Background

In 2017, a global declaration for appropriate use of antimicrobials across the surgical pathway was shared by over 230 experts from 83 different countries [1]. Within this declaration, the authors highlighted the effects of antibiotic exposure, misuse, and overuse on antibiotic resistance and outlined the fundamental principles of appropriate antibiotic prophylaxis and therapy in surgery.

In that declaration, efforts to prevent healthcare-associated infections (HAIs) were not specifically highlighted [2]. HAIs including surgical site infection, ventilator-associated pneumonia, central line-associated bloodstream infection, and catheter-associated urinary tract infection are the most common nosocomial infections. Healthcare-associated infections continue to be of significant importance in surgical patients.

Surgical site infections (SSIs) are a major clinical problem in terms of morbidity, mortality, length of hospital stay, and overall direct and indirect costs globally [3, 4]. However, knowledge, attitudes, and awareness of infection prevention and control measures vary significantly among surgeons. Most significantly, a gap seems to exist between best evidence and clinical practice with regard to SSIs prevention.

The World Health Organization (WHO) [5], the Centers for Disease Control and Prevention (CDC) [6], and a combined effort by the American College of Surgeons/Surgical Infection Society [7, 8] have recently published guidelines for the prevention of SSIs. Despite clear evidence and guidelines to direct SSIs prevention strategies, compliance is unacceptably poor [9].

Preoperative antibiotic prophylaxis (PAP) is a cornerstone of SSIs prevention. The use of PAP contributes considerably to the total amount of antibiotics used in hospitals worldwide. PAP has been shown to be an effective measure for the prevention of SSIs, but its use should be limited to specific, well-accepted indications to avoid cost, toxicity, and antimicrobial resistance, and should never substitute for the good medical practice of infection prevention and control. Guidelines stress the importance of cessation of antibiotic prophylaxis immediately after surgery and refrain from the extension of prophylaxis outside the operating theater [5]. High rates of inappropriate use of prophylactic antibiotics in surgery continue to be reported in the literature [9]. In Appendix 1, seven strategies for correct antibiotic prophylaxis are illustrated.

Antibiotic therapy is an additional key component of daily surgical practice. Antibiotics are life-saving when treating bacterial infections but are often used inappropriately, specifically when not indicated. Antibiotic therapy plays an integral role in the management of surgical infections, especially in critically ill patients who require immediate empiric antibiotic therapy. Poor antibiotic coverage and inappropriate regimens are the variables most strongly associated with unfavorable outcomes [10, 11]. The timing, regimen, dose, route of administration, and duration of antibiotic therapy should be always optimized. In most patients with surgical infections, antibiotic therapy aims to treat any residual infection after adequate source control. In these patients, prolonging antibiotic treatment, which can lead to antibiotic resistance, does not prevent the persistence or recurrence of the infection. When source control is obtained, the duration of antibiotic therapy should be shortened as much as possible, unless there are special circumstances that require prolonging antimicrobial therapy, such as signs of an ongoing infection. Patients who have systemic signs of sepsis beyond 5 to 7 days of treatment warrant diagnostic investigation to determine an ongoing uncontrolled source of infection needing intervention [8]. In Appendix 2, ten strategies for correct antibiotic therapy are illustrated.

The surgeon as a champion in preventing and treating infections

Surgeons prescribing antibiotics have two opposing responsibilities. They have to (1) offer optimal therapy for the individual patient under their care and (2) restrain from overprescribing antibiotics to preserve their efficacy and minimize the rate of emergence of antimicrobial resistance, while also preventing collateral damage from antibiotics (such as Clostridium difficile infections) [12].

Because most surgeons have already established their attitudes and behaviors with regard to antibiotic usage, it is difficult to change their deeply established views and practice patterns. A range of factors such as diagnostic uncertainty, fear of clinical failure, time pressure, or organizational issues can influence prescribing decisions. However, due to cognitive dissonance (recognizing that an action is necessary but not implementing it), it is very challenging to change the prescribing behavior [1].

Surgeons should be aware of their role and responsibility for maintaining the effectiveness of current and future antibiotics. Although most of them are aware of the problem of antimicrobial resistance (AMR), many still underestimate this problem in their own hospital and in their patients. Inappropriate use of antibiotics, as well as poor prevention and control of infections such as hand hygiene, is contributing to the development of AMR. Surgeons are at the forefront in managing patients with infections and should take a proactive role in ensuring both effective antibiotic therapy and the avoidance of inappropriate and unnecessary antibiotic exposure [12].

Successful and cost-effective strategies to reduce AMR should involve a multi-faceted approach aimed at optimizing antibiotic use, strengthening surveillance and infection prevention and control, and improving clinician education regarding the appropriate use of antibiotics.

A growing body of evidence demonstrates that hospital-based programs dedicated to improving antibiotic use can both optimize the treatment of infections and reduce the adverse events associated with antibiotic use [1]. “Antibiotic stewardship programs” (ASPs) may significantly reduce the incidence of antimicrobial resistance and Clostridium difficile infections in hospitalized patients [1]. Every hospital worldwide should utilize the existing resources to create effective ASPs with a multi-disciplinary team. However, the best strategies to establish an ASPs are not well defined.

ASPs should be linked to infection control and prevention programs in order to improve antibiotic prescribing practices and to prevent infections.

Dedicated efforts, such as the establishment of locally adopted multi-disciplinary, evidence-based protocols and guidelines; unit specific antibiotic sensitivity data; and compliance monitoring, are required to maximize the performance.

To investigate the effects of the antibiotic stewardship program on prevention and control of SSIs during clean surgery, Liu et al. [13] compared the effect before and after an antibiotic stewardship program intervention. From January 1, 2010, to December 31, 2016, 41,426 patients underwent clean surgeries in a grade III, class A hospital. The rate of prophylactic antibiotic use in the 41,426 clean surgeries was reduced from 82.9 to 28.0% after the interventions. The rate of antibiotic agents administered within 120 min of the first incision increased from 20.8 to 85.1%. The rate at which prophylactic antimicrobial agents were discontinued in the first 24 h after surgery increased from 22.1 to 60.4%. Appropriate antibiotic selection increased from 37.0 to 93.6%. Prophylactic antibiotic re-dosing increased from 3.8 to 64.8%. The SSI rate decreased from 0.7 to 0.5% (p < 0.05). The pathogen detection rate increased from 16.7 up to 41.8% after intervention. The intensity of antibiotic consumption reduced from 74.9 defined daily doses (DDDs) per 100 bed-days to 34.2 DDDs per 100 bed-days after the interventions.

Van Kasteren et al. [14] in a prospective multi-site study of elective procedures in 13 Dutch hospitals evaluated the quality of prophylaxis auditing before and after an intervention consisting of performance feedback and implementation of national clinical practice guidelines. Antimicrobial use decreased from 121 to 79 DDD/100 procedures, and costs reduced by 25% per procedure. After the intervention, the antibiotic choice was inappropriate in only 37.5% of the cases instead of in 93.5% expected cases prior to the intervention. Prolonged prophylaxis was observed in 31.4% instead of 46.8% expected cases and inappropriate timing in 39.4% instead of the expected 51.8%. Time series analysis showed that all improvements were statistically significant (p < 0.01). The overall SSI rates before and after intervention were 5.4% (95% CI 4.3–6.5) and 4.6% (95% CI 3.6–5.4), respectively.

Raising awareness is a crucial factor in changing behaviors. Efforts to improve educational programs are thus required, and this should preferably be complemented by active interventions such as prospective audits and feedback to clinicians to stimulate further changes. It would be advisable to introduce specific courses and training about antibiotics in the core curriculum of medical students, with emphasis on the rational prescription of antibiotics that emphasizes more the behavior of medical students towards antibiotics use rather than the advance of knowledge alone [15].

The best means of improving ASPs worldwide should involve collaboration among various specialties within a healthcare institution including prescribing clinicians. ASPs have many contributors, steps, and actions specifically related to the prevention and management of infection. The multidisciplinary approach reinforces the concept that all professionals bring with them their particular expertise and are responsible for their respective contributions. In this context, the direct involvement of surgeons can be highly effective.

Surgeons with adequate knowledge in surgical infection who are involved in an ASPs may provide feedback and integrate the best practices of infection prevention and treatment among surgeons.

Very few studies have focused on the relationship between ASPs and surgeons. In 2011, Dortch et al. [16] reported the results of a surgeon-led infection reduction and antibiotic stewardship program in two separate ICUs, one trauma and one surgical. Components of the program included unit-specific empiric and therapeutic antibiotic protocols for healthcare-acquired infections, prophylaxis guidelines, and numerous infection reduction strategies. They demonstrated a marked reduction in infectious complications, multidrug-resistant pathogens, and broad-spectrum antibiotic use.

In 2015, Çakmakçi [17] suggested that the engagement of surgeons in ASPs may be crucial to their success. However, Duane et al. [18] showed poor compliance of surgical services with ASP recommendations.

A retrospective study published in 2016 showed [19] that the implementation of an educational and surveillance-based ASP achieves a significant improvement in all antibiotic agent prescriptions and a reduction in antibiotics consumption. In a surgical unit performing mainly elective major abdominal surgery and emergency surgery, both a local protocol of surgical prophylaxis and a set of guidelines for management of intra-abdominal infections (IAIs) were introduced [20]. Moreover, a unit-specific control of antimicrobial agents used and surveillance of antimicrobial resistance were implemented. Comparing the pre-intervention and post-intervention periods, the mean total monthly antimicrobial use decreased significantly after the intervention. The model was based on the concept of the “surgeon champion.” The “champion” was a surgeon who on a day-to-day basis worked within the surgical unit, promoting and maintaining a culture in which both infection prevention and management were given high priority. Such a champion model has been previously applied to surgical safety implementations in general, such as surgical checklists, and plays a key role in successful quality improvement at the hospital level [21].

Identifying a local opinion leader to serve as a champion may be important because the “surgeon champion” may integrate best clinical practices and drive their colleagues into changing behaviors while maintaining a tight collaboration with antimicrobial stewardship and infection control teams. The “champion” should possess a wide knowledge of surgical microbiology, as well as considerable expertise in the antibiotic management of surgical infections. Furthermore, the “champion” should increase the awareness of surgical infections in young staff surgeons and surgical residents.

We think that the concept of the “surgeon champion” can be a crucial way to improve the infection prevention and antibiotic prescribing practices across the surgical practice pathway.

Conclusions

Surgeons must be aware that appropriate antibiotic utilization is an integral part of any stewardship program and necessary to maximize clinical cure and minimize the emergence of antimicrobial resistance.

Antimicrobial restriction is not more effective than the persuasive strategy in achieving the goal of controlling antimicrobial use in the long term [22]. Moreover, in many settings, there may be inadequate personnel for a restrictive approach, and restriction strategies fail to consider the appropriateness of use of non-restricted antibiotics, which makes up the vast majority of antibiotics used in the hospital [23]. The impact on surgeon autonomy with antimicrobial restriction may also create barriers to collaboration with members of the ASP resulting in less communication about stewardship. Therefore, the emphasis needs to be on the incorporation of a surgeon champion in the ASPs.

Surgeons with good knowledge of surgical infections involved in ASPs may audit antibiotic prescriptions, provide feedback to the prescribers, and integrate the best practice of infection prevention and management among surgeons. We think that the concept of the “surgeon champion” is a crucial way to improve infection prevention and antibiotic prescribing practices across the surgical practice pathway.