Surgical Site Infections

Clinically relevant bacteria in the operating room 

05.05.2023

Surgical site infections (SSI), infections that occur after surgeries, can be superficial or involve deeper tissues, organs, or implanted materials. They are most frequently caused by pathogenic bacteria, less often by viruses or fungi. Which pathogens cause SSI is generally dependent on the performed procedure [1, 2]. For example, facultative pathogens only become problematic in combination with other factors such as the insertion of an implant [1].

This overview provides information on the most important bacterial pathogens for SSI.

Most SSI are caused by Staphylococcus aureus

In Germany the most common pathogen causing SSI is S. aureus [1]. Data collected by the National Reference Center for Nosocomial Infections (Nationales Referenzzentrum für nosokomiale Infektionen, NRZ) in the hospital infection surveillance system ‘KISS’ show that S. aureus can be found in 20% of all SSI isolates [1]. Also, in data from the US, captured in the National Healthcare Safety Network (NHSN) of the Centers for Disease Control and Prevention (CDC), S. aureus was identified in 20.7% of all SSI cases [2]. SSI with S. aureus are particularly frequent after cardiac and orthopaedic surgeries [1]. One major risk factor is nasal colonisation of the patient with S. aureus, which can be tackled by preoperative screening and decolonisation [1].

Figure based on data from Table 2 published in [1]. CoNS = Coagulase-negative Staphylococci; SSI = surgical site infection.

E. coli and Enterococci most often responsible for SSI in abdominal surgery

In abdominal surgery, on the other hand, intestinal bacteria play a particularly important role for SSI. Here, E. coli is the leading pathogen with 30% (NRZ) and 19.6% (NHSN) of SSI cases, followed by enterococci (NRZ 29%, NHSN 13.9%) [1, 2]. Preoperative defecation in combination with antibiotics can reduce this risk in certain surgeries [1].

Implanted foreign materials increase the risk of SSI and may decrease the required inoculum

Orthopaedic surgeries carry a particularly high risk of osteomyelitis (bone infection due to spread from surrounding tissue, systemic bacteraemia, or direct bone trauma), which is mostly caused by S. aureus or coagulase-negative Staphylococci from the normal skin flora [3]. Propionibacterium acnesoften causes SSI after shoulder surgeries, because this bacterium preferably colonises the skin of shoulder and axilla [4]. Operations in which foreign materials are introduced (e.g., joint replacements in orthopaedics) are associated with a particularly high risk of SSI. Since the material properties of the implants favour the adhesion of bacteria (biofilm formation) fewer pathogens may be needed to cause an infection. This risk, however, can be mitigated using special materials such as titanium or antiseptic coatings [1].

Hygiene measures such as hand and surface hygiene are essential for patient protection

Depending on the operation, different pathogens play a role in SSI. It is therefore fundamental to implement the hygiene measures recommended in guidelines for preparation of the patient [1, 5]. Since there is a risk of SSI not only from the patient's own flora (endogenous), but also from surfaces, instruments and hands (exogenous), compliance with hygiene measures (e.g., indicated hand, surface and instrument disinfection) is essential to prevent infections and increase patient safety.

Sources:

  1. Kommission für Krankenhaushygiene und Infektionsprävention (KRINKO) beim Robert Koch-Institut (RKI) (2018) Prävention postoperativer Wundinfektionen. Bundesgesundheitsbl Gesundheitsforsch Gesundheitsschutz 61: 448-473. https://doi.org/10.1007/s00103-018-2706-2
  2. Weiner LM et al. (2016) Antimicrobial-Resistant Pathogens Associated With Healthcare-Associated Infections: Summary of Data Reported to the National Healthcare Safety Network at the Centers for Disease Control and Prevention, 2011-2014. Infect Control Hosp Epidemiol 37: 1288-1301. https://doi.org/10.1017%2Fice.2016.174
  3. Masters EA et al. (2022) Skeletal infections: microbial pathogenesis, immunity and clinical management. Nat Rev Microbiol 20: 385-400. https://doi.org/10.1038/s41579-022-00686-0
  4. Jolivet S, Lucet JC (2019) Surgical field and skin preparation. Orthop Traumatol Surg Res 105: S1-S6. https://doi.org/10.1016/j.otsr.2018.04.033
  5. World Health Organization. Global Guidelines for the Prevention of Surgical Site Infection. 2018. https://www.who.int/publications/i/item/global-guidelines-for-the-prevention-of-surgical-site-infection-2nd-ed (accessed on January 10, 2023)

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