Platelet‐rich plasma inside the sternotomy wound reduces the incidence of sternal wound infections

Despite the large choice of wide‐spectrum antibiotic therapy, deep sternal wound infection (DSWI) following cardiac surgery is a life‐threatening complication worldwide. This study evaluated that the use of platelet‐rich plasma (PRP) applied inside the sternotomy wound would reduce the effect of sternal wound infections, both superficial and deep. Between January 2007 and January 2012, 1093 consecutive patients underwent cardiac surgery through median sternotomy. Patients were divided into two groups. Group B, the study group, included those who received the PRP applied inside the sternotomy wound before closure. Group A, the control group, included patients who received a median sternotomy but without the application of PRP. Antibiotic prophylaxis remained unchanged across the study and between the two groups. Occurrence of DSWI was significantly higher in group A than in group B [10 of 671 (1·5%) versus 1 of 422 (0·20%), P = 0·043]. Also, superficial sternal wound infections (SSWIs) were significantly higher in group A than in group B [19 of 671 (2·8%) versus 2 of 422 (0·5%), P = 0·006]. The use of PRP can significantly reduce the occurrence of DSWI and SSWI in cardiac surgery.     

Sternal closure techniques and postoperative sternal wound complications in elderly patients.

OBJECTIVE: Postoperative sternal wound complications (PSWC) including deep sternal wound infection (DSWI) and sternal dehiscence (SD) cause significant morbidity and mortality. Elderly patients with several risk factors are particularly prone to suffer PSWC. METHODS: We present (I) a subset of 86 patients, all aged > or =75 years out of 339 cardiac surgery patients prospectively randomised to receive either conventional sternal closure or a Robicsek type closure. Primary end-points were SD and DSWI; secondary end-points included a composite of clinical parameters; (II) we retrospectively assessed data of 54/5273 patients with mediastinitis regarding the influence of advanced age. In addition, we report an epidemiological overview of different sternal closure techniques. RESULTS: (I) The Robicsek technique showed an impact on SD and DSWI, and several secondary end-points: ventilator support (p=0.03), postoperative blood loss (p=0.04), and chest pain >3 days (p=0.04). (II) A total of 54/5273 (1.02%) patients developed postoperative mediastinitis. Twelve out of 54 (22%) patients died within 6 months of the initial operation. Predictors of mortality were insulin-dependent diabetes mellitus (p=0.05), renal insufficiency (p=0.01), delayed sternal closure (p=0.05), ICU-stay >10 days (p=0.01), and methicillin-resistant Staphylococcus aureus (p=0.03) or fungal infection (p=0.02). CONCLUSIONS: No statistical difference in sternal dehiscence or mediastinitis was found irrespective of whether the bilateral and longitudinal parasternal closure or the conventional peri/trans-sternal wiring technique was used, but there was an obvious, positive influence on sternal dehiscence, deep sternal wound infection, and clinical parameters. However, the study population is relatively small.     

Prevention and management of deep sternal wound infection

Deep sternal wound infection (DSWI) is an uncommon but serious complication of median sternotomy in cardiac surgery, associated with significant mortality and morbidity. We performed a retrospective review of 30,102 consecutive cardiac surgical patients operated on at our institution from 1990 to 2003 and found an incidence of DSWI of 0.77%. The in-hospital mortality rate was 6.9% for DSWI patients versus 2.8% for patients without DSWI (P = 0.0002). Multivariable predictors for development of DSWI were old age, diabetes, previous stroke or TIA, and congestive heart failure. The use of bilateral internal thoracic artery (BITA) grafts increased the risk of DSWI in patients undergoing coronary artery bypass surgery, particularly in those with congestive heart failure alone or with diabetes. Skeletonization of BITA grafts resulted in a lower risk of DSWI, comparable to nondiabetic patients (1.3% versus 1.6%, P = 0.8). Patients with DSWI were treated with either sternal debridement and primary closure or sternectomy with myocutaneous flap reconstruction, resulting in a 6-month freedom from adverse event rate of 76% in both groups.     

Deep sternal wound infection requiring revision surgery: impact on mid-term survival following cardiac surgery.

OBJECTIVE: To assess the impact of deep sternal wound infection on in-hospital mortality and mid-term survival following adult cardiac surgery. METHODS: Prospectively collected data on 4586 consecutive patients who underwent a cardiac surgical procedure via a median sternotomy from 1st January 2001 to 31st December 2005 were analysed. Patients with a deep sternal wound infection (DSWI) were identified in accordance with the Centres for Disease Control and Prevention guidelines. Nineteen variables (patient-related, operative and postoperative) were analysed. Logistic regression analysis was used to calculate a propensity score for each patient. Late survival data were obtained from the UK Central Cardiac Audit Database. Mean follow-up of DSWI patients was 2.28 years. RESULTS: DSWI requiring revision surgery developed in 1.65% (76/4586) patients. Stepwise multivariable logistic regression analysis identified age, diabetes, a smoking history and ventilation time as independent predictors of a DSWI. DSWI patients were more likely to develop renal failure, require reventilation and a tracheostomy postoperatively. Treatment included vacuum assisted closure therapy in 81.5% (62/76) patients and sternectomy with musculocutaneous flap reconstruction in 35.5% (27/76) patients. In-hospital mortality was 9.2% (7/76) in DSWI patients and 3.7% (167/4510) in non-DSWI patients (OR 1.300 (0.434-3.894) p=0.639). Survival with Cox regression analysis with mean propensity score (co-variate) showed freedom from all-cause mortality in DSWI at 1, 2, 3 and 4 years was 91%, 89%, 84% and 79%, respectively compared with 95%, 93%, 90% and 86%, respectively for patients without DSWI ((p=0.082) HR 1.59 95% CI (0.94-2.68)). CONCLUSION: DSWI is not an independent predictor of a higher in-hospital mortality or reduced mid-term survival following cardiac surgery in this population.     

C‐reactive protein and leucocyte counts drop faster using the HeartShield® device in patients with DSWI

Right ventricular heart rupture is a devastating complication associated with negative pressure wound therapy (NPWT) in cardiac surgery. The use of a rigid barrier disc (HeartShield?) has been suggested to offer protection against this lethal complication by preventing the heart from being drawn up by the negative pressure and damaged by the sharp sternum bone edges. Seven patients treated with conventional NPWT and seven patients treated with NPWT with a protective barrier disc (HeartShield) were compared with regard to bacterial clearance and infection parameters including C‐reactive protein levels and leucocyte counts. C‐reactive protein levels and leucocyte counts dropped faster and bacterial clearance occurred earlier in the HeartShield® group compared with the conventional NPWT group. Negative biopsy cultures were shown after 3·1 ± 0·4 NPWT dressing changes in the HeartShield group, and after 5·4 ± 0·6 NPWT dressing changes in the conventional NPWT group (P < 0·001). All patients were followed up with clinical check‐up after 3 months. None of the patients in the HeartShield group had any signs of reinfection such as deep sternal wound infection (DSWI) or sternal fistulas, whereas in the conventional NPWT group, two patients had signs of sternal fistulas that demanded hospitalisation. HeartShield hinders the right ventricle to come into contact with the sharp sternal edges during NPWT and thereby protects from heart damage. This study shows that using HeartShield is beneficial in treating patients with DSWI. Improved wound healing by HeartShield may be a result of the efficient drainage of wound effluents from the thoracic cavity.     

Risk factors and treatment of deep sternal wound infection after cardiac operation.

OBJECTIVE: Although deep sternal wound infection (DSWI) after cardiac surgery is infrequent, its consequences are serious. The purposes of this study were to define the risk factors, and to establish the best surgical treatment for DSWI. METHODS: Retrospective analysis for 863 patients who underwent cardiac surgery was performed. The patients were divided into the DSWI group (n=17) and the non-infection group (n=846). Preoperative, perioperative, and postoperative variables were compared between the two groups using univariate and multivariate logistic regression analysis. The modality of treatment for DSWI was also analyzed. RESULTS: The incidence of DSWI was 1.97%. Independent predictors for DSWI were concomitant coronary artery bypass grafting (CABG) with valve or aortic surgery [odds ratio, 4.1; 95% confidence interval, (1.1, 15.1)] and postoperative use of intraaortic balloon pumping [4.4, (1.6, 12.3)]. An independent predictor in isolated CABG patients was emergency operation [10.9, (2.7, 44.7)]. Four of 17 patients died. Methicillin-resistant Staphylococcus aureus (MRSA) was cultured from 10 (58.8%) patients, and all four of the deceased subjects died of its infection. Seventeen patients were treated by debridement, primary closure, and the addition of an omentum or muscle flap if necessary. CONCLUSIONS: Patients in poor perioperative condition are at high risk for the development of this infection. It was difficult to establish the best treatment, owing to the small series of this study. Mortality and morbidity of DSWI due to MRSA was high.     

Preliminary result with incisional negative pressure wound therapy and pectoralis major muscle flap for median sternotomy wound infection in a high‐risk patient population

Deep sternal wound infection (DSWI) represents a dangerous complication that can follow open‐heart surgery with median sternotomy access. Muscle flaps, such as monolateral pectoralis major muscle flap (MPMF), represent the main choices for sternal wound coverage and infection control. Negative pressure incision management system has proven to be able to reduce the incidence of these wounds' complications. Prevena? represents one of these incision management systems and we aimed to evaluate its benefits. A total of 78 patients with major risk factors that presented post‐sternotomy DSWI following cardiac surgery was selected. Thrity patients were treated with MPMF and Prevena? (study group). Control group consisted of 48 patients treated with MPMF and conventional wound dressings. During the follow‐up period, 4 (13%) adverse events occurred in the study group, whereas 18 complications occurred (37·5%) in the control group. Surgical revision necessity and mean postoperative time spent in the intensive care unit were both higher in the control group. Our results evidenced Prevena? system's ability in improving the outcome of DSWI surgical treatment with MPMF in a high‐risk patient population.     

Prevention of Sternal Wound Infections in Women Using an External Sternum Fixation Corset

Purpose: Deep sternal wound infection (DSWI) and mediastinitis are devastating complications after median sternotomy. Previous studies demonstrated an effective prevention of sternal wound infection (SWI) using an external sternal corset in high-risk cardiac surgery patients. The aim of this study is to assess the preventive effect of the Stern-E-Fix corset in high-risk poststernotomy female patients.Methods: A total of 145 high-risk female patients undergoing cardiac surgery through median sternotomy were retrospectively analyzed. Patients were divided into group A (n = 71), who received the Stern-E-Fix corset (Fendel & Keuchen GmbH, Aachen, Germany), and group B (n = 74), who received the elastic thorax bandage (SanThorax) postoperatively for 6 weeks. The mean follow-up period was 12 weeks.Results: Incidence of SWI was 7% in group A vs. 17.6% in group B (p = 0.025). One patient presented with DSWI in group A vs. seven patients in group B (p = 0.063). No patient developed mediastinitis in group A vs. four patients in group B (p = 0.121). In all, 4.2% of group A patients required operative wound therapy vs. 16.2% of group B patients (p = 0.026). The length of hospital stay was significantly longer in group B (p = 0.006).Conclusion: Using an external supportive sternal corset (Stern-E-Fix) yields a significantly better and effective prevention against development of sternal dehiscence, DSWI, and mediastinitis in high-risk poststernotomy female patients.     

Algorithm for primary closure in sternal wound infection: a single institution 10-year experience.

OBJECTIVES: To evaluate a simple treatment algorithm in sternal wound infection (SWI) allowing for primary closure and to describe the different surgical techniques and their associated morbidity and mortality. METHODS: A retrospective analysis of all patients operated on between 1996 and 2004 in a single tertiary care institution. All epidemiological and surgical data were prospectively collected in our database. Univariate and multivariate analysis were used to determine preoperative and perioperative risks factors for 90-day and long-term mortality. RESULTS: Out of 5905 procedures, 146 sternal wound infections were documented (2.4%). The respective incidence of SWI for CABG, isolated valve, or combined procedures were 2.8%, 1.1%, and 3.2%. Pathogens involved were S. epidermidis (44.5%), S. aureus (31.5%), and gram-negative rods (19.2%). Re-operation was required in 131/146 patients. Mean time to the first re-operation was 17.3+/-12 days. Modalities of treatment consisted of drainage alone (44 patients), rewiring (25 patients), debridement, rewiring and mediastinal lavage (52 patients), and partial/complete sternal resection (10 patients). Additional procedures were required in 49 patients (37.7%). The 90-day mortality for uninfected patients and patients with superficial SWI were 4.4% and 2.8% (p=0.78) whereas for patients with deep SWI, 90-day mortality was 14.5% (DSWI vs others, p<0.0001). CONCLUSIONS: Deep sternal wound infection (DSWI) remains a dreadful complication in contemporary cardiac surgery while risk factors are currently well defined. Using a simple approach of primary closure together with liberal use of vascularized flaps has allowed us to achieve satisfactory short-term outcome in this subset of patients.     

Vacuum-assisted closure therapy for deep sternal wound infections: the impact of learning curve on survival and predictors for late mortality

The aim of this study was to evaluate the possible learning curve effects on survival during the introduction of vacuum-assisted closure (VAC) therapy in patients with deep sternal wound infection (DSWI). Furthermore, predictors of late mortality were analysed and causes of late death were examined. Fifty-three patients (early Group, n = 26, January 1999 to July 2001 versus late group, n = 27, August 2001 to March 2003) were all treated with VAC for DSWI. A follow-up was carried out in September 2006. Multivariate analyses were used to evaluate the predictors of late mortality. The 90-day mortality was 0% in both groups. The survival rates at 5 years were 69.2 +/- 9.1% (early group) versus 58.5 +/- 11.7% (late group), P = ns (non significant). The time interval from cardiac surgery to diagnosis of DSWI and prolonged VAC therapy were identified as independent predictors of late mortality. Our concept for VAC therapy in DSWI seems to be readily introduced in clinical practice. There was no difference in survival between our initial cases and later cases. Late diagnosis and prolonged wound therapy were identified as predictors for late mortality.     

The cost of vacuum-assisted closure therapy in treatment of deep sternal wound infection

OBJECTIVES: Surgical sites infections are very expensive and the total costs for coronary artery bypass grafting (CABG) surgery followed by deep sternal wound infection (DSWI) with conventional therapy are estimated to be 2.8 times that for normal, CABG surgery. Promising results have been reported with vacuum-assisted closure (VAC) therapy in patients with DSWI. This study presents the cost of VAC therapy in patients with DSWI after CABG surgery. DESIGN: Thirty-eight CABG patients with DSWI, between 2001 and 2005, were treated with VAC therapy. The cost of surgery, intensive care, ward care, laboratory tests and other costs were analyzed. RESULTS: No three-month mortality or recurrent infection was observed. The average cost of CABG procedure and treatment of DSWI was 2.5 times higher than the mean cost of CABG alone. No significant correlations were found between the preoperative EuroSCORE and the cost of DSWI therapy. CONCLUSIONS: VAC therapy for patients who underwent CABG surgery followed by DSWI seems to be cost effective, and has low mortality rate.     

Management of the infected median sternotomy wound with muscle flaps. The Emory 20-year experience.

OBJECTIVE: The purpose of the study is to define those patient variables that contribute to morbidity and mortality of median sternotomy wound infection and the results of treatment by debridement and closure by muscle flaps. BACKGROUND: Infection of the median sternotomy wound after open heart surgery is a devastating complication associated with significant mortality. Twenty years ago, these wounds were treated with either open packing or antibiotic irrigation, with a mortality approaching 50% in some series. In 1975, the authors began treating these wounds with radical sternal debridement followed by closure using muscle or omental flaps. The mortality of sternal wound infection has dropped to < 10%. METHODS: The authors' total experience with 409 patients treated over 20 years is described in relation to flap choices, hospital days after sternal wound closure, and incidence rates of morbidity and mortality. One hundred eighty-six patients treated since January 1988 were studied to determine which patient variables had impact on rates of flap closure complications, recurrent sternal wound infection, or death. Variables included obesity, history of smoking, hypertension, diabetes, poststernotomy septicemia, internal mammary artery harvest, use of intra-aortic balloon pump, and perioperative myocardial infarction and were analyzed using chi square tests. Fisher's exact tests, and multivariable logistic regression analysis. RESULTS: The mortality rate over 20 years was 8.1% (33/49). Additional procedures for recurrent sternal wound infection were necessary in 5.1% of patients. Thirty-one patients (7.6%) required treatment for hematoma, and 11 patients (2.7%) required hernia repair. Among patients treated since 1988, variables strongly associated with mortality were septicemia (p < 0.00001), perioperative myocardial infarction (p = 0.006), and intra-aortic balloon pump (p = 0.0168). Factors associated with wound closure complications were intra-aortic balloon pump (p = 0.0287), hypertension (p = 0.0335), and history of smoking (p = 0.0741). Factors associated with recurrent infection were history of sternotomy (p = 0.008) and patients treated for sternal wound infection from 1988 to 1992 (p = 0.024). Mean hospital stay after sternal wound reconstruction declined from 18.6 days (1988-1992) to 12.4 days (1993-1996) (p = 0.005). To clarify management decisions of these difficult cases, a classification of sternal wound infection is presented. CONCLUSIONS: Using the principles of sternal wound debridement and early flap coverage, the authors have achieved a significant reduction in mortality after sternal wound infection and have reduced the mean hospital stay after sternal wound closure of these critically ill patients. Further reductions in mortality will depend on earlier detection of mediastinitis, before onset of septicemia, and ongoing improvements in the critical care of patients with multisystem organ failure.     

Effects of platelet‐rich plasma on the healing of sternal wounds: A meta‐analysis

Sternal wound infection (SWI) is a devastating complication after cardiac surgery. Platelet‐rich plasma (PRP) may have a positive impact on sternal wound healing. A systematic review with meta‐analyses was performed to evaluate the clinical effectiveness of topical application of autologous PRP for preventing SWI and promoting sternal wound healing compared to placebo or standard treatment without PRP. Relevant studies published in English or Chinese were retrieved from the Cochrane Central Register of Controlled Trials (The Cochrane Library), PubMed, Ovid EMBASE, Web of Science, Springer Link, and the WHO International Clinical Trials Registry Platform (ICTRP) using the search terms “platelet‐rich plasma” and “sternal wound” or “thoracic incision.” References identified through the electronic search were screened, the data were extracted, and the methodological quality of the included studies was assessed. The meta‐analysis was performed for the following outcomes: incidence of SWI, incidence of deep sternal wound infection (DSWI), postoperative blood loss (PBL), and other risk factors. In the systematic review, totally 10 comparable studies were identified, involving 7879 patients. The meta‐analysis for the subgroup of retrospective cohort studies (RSCs) showed that the incidence of SWI and DSWI in patients treated with PRP was significantly lower than that in patients without PRP treatment. However, for the subgroup of randomized controlled trials (RCTs), there was no significant difference in the incidence of SWI or DSWI after intervention between the PRP and control groups. There was no significant difference in PBL in both RCTs and RSCs subgroups. Neither adverse reactions nor in‐situ recurrences were reported. According to the results, PRP could be considered as a candidate treatment to prevent SWI and DSWI. However, the quality of the evidence is too weak, and high‐quality RCTs are needed to assess its efficacy on preventing SWI and DSWI.     

Primary treatment of deep sternal wound infection after cardiac surgery: a survey of German heart surgery centers

There are various primary treatment modalities of managing deep sternal wound infection (DSWI) following cardiac surgery, namely surgical debridement with primary reclosure in conjunction with irrigation, Vacuum-assisted closure (V.A.C. therapy, and primary or delayed flap closure. The purpose of this study was to assess whether there is consensus of the primary management of DSWI using one method as a single line therapy or a combination of these procedures. Therefore, a questionnaire with regards to the primary treatment modalities of DSWI was distributed to all 79 German heart surgery centers. All replied to the questionnaire. V.A.C. is used in 28/79 (35%) heart centers as the 'first-line' treatment, 22/79 (28%) perform primary reclosure in conjunction with a double-tube irrigation/suction system, and in 29/79 (37%) clinics both treatment options were used according to intraoperative conditions. Mostly, as a primary management of DSWI two treatment modalities are mainly in use: primary reclosure coupled with a double-tube suction/irrigation system and V.A.C. therapy. The current understanding is based purely on retrospective studies, not evidence-based medicine. Since prospective randomized studies have not yet been performed, controlled clinical trials comparing these treatment modalities are pivotal to define evidence for patients presenting with DSWI.     

Negative pressure wound therapy for the treatment of sternal wound infections after cardiac surgery

We retrospectively collected and analysed data from patients with sternal wound infections between 1995 and 2001, which were treated with different wound management strategies, and compared them with our patients from 2002 to 2011, who were treated with the sternal negative pressure wound therapy (NPWT). From 1995 to 2001, a total of 198 patients (group A) with a mean age of 65 ± 10 years developed sternal wound infection (67% deep) after cardiac surgery. Wound management consisted of surgical debridement and immediate sternal closure or open packing. From 2002 to 2011, a total of 326 patients (group B) (71% deep) were managed with NPWT at the time of surgical debridement. Total mortality was 10% in group A and 3·6% in group B. Recurrence rates were 34 and 8·5%, respectively, for the groups A and B. The meantime of NPWT was 11 days. In group B patients, 75% proceeded to sternal closure. With the introduction of NPWT, the treatment of sternal wound infections could be substantially improved. Particularly, the high recurrence rates could be minimised; furthermore, the goal to salvage the sternal bone is facilitated.     

The Impact of Deep Sternal Wound Infection on Mortality and Resource Utilization: A Population-based Study

Background

Recent national infection control efforts have been directed at reducing postsurgical infection rates, related morbidity, and cost. We sought to evaluate population-level rates of deep sternal wound infection (DSWI) after cardiac surgery, associated mortality, and resource use compared to patients undergoing cardiac surgery without postoperative DSWI relative to historical trends.

Methods

We analyzed the MarketScan ^® Commercial Claims Databases from 2009 to 2013 to identify adult patients who developed DSWI after open cardiac surgery. Patients with and without DSWI were compared. The outcomes of interest included 30-day, 90-day, and 1-year in-hospital mortality. Utilization outcomes, including total hospital days and inpatient costs, were calculated in the time period from the index cardiac surgery through 90 days after DSWI diagnosis.

Results

In this cohort, 176,537 patients underwent one or more cardiac surgery procedures. DSWI occurred in 2835 (1.6 %) patients. One-year mortality for patients with DSWI was 10.7 versus 2.5 % (P < 0.001) in patients without DSWI. Mean hospital days in patients with DSWI were 33 versus 9 days for patients without DSWI (P < 0.001). Mean cost for patients with DSWI was greater than 2.5 times that of patients without DSWI ($211,478 vs $82,089, P < 0.001).

Conclusions

Treatment of DSWI results in substantial morbidity, mortality, and excess cost for treating facilities. The rates of DSWI have not decreased dramatically over the last 10–20 years. Thus, more attention needs to be focused toward understanding treatment variation that exists in patients diagnosed with DSWI.

     

The cost of vacuum-assisted closure therapy in treatment of deep sternal wound infection

Objectives. Surgical sites infections are very expensive and the total costs for coronary artery bypass grafting (CABG) surgery followed by deep sternal wound infection (DSWI) with conventional therapy are estimated to be 2.8 times that for normal, CABG surgery. Promising results have been reported with vacuum-assisted closure (VAC) therapy in patients with DSWI. This study presents the cost of VAC therapy in patients with DSWI after CABG surgery. Design. Thirty-eight CABG patients with DSWI, between 2001 and 2005, were treated with VAC therapy. The cost of surgery, intensive care, ward care, laboratory tests and other costs were analyzed. Results. No three-month mortality or recurrent infection was observed. The average cost of CABG procedure and treatment of DSWI was 2.5 times higher than the mean cost of CABG alone. No significant correlations were found between the preoperative EuroSCORE and the cost of DSWI therapy. Conclusions. VAC therapy for patients who underwent CABG surgery followed by DSWI seems to be cost effective, and has low mortality rate.     

Eliminating the diabetic disadvantage: the Portland Diabetic Project

The Portland Diabetic Project is an ongoing prospective study of 5534 diabetic cardiac surgery patients that elucidates the effects of hyperglycemia, and its subsequent reduction with continuous insulin infusions (CII), on in-hospital outcomes. Increasing glucose levels were found to be directly associated with increasing rates of death, deep sternal wound infections (DSWI), length of stay (LOS), and hospital costs. In separate multivariable analyses, hyperglycemia was found to be independently predictive of mortality (P < 0.0001), DSWI (P = 0.0001), and LOS (P < 0.002). Conversely, CII, designed to achieve predetermined target glucose levels, independently reduced the risks of death and DSWI by 65% and 63%, respectively (P < 0.001 for both). Target glucose levels <150 mg/dL and a 3-day postoperative duration of CII therapy are both important variables that determine the impact of the CII therapy on improved outcomes. Perioperative hyperglycemia in cardiac surgery patients adversely alters mortality, LOS, and infection rates. CII eliminate the increased risks of these complications previously seen in diabetic patients. CII protocols are the standard-of-care for glycometabolic control in cardiac surgery patients.     

The vacuum-assisted closure system for the treatment of deep sternal wound infections after cardiac surgery

BACKGROUND: The VAC system (vacuum-assisted wound closure) is a noninvasive active therapy to promote healing in difficult wounds that fail to respond to established treatment modalities. The system is based on the application of negative pressure by controlled suction to the wound surface. The method was introduced into clinical practice in 1996. Since then, numerous studies proved the effectiveness of the VAC System on microcirculation and the promotion of granulation tissue proliferation. METHODS: Eleven patients (5 men, 6 women) with a median age of 64.4 years (range 50 to 78 years) with sternal wound infection after cardiac surgery (coronary artery bypass grafting = 5, aortic valve replacement = 5, ascending aortic replacement = 1) were fitted with the VAC system by the time of initial surgical debridement. RESULTS: Complete healing was achieved in all patients. The VAC system was removed after a mean of 9.3 days (range 4 to 15 days), when systemic signs of infection resolved and quantitative cultures were negative. In 6 patients (54.5%), the VAC system was used as a bridge to reconstructive surgery with a pectoralis muscle flap, and in the remaining 5 patients (45.5%), primary wound closure could be achieved. Intensive care unit stay ranged from 1 to 4 days (median 1 day). Duration of hospital stay varied from 13 to 45 days (median 30 days). In-hospital mortality was 0%, and 30-day survival was 100%. CONCLUSIONS: The VAC system can be considered as an effective and safe adjunct to conventional and established treatment modalities for the therapy of sternal wound infections after cardiac surgery.     

Variables predicting adverse outcome in patients with deep sternal wound infection

BACKGROUND: Mortality after deep sternal wound infection (DSWI) ranges between 5% and 47%. Variables predicting hospital mortality and prolonged hospital stay are still to be assessed. METHODS: Among 13,420 patients who underwent cardiac surgery in our institution between 1979 and 1999, DSWI developed in 112 cases (0.8%). Multiple variables were recorded prospectively and analyzed retrospectively as predictors of hospital death and prolonged (>30 days) hospital stay. The analyzed variables were divided into three groups: (1) related to the patient, including demographic variables and preoperative conditions; (2) related to cardiac operation; and (3) related to infection. Predictive variables were assessed by univariate and multivariate logistic regression analysis. RESULTS: Hospital mortality was 16.9%. The hospital stay of the 93 discharged patients ranged between 16 and 180 days (mean 31.3 +/- 15.2). Length of cardiac operation, length of stay in intensive care unit, interval between symptoms of DSWI and wound debridement were found to be the most significant predictors of bad outcome following DSWI. CONCLUSIONS: In our study demographic variables and preoperative conditions did not affect the prognosis of DSWI. Lower mortality rate and shorter hospital stay could be achieved with earlier and aggressive treatment of DSWI.