Periprosthetic Joint Infection Clinical Trial
Official title:
Intraoperative Microbial Contamination, Its Prevention and Its Consequences for Outcomes Following Joint Replacement Surgery
This is a randomized, controlled study which aims to show whether iodine impregnated
incisional foil (IobanTM) has a place in the prevention of prosthetic joint infection (PJI).
1200 patients will be included in this study and will be followed through out a ten year
period.
Follow up will center on the function of the prosthetic knee, early and late infection rates
and revision surgery due to aseptic loosening.
Our purpose is to gain insight in to the causes of post-operative infection in joint
alloplasty surgery. Our hypothesis' are:
1. The patient's skin flora is the main source of intraoperative contamination,
2. Intraoperative contamination can be reduced by using IobanTM
3. Intraoperative contamination strongly predicts postoperative infection
4. Unsuccessful clinical outcomes of knee arthroplasty are caused by low-grade infections.
To our knowledge this is the first study with this large a sample size and as long a follow
up.
Background PJI is a devastating complication with substantial morbidity and high socio
economic costs. Revision surgery due to infection costs as much as six times more than the
primary surgery and has a poorer outcome for the patient i.e. disability, pain or loss of
function.
Methods and materials
The study has two main arms:
1. Intraoperative contamination
2. Postoperative infection
The first stage aims to document that patients with intraoperative contamination have a
larger risk of developing postoperative infection and include a study of the effect of
Ioban™.
The second stage are to include methods of PCR (polymerase chain reaction) and fluorescence
microscopy, to demonstrate bacterial contamination and/or infection of any implants removed
during the study period.
Perspectives This study will give us new insight in the causes of PJI and the correlation
with contamination during surgery. If IobanTM is proved to prevent infection it is a simple
way to prevent post-operative infection and can be implemented in any orthopedic department.
Introduction Approximately 8,000 primary knee arthroplasty procedures are performed annually
at Danish hospitals (1). Infection is a serious complication that occurs with a frequency of
around 2 %.
A mean of hindering infection is the use of IobanTM, an incisional drape impregnated with
iodine. This costs 69 DKK pr. sheet. A two-stage stage operation for infection costs 253,122
DKK. (2) Using IobanTM for 8000 knee operations costs 552,000 DKK. Besides high socio
economic costs infections cause considerable morbidity and have severe consequences for the
independent mobility of the patient (3-5).
As the estimated number of arthroplasty procedures continuously increase so will the number
of infections (6), and prevention is therefore of high priority.
Aim
The inestigators' purpose is to gain insight in to the causes of post-operative infection in
joint arthroplasty surgery. The investigators' hypothesis' are:
1. The patient's skin flora is the main source for intraoperative microbial contamination,
2. Intraoperative contamination can be reduced by using an iodine impregnated incisional
drape,
3. Intraoperative contamination strongly predicts postoperative infection
4. Unsuccessful clinical outcomes of knee arthroplasty are caused by low-grade infections.
Perspectives If intraoperative contamination can be shown to be a strong predictor of
postoperative infection, then contamination will be an obvious outcome parameter for studies
of preventive measures for infection. Demonstration of a strongly predictive role of
intraoperative contamination may allow new prophylactic strategies for preventing
postoperative infection, and one will have to consider prolonged antibiotic prophylaxis or
treatment for patients, where contamination has been demonstrated.
Results of the study will provide information that will shape future strategies for
preventing, diagnosing and treating peri-prosthetic joint infections.
The risk of adverse outcome for the participants is largely outweighed by the probability of
discovering an early infection following surgery. This project's findings will be of great
value for future patients undergoing knee replacement surgery.
Background and theory Recent studies have shown that a considerable proportion of orthopedic
procedures performed under supposedly sterile conditions are contaminated. Contamination of
the surgical field is found using swabs during surgery. There are several possible sources of
intraoperative contamination. An obvious source is the patient's skin flora. Under normal
circumstances, these bacteria are considered harmless, but in the presence of biomaterials
like prosthetic implants, they have a significant pathogenic potential (7). It is well
recognized that these bacteria adhere to the surface of the implant, where they multiply and
transform into a biofilm formation making them more resistant to antibiotics and host defense
mechanisms (8, 9). As a result they are involved in the development of low-grade persistent
infections, which today still represent a major diagnostic challenge.
Furthermore, it is suggested that an unknown proportion of implant loosening are caused by
infections of low virulence that do not result in recognizable infection (10). In this
respect, reported infection rates are probably underestimated.
Standard procedures have been developed to reduce skin contamination including the use of
preoperative skin antiseptics. However, even with optimal skin preparation, total
sterilization of the skin is not possible. Some microorganisms will remain in the deeper
parts of the skin, such as the hair follicles, and appear at the skin surface during surgery,
where they will potentially contaminate the surgical field (11). One strategy of preventing
microbial re-colonization on the skin is the application of an iodine impregnated incision
drape preoperatively. In theory, this drape provides continuous antimicrobial activity
throughout the surgical procedure thereby reducing skin contamination.
There are only few studies on the efficacy of iodine impregnated drapes. Some studies show
reduced contamination rate with or without impact on infection rate. Other studies, however,
have not been able to support this observation (12-14). All of these studies have had an
insufficient amount of patients included. Consequently, there are no conclusions for
standardized practice regarding the use of iodine impregnated incisions drapes. To clarify
their correlation with intraoperative contamination as well as their preventive effect on the
development of peri-prosthetic infection, large clinical trials are needed.
Cost benefit analysis One sheet of IobanTM costs 69 DKK. A two stage operation with removal
of implant, implantation of a spacer and subsequent removal of spacer and implantation of a
secondary implant costs 253.122 DKK (2). The one year revision rate I 1.8 % and a total of
8298 knees operated. Assuming half of these revisions are due to infection and are operated
on using a two stage technique 18.731.028 DKK could be saved every year. These numbers are
solely covering hospital expenses and not physiotherapy or rehabilitation or any other costs
related to the surgery.
Using IobanTM in all patients undergoing total knee joint replacement costs 572.532 DKK a
year. If this can prevent half of the one year revisions rates a total of 18.2 mio DKK could
be saved each year. There is reason to believe that the investigators' findings could be
extrapolated to other orthopedic procedures were implants are used saving the hospital large
amounts of money on revisions every year. Not to mention the amount that could be saved on
sickness benefit.
Feasibility An unpublished pilot study, performed by this research group, of 86 primary
arthroplasty procedures showed a 10.5 % frequency of intraoperative contamination. Two of
nine intra-operatively contaminated patients developed infection post-operatively, whereas
only one of the 77 non-contaminated patients developed post-operative infection. A randomized
sub-study showed that the use of an iodine impregnated incisional drape resulted in no
intra-operative contamination in 19 patients compared to 3 cases of contamination in 11
patients operated without the use of an incisional drape.
400 patients are already included in this study and have been operated and have had samples
taken. Preliminary results show a contamination rate of 5 %.
Samples will be collected at Orthopedic Departments at Herlev og Gentofte Hospital,
Frederiksberg Hospital, Nordsjællands Hospital Hillerød and Aarhus Universitetshospital.
The samples will undergo plating and susceptibility testing at the Clinical Microbiological
Departments of Herlev og Gentofte Hospital and Aarhus Universitetshospital.
All orthopedic departments involved are highly dedicated to this project.
Sample size calculations There are large variations in the reported frequencies of
intraoperative contamination, presumably because of differences in sterile techniques and
sample methods. According to the investigators' calculations a sample size of 1200 operations
are needed. To demonstrate the effect of incisional drape on intraoperative contamination the
investigators' have chosen to make the two groups of equal size with 600 operations in each
group.
Materials and methods
The study is centered on an infection paradigm where intraoperative contamination plays a
pivotal role, and the study has two main arms:
1. Intraoperative contamination (source, patient/surgeon, incisional drape).
2. Postoperative infection (correspondence with intraoperative contamination, microbiology,
radiology, serology, patient-reported outcomes).
These arms together form a comprehensive study of the effects of intraoperative
contamination. The study will attempt to answer all questions that arise secondary to the
paradigm above, and this will be done in stages. The first stage will aim to document that
patients with intraoperative contamination do indeed have a larger risk of developing
post-operative infection. The first stage will also include a study of the effect of iodine
impregnated incisional drape. The second stage will include highly sensitive methods of PCR
and fluorescence microscopy, to demonstrate bacterial contamination and/or infection of any
implants removed during the study period.
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