We are constantly exposed regularly to microorganisms in our environment; yet, infection is uncommon in healthy individuals with intact host defenses. These microbes populate our skin and mucous membranes as well as some organs but usually exist in a commensal relationship with humans as their hosts.

Microbial contamination of the surgical site is a necessary precursor for SSI. This happens most commonly when an incision is exposed to the patient’s exogenous or endogenous bacterial flora. Exposure can also occur from healthcare personnel, the operating environment, or from contaminated equipment or instruments. Less commonly, the surgical site can be contaminated by hematogenous seeding from a remote site of infection.

Infection occurs when there is an imbalance among the degree of contamination, host defenses, and the environment. Contamination is influenced by inoculum size and virulence of the involved organisms. Examples of local host factors include desiccation or tissue damage at the incision, and a hematoma or seroma at the surgical site. There also are a variety of systemic, environmental, and treatment-related factors associated with an increased propensity to develop an SSI (Table 10.2).

The risk of SSI is highly dependent on the degree of contamination and is markedly increased when the inoculum is >10⁷ microorganisms per gram of tissue. However, a much lower dose of contaminating microorganisms can produce infection when foreign material is present or if the host or local environment is compromised by other factors or conditions [4].

There are a number of risk factors that have been identified to influence the occurrence of SSI (Table 10.2). Understanding the contribution of each of these elements to the occurrence of SSI encourages targeted interventions aimed at reducing the incidence of infection. It is useful to explore some of the risk factors that are potentially controllable in some detail.

Increased serum glucose (>200 mg/dL) in the postoperative period has been associated with a greater incidence of SSI, particularly among patients undergoing cardiac surgery [5]. It has also been suggested that chronic glucose control as assessed by serum hemoglobin A1c levels may influence infection risk [6]. The independent contribution of diabetes mellitus to SSI risk is difficult to discern, since most studies do not control for confounding factors.

Nicotine use delays primary wound healing and may increase the risk of SSI via this mechanism. In a large prospective study, current smoking of cigarettes was an independent risk factor for sternal and/or mediastinal deep SSI following cardiac surgery [7]. Others have corroborated cigarette smoking as an important risk factor [8].

Although individual comorbid conditions may have some impact on infection risk, results from the NNIS have demonstrated that the overall predictive risk of SSI can be assessed by using the American Society of Anesthesiologists (ASA) physical status score, duration of operation, and incision classification (Tables 10.3 and 10.4). Assigning one point each when the ASA physical status score is ≥3, duration of operation exceeds the 75th percentile for the particular operation, and incision site (wound) class is contaminated or dirty, provides a reasonably accurate prediction for the risk of SSI [9]. This model is most accurate to predict the occurrence of superficial SSI. There may be different risk factors for deep and organ/space SSI [10].