
7-
14]. From a healthcare finance perspective, this disease entity has been recognized as being responsible for $9.1–11.6 billon per year in costs, which reflects the long-term nature of this problem as well as recurrence and complications [
15,
16]. As such, identification of optimal treatment strategies for each individual patient, based on risk factors and surgical outcomes, is necessary.
Treatment of pressure ulcers has evolved over time, transitioning from methods of primary closure and skin grafting to flap reconstruction [
17-
19]. Current studies on pressure ulcer management focus on long-term follow-up given that the pathophysiological mechanisms of ulcer formation and recurrence require a significant duration of time. These studies report risk factors consisting of low body mass index, active smoking and ischial pressure ulcers [
6-
14]. The risk factors and complications in the perioperative period have been less well described, with two notable national studies, one on general pressure ulcer management and one specifically for flap coverage [
13,
14]. Given the difficulties of performing reconstructive flap procedures in patients with comorbidities and chronic, open wounds, it is important to fully recognize the perioperative outcomes associated with the index procedure, independent of complications due to passage of time.
We aim to investigate the risk factors and 30-day perioperative profile of flap coverage for ischial, sacral, and trochanteric pressure ulcers on a national scale using data from the American College of Surgeons National Surgical Quality Improvement Program (ACS-NSQIP). A secondary aim is to assess differences between pressure ulcers based on region.
DISCUSSION
Flap closure has become the mainstay surgical intervention for pressure ulcer reconstruction. However, the perioperative outcomes are less well described in the literature. In our study, we found that despite poor baseline physiological function, patients who underwent flap coverage for pressure ulcers experienced acceptable postoperative complications. Location of ulcer did not predict prevalence of complications. Instead, baseline patient characteristics correlated greatly with outcomes, with the sacral ulcer patients having the poorest baseline function and correspondingly highest complications. Identified independent risk factors for adverse outcomes consisted of a range of poor baseline characteristics, including those such as functional status, dyspnea, and low albumin, and varied depending on pressure ulcer location.
The reported overall complication rate in our study, 24.9%, appears to be relatively low in comparison to those reported in other reports that studied flap coverage for pressure ulcers. Two large retrospective studies by Keys et al. [
7] and Bamba et al. [
12] noted overall complication rates of 73% and 58.7%, respectively. The discrepancy between these two studies, as well as with ours, is most likely a result of differing follow-up periods, with longer term follow-up likely to reveal higher complication rates, and shorter-term follow-up, such as the 30 days in ACS-NSQIP, likely to reveal lower complication rates. When compared to a previous ACS-NSQIP study on pressure ulcer surgical treatment, we found that the rates were much more comparable, with Lim et al. [
13] reporting a range from 20.6% to 28.9%. The variation between their study and ours likely stems from the fact that they incorporated a general range of ulcer management procedures, whereas we included solely flap coverage. In this instance, given that flap closure is technically more complex and used to close larger wounds, a higher incidence would be expected for complications such as wound dehiscence. It does appear, in this context, that flap reconstruction, regardless of ulcer site, has an acceptable overall complication rate, at least within a 30-day postoperative period.
Although there was no statistically significant difference between groups in terms of overall complications, there were some noticeable trends in individual complications. We found that patients who underwent coverage for the sacral ulcer experienced a higher incidence of septic shock and bleeding. Trochanteric pressure ulcer patients experienced a higher incidence of superficial SSI. This is in contrast to findings of multiple other studies stating that ischial ulcers are an independent risk factor for numerous complications [
6-
14]. The discrepancy might be explained by differences in duration of follow-up for other studies compared to ours. The higher rate of complications experienced after ischial pressure ulcer closure has been attributed to higher pressure at the ischial bony prominences, compared to other regions, in the sitting position [
20]. However, within the 30-day time window of this study, perhaps there is inadequate time for certain complications to manifest.
Moreover, patient characteristics differences between sacral, ischial, and trochanteric pressure ulcer patients who underwent reconstruction may further explain the variation in ulcer site-specific complication rates. In our study, we found that patients who underwent reconstruction for sacral ulcers were significantly more diabetic, hypertensive, paraplegic, ventilation dependency, or required an operation in as an emergency. A significantly greater proportion of them also had lower albumin levels, more impaired sensorium, contaminated wound, ASA class 3 and 4, congestive heart failure, cerebrovascular accident, dialysis, or bleeding disorder. These factors have been recognized as risk factors for complications following flap coverage for ulcers [
6-
14,
21,
22]. Moreover, the higher incidence of specific comorbidities such as bleeding disorders are consistent with higher rates of bleeding, respectively. It therefore seems likely that the higher incidence of complications, notably septic shock and bleeding, in sacral pressure ulcer patients is a result of patients’ greater comorbidities.
The independent risk factors for overall complications in our total patient cohort were a longer operation time and diabetes, which is consistent with both the plastic surgery literature as well as studies from other surgical fields [
21,
22]. Diabetes has been recognized as a risk factor for complications ranging from infection to wound dehiscence [
12,
21,
22]. Moreover, in previous pressure ulcer studies, pressure ulcer incidence has been notably higher in diabetic patients, as well as infection and recurrence when flap coverage is performed [
21-
23]. A longer operation time may be indicative of the complexity and size of the pressure ulcer and therefore, the extent of flap reconstruction, which may explain the higher complication rates.
Dependent functional status, both partial and complete dependency, was identified as an independent risk factor for infection. These patients might be less mobile, and hence less likely, or able to adhere to postoperative care instructions including frequent turning, pressure off loading, dressing changes, and hygiene requirements. Such conditions might contribute to complications such as wound infection. Non-elective cases were also recognized as a risk factor for infection. Understandably, patients who required urgent intervention may tend to have a more serious preoperative wound and systemic infection. As such, these patients are more likely to develop infection postoperatively.
In subgroup analysis of flap coverage by ulcer site, we found that paraplegia and quadriplegia were risk factors for overall complications in sacral ulcer patients. This is in concordance with the literature, noting that these comorbidities are risk factors for both pressure occurrence and complications [
3,
9]. We speculate that the patients who are otherwise physically limited may inherently have a poor baseline, which can contribute to a worse outcome profile. In addition, the inability to mobilize may contribute to increased pressure on the flap, leading to tissue ischemia, and ultimately, poorer outcomes. On the other hand, dyspnea and smoking were risk factors for infection. Smoking has been a recognized universal risk factor for numerous complications including infection in plastic surgery [
24], as well as in a multitude of other disciplines. Dyspnea, on the other hand, may be explained by poor baseline functional status of these patients. Furthermore, in the event of dyspnea related to poor oxygenation, this may also affect wound healing, and predispose the patient to infection.
For patients with ischial ulcers, the identified independent risk factors for overall complications consist of young age, total operation time, and low albumin. Young age and total operation time as risk factors are well supported in prior studies on pressure ulcer management, regardless of follow-up time [
6-
14]. The argument is that younger patients may receive more complex or extensive reconstructive options, which are more prone to complications, and operation time may also be indicative of the complexity of the operation. Low albumin has been noted as an indicator of a patient’s overall medical fitness, in the context of malnutrition. Contrary to a previous study that found low albumin not being associated with worse 30-day outcomes in pressure ulcer management [
13], our findings show it as a risk factor for overall complications and specifically, wound dehiscence. This difference in findings may be related to the nonspecific nature of the marker, our patient cohort consisting of only flap reconstruction, or variability in methodology. Dyspnea was noted to be an independent risk factor for infection, which could be explained as previously mentioned by both its role as a marker of patient baseline status or potentially related to tissue oxygenation.
We acknowledge the limitations of our study. A retrospective analysis of the ACS-NSQIP always has the potential error for human errors, both with coding and data entry, as well as the individual interpretations by researchers. Furthermore, another limitation is the 30-day follow-up period, which may not be sufficient for optimal capturing of all complications. This is particularly important to recognize for pressure ulcers, considering that one of the major outcomes of interest, ulcer recurrence, may take up to 15–22 months to occur according to studies [
10,
23,
25]. The ACS-NSQIP database also has built-in variables for analysis, which limit the scope of our analysis. We were unable to evaluate size or depth of defect, number of ulcer recurrences, aspects of postoperative management such as patient positioning or time to ambulation, and surgical interventions performed prior to flap reconstruction.
Despite these factors, our study is the largest national study, to the best of our knowledge, evaluating perioperative outcomes of flap coverage for pressure ulcers. Sacral pressure ulcer patients who underwent flap reconstruction appear to have the greatest comorbidities and complication rates. Identified independent risk factors for adverse outcomes in pressure ulcer flap coverage patients consist of poor baseline patient characteristics, such as functional status, dyspnea, and low albumin. Recognition of these risk factors to identify high-risk patients may aid in optimization of outcomes and patient safety.