The aim of knee arthroplasty is to restore knee function and relieve pain in patients who require this surgical treatment. This procedure has represented a significant health-care advance over the last few decades. Technological development, the progressive ageing of the population and prolonging the life of patients with underlying diseases increase the number of patients who are candidates for this type of surgery. Consequently knee replacement surgery is currently a common practise in the majority of Spanish hospitals.1–3

Although prosthesis infection is rare, it is the most important complication. It also has a great social impact as it is a serious adverse effect on the patient and carries considerable economic and welfare costs for the health system. Infections associated to health care mean an increase in morbidity; they lengthen hospital stays, increase diagnostic tests and the use of antibiotics. Knee revision due to infection is estimated to cost twice as much as for an aseptic one and triple or quadruple that of a primary total knee arthroplasty, and this is mainly due to prolonged and repeated hospitalisation.4,5

It was estimated that 450,000 knee arthroplasties were carried out in the U.S. during 2005. During the period 1990–2005, the increase in knee prosthesis was over threefold and the predicted increase for the year 2030 is between 7 and 8 times that. The percentage of knee prosthesis infection in 2005 was 1.4% and this complication determined 16.8% of arthroplasty reviews. It is estimated that the knee infection rate will be 6.8% for 2030.6

In Spain, the annual estimate for knee arthroplasties is 25,000, with a mean infection rate of 2.5%; the population with risk factors associated to the indication of arthroplasty is a patient group that is constantly growing.1,7 The main reason for knee prosthesis is indicated is osteoarthritis, affecting about 14% of females and 5.7% of males in Spain, which together with a longer lifespan and ageing of the population, make an increase for this type of intervention foreseeable.8 According to the EPISER study (a study of the prevalence of rheumatic diseases in the Spanish population), the prevalence of symptomatic knee osteoarthritis in Spain rises to 33.7% of people aged over 70 years old and it is estimated that 2% of people over 55 years old have severe pain in their knees that makes surgery their only option. In the work of Allepuz et al,8 knee arthroplasty rates between 1994 and 2005 showed an increase from 2.6 to 15.5 interventions per 10,000 inhabitants, with a yearly percentage change of 16.1% (CI 95%: 14.3–17.9) with an estimated cost for knee arthroplasty of €7000–8000.9

The aim of our study was to determine the incidence of surgical site infection in knee prosthesis procedures, for a follow-up period of 1 year in 12 hospitals in the Madrid area. This was attained from the data obtained using the national surveillance system INCLIMECC (Clinical Indicators of Continuous Quality Improvement).10 We analysed variables such as the degree of preoperative antibiotic prophylaxis and pre-surgical patient preparation.

A prospective, observational study was carried out on a cohort of patients operated on for the same surgical procedure in 12 hospitals over a year, using the surveillance programme for hospital-acquired infection INCLIMECC. The study period was from the 1st January to 31st December 2009.

A total of 2088 knee prosthesis procedures were analysed, with 120min as the percentile 75 of the duration of the intervention. The percentage of patients operated on who were male was 24.6% and 75.4% were females, with a mean age of 71 years (±8 years).

The global infection rate in the surgical site, which included primary and revision prosthesis, was 2.1%. There was 65% rate of organ or space infections. The surgical wound infection rate according to its depth is shown in Table 1. The distribution of the overall infection rate according to the number of hospital beds was 2.1% in hospitals with fewer than 500 beds, 1.5% in those with 501–1000 and 2.4% in those with more than 1000 beds.

Sixty per cent of infections were diagnosed in the first month after surgery. There was microbiological confirmation in 41.9% of cases (18/43), with staphylococci being cultivated in 61% of the isolated microbiologicals (11/18). There were 5 cases of Staphylococcus epidermidis, 3 of methicillin-resistant Staphylococcus, 2 of Staphylococcus aureus and 1 case of other Staphylococci.

A total of 1.6% of patients were operated on and they did not receive preoperative prophylaxis even though it was indicated. The percentage of adequate surgical prophylaxis according to indication, election of antibiotic, start-up, method and duration, with respect to all the patients receiving it was 63.3%. The main cause of antibiotic prophylaxis inadequacy was its excess duration, which occurred in 85.7% of cases. Other causes of inadequacy were produced by start-up in 8.6% of occasions, by antibiotic choice in 4.9% and by indication in 0.08%.

With regards to the pre-surgical preparation variable, the percentage of patients correctly prepared was 50.3%, there was no record for 47.8% and the rest were either not prepared for surgery or the preparation was incorrect.

The mean stay of patients operated on for knee prosthesis was 10 days, and with a mean preoperative stay of two days. In patients who developed a surgical infection, there was a mean increase of 28 days in the postoperative stay. This postoperative stay was multiplied by 5 in the group of infected patients with a zero risk index and by 4 in the group one risk index. Table 2 presents the hospital stay by risk index for infected and non-infected patients.

Revision surgeries represented 9.8% of the interventions and the rest were primary ones. In 88% of surgeries, the NNIS risk index was zero or one. The infection rates of the surgical site according to the NNIS risk index (0, 1, 2 and 3) were 1.9%, 2.0%, 2.8% and 0% respectively.

We observed an increase in the infection rate as the NNIS index risk increased. However, there were no infections in risk group 3, as this only included 6 patients.

Table 3 presents the comparison between the infection rate in the participating hospitals from the Community of Madrid and those of the INCLIMECC group throughout Spain, as well as the comparison with the data published by NHSN. The overall infection rate in knee arthroplasties in the group of participating hospitals in the Community of Madrid was twice as high as expected according to the rates published by the U.S. surveillance system. Compared to the national data, the SIR was very close to one, given that the rates are practically the same.

Infection associated to health care, defined as that which develops during the patient's hospitalisation, continues being an important problem in Spanish hospitals. The population with risk factors associated to the indication of arthroplasty (rheumatoid arthritis, diabetes, obesity, repeated replacements) is a growing group of patients that require and will require hospital care.1

Surgical infection is usually contracted during the intervention itself due to the contamination of the incision by micro-organisms from the patient's skin itself (endogenous source). Infections produced from an exogenous source are less frequent and more rarely do we find the source to be haematogenous, from a bacteria of any origin, which is why the probability of developing a prosthetic infection decreases as time elapses from the time of implant.16 In our analysis, 60% of infections were produced in the month after surgery. This is similar to other studies, where 71% of prosthesis infections appeared in the first 3 months.1

Infection risk appears with the skin incision and is greatest at the end of the intervention. Consequently, it is important to administer antibiotics before surgery, so as to maintain suitable concentrations in the tissues during the surgical procedure; as it is a procedure carried out with ischemia, it should not be necessary to repeat prophylaxis if the surgery is prolonged.17

The most frequent cause of inadequacy in our results was duration, by its prolongation. Given that surgical antibiotic prophylaxis (SAP) hopes to attain the best antimicrobial levels in the operative field, their use after the surgical incision is closed is unnecessary and does not report any benefits, whilst the prolongation of antibiotic prophylaxis can be an additional risk in developing bacterial resistance by providing excessive treatment.18 That is the basis for the importance of making SAP adequate to the protocol without prolonging doses unnecessarily, as well as minimising the number of patients who do not receive it even though it is indicated. Because of the aforementioned, we should not expect an improvement in the infection rate after correcting SAP inadequacy, which was previously for excessive duration. Even when excessive antibiotherapy is used, an infection should not occur from this incorrect practise, as the patient has antibiotic cover during the period of greatest risk.18 However, Herruzo et al.,19 found that the prolongation of prophylaxis multiplied the surgical infection site by 1.5 in a multivariate analysis of a sample of more than 7000 patients.

Pre-surgical preparation is one of the preventative measures for surgical infection that is carried out to reduce the infection risk, based on direct scientific evidence or on theoretical justification. In our study pre-surgical preparation was adequate in half of the patients intervened; this figure is possibly underestimated and would improve if it were correctly recorded in the clinical history. We find it extremely curious that the information is not recorded in 47.9% of interventions. To obtain this data we checked on the ward before surgery and in the patient's clinical history, but there was no specific record or it was not heterogeneous. This aspect will possibly improve with the implementation of surgical verification lists that encourage strategies relating to patient's safety.20

In our study, the general trend of the different hospital centres towards outpatient control before hospitalisation helped programmed admission, with a mean pre-surgical stay of 2 days. However, this can still be improved, as they are programmed surgeries.

In our data, surgical infection prolonged hospital admission, by increasing its duration 4 or 5 times. Consequently, any measures to reduce the infection incidence rate would also contribute to reducing the mean stay, together with its associated costs.

Every day there are a greater number of joint prosthesis interventions as there are more degenerative diseases, brought about by an ageing population and the changes in indication criteria, which seem to have expanded. There has been an increase in the number of candidates for this procedure given the good functional results, the significant improvement in pain and the technological advances that have made this intervention a therapeutic option increasingly less limited by age. For this reason, we recommend a surveillance system to assess prosthesis results.8,21

Knee prosthesis infection is a complication that very probably causes readmission, as it requires cleanup surgery and prosthesis removal. This adverse effect, attributable to a specific intervention, would be detected if there was continuous follow-up after surgery.18,22

Cumulative incidence is a nosocomial infection measurement that depends on the amount of surveillance after hospital discharge and this follow-up can vary amongst hospitals.23 We must also appreciate that there is a time-based criteria that would explain some of these discrepancies in the interpretation of prosthetic infection data. In surveillance, an infection is only considered nosocomial and recorded as such if the prosthesis-associated infection occurs in the year after the surgery; in contrast, with regards to care, all prosthesis-associated infectious processes after this time has elapsed would mean new hospital admissions, diagnostic tests, treatments and re-interventions for postoperative infection.11 Different authors have reported that 64% of periprosthetic infections appear the year after the surgery.24 Because of all this, we recommend that there should be surveillance of at least a year for certain surgical procedures and specifically in prosthesis surgery.

Although our study period was for a year, we included infections detected in arthroplasties carried out in the previous year. We therefore expect that the infection rates should compensate the follow-up of less than a year of some of the primary surgeries during the study period. In any case, the follow-up of this procedure continued in 2010 and its results can be compared later, assessing the possible effect of implementing certain preventative measures such as the surgical verification lists.

On the other hand, there is heterogeneity between the studies published according to the surveillance carried out between primary arthroplasties or if revision arthroplasties are included, such as is our case. This fact would mean an increase in rates, given that (as other authors have pointed out) infection in revision arthroplasties is greater than in primary1 because an intervention on a joint with a history of previous arthroplasty has been identified as an infection related risk factor.25 Another factor that would contribute to the variability between studies is that some infection data exclude superficial infection, which is included in our study.26 The hospitals mentioned in the scientific literature could vary in size, the population they care for and patient care practises.27–30 The infection rate in our study lies within the infection rate range described in European literature, as can be seen in Table 4.

In our study, the micro-organisms most commonly isolated amongst infections with a positive microbiological result were Staphylococcus epidermidis and Staphylococcus aureus. This is similar to data provided by other studies.1,30

It is important for a health centre to know its own infection rates and the compliance level of the processes associated to them.18 The study of infection associated to health care is complex and requires a methodological approach that allows us to obtain reliable, representative and comparable information. Many of the infections associated to health care are preventable. The efforts to prevent them start by knowing about the main factors responsible for these infections and how to intervene to prevent or reduce the risk that they occur. Many of the prevention measures are not expensive and are generally less aggressive than what is involved in looking after a patient with an infection.6,19

The project was financed by the Ministry of Health of the Community of Madrid, within the grants for Autonomous Communities to implement National Health System strategies in Patient Safety of the Ministry of Health and Social Policy in 2009 (Royal Decree 16/06/2009).

The authors have no conflict of interests to declare.

Evidence level IV.

Protection of human and animal subjects. The authors declare that no experiments were performed on humans or animals for this investigation.

Confidentiality of Data. The authors declare that no patient data appears in this article.

Right to privacy and informed consent. The authors declare that no patient data appears in this article.