Prosthetic Joint Infection Clinical Trial
Total joint replacement is a common clinical practice for patients suffering from disabling
arthritis, since it provides significant pain relief and functional recovering.
Nevertheless, its outcome is compromised by complications such as periprosthetic joint
infection (PJI), which is reported to occur in 1 to 4% of primary total knee arthroplasties
(TKA), and approximately 1% of primary total hip replacements (THR). Despite all efforts to
restrain PJI, its prevalence may reach even higher proportions if patients undergo a
resection arthroplasty or irrigation and débridement for infected prosthesis. That said,
timely diagnosis and early isolation of the infected microorganism is utterly important, if
proper care is to be delivered.
The gold standard for the diagnosis of PJI is the isolation of a microorganism from the
intraoperative cultures, combined with the sonication from retrieved joint implants1. This
technique applies sound energy to agitate and disrupt biofilm, dislodging adherent bacterias
to the bone cement, which has been proved to be a more sensitive method than conventional
intraoperative cultures. False-negative percentages were reported to be 15% in patients who
did not receive extended antibiotic prophylaxis and 60% if extended antibiotic therapy was
administered.
Regardless of an adequate clinical, radiographic and surgical suspicion confirming PJI, an
organism is not always successfully isolated from the intraoperative cultures, which
increases false negatives results. This fact has been trying to be explained by several
authors, some of which postulate that antibiotic prophylaxis could interfere with the
isolation of the microorganism from the intraoperative cultures. As a result, and acting
accordingly to this hypothesis, preoperative antibiotics are often withheld until
intraoperative cultures are obtained, hoping that tissues are not loaded with antibiotics.
Nevertheless, one should be aware of the adverse consequences of this practice that may
result in systemic dissemination of infection.
Moreover, Ghanem and Stephen recently concluded that antibiotic prophylaxis does not
interfere with the isolation of the microorganism from intraoperative cultures, despite
being studies that lack statistical power.
Therefore, it is clear that reported studies in this field support both preoperative
antibiotic prophylaxis administration, as well its withdrawal, until intraoperative cultures
are obtained.
This decision in the department study depends exclusively on the treating surgeon judgment.
In fact, 48% of all patients admitted at the study hospital with PJI receive preoperative
antibiotic prophylaxis, which could be related to higher false-negative intraoperative
culture and sonication results. Thus, the investigators add substances with chelation
properties to hemoculture containers and then inoculate sonication samples. This practice
offsets antibiotic interference with intraoperative cultures and has proved to enhance
microorganism detection rates.
That said, and given the lack of scientific evidence about this clinical practice the
investigators are willing to engage a prospective randomized double-blind clinical trial,
that will allow us to determine whether intraoperative cultures and sonication samples are
affected by antibiotic prophylaxis.
AIM AND RATIONALE:
Hypothesis:
H0: Preoperative antibiotic prophylaxis in patients with PJI interferes with the isolation
of the microorganism from the intraoperative cultures and sonication samples, resulting in
higher false-negative results.
H1: Preoperative antibiotic prophylaxis in patients with PJI does not interfere with the
isolation of the microorganism from the intraoperative cultures and sonication samples.
Goals:
Main Goal:
- Determine preoperative antibiotic prophylaxis outcome on cultures obtained
intraoperatively.
Secondary Goals:
- Ascertain if organisms isolated from preoperative joint aspirate correspond to those
isolated from intraoperative cultures;
- Verify if the addition of substances with chelation properties to hemoculture
containers filled with sonication samples affects antibiotic prophylaxis outcome;
- Make a descriptive analysis and revision of microorganisms implicated in PJIs.
PATIENTS AND METHODS:
Prospective, Randomized, Double-blind Clinical trial (Level I of Evidence):
Group I (study group): antibiotic prophylaxis + empiric antibiotic treatment once obtained
intraoperative culture results.
Group II (control group): Empiric antibiotic treatment once obtained intraoperative culture
results.
At the present institution, the investigators routinely administer intravenous prophylactic
antibiotic, such as first-generation cephalosporins (2g cefazolin), or Glycopeptide
derivatives (1g Vancomycin) if penicillin allergies are reported. This antibiotic
administration schedule is initiated 30-60 minutes, or 60 minutes before surgery,
respectively.
Empiric antibiotic treatment (vancomycin 1g/12h + ceftazidim 2g/8h) will be administered if
aspiration cultures results are negative, or the infecting microorganism is unknown.
Contrariwise, if the infecting microorganism is isolated and its antibiogram known, targeted
antibiotic therapy will be used accordingly.
Patients were assigned to each group using a computer generated random selection scheme from
Statistic Assessment Department. Both doctors and patients have been blinded for this
information to ensure there are no differences in the way information is assessed or
managed, in order to minimize bias. The study and placebo solutions will be prepared by the
nurse on duty according to the anesthesiologist recommendations.
The surgical techniques performed vary according to the type of infection. In chronic
infections the investigators will proceed to remove the infected prosthesis and implant the
cement spacer, whereas in acute infections the adopted technique will be irrigation and
débridment with liner exchange and retention of components. Once obtained intraoperative
cultures and sonication samples, antibiotic prophylaxis regimen will be initiated with
vancomycin (1g/12h) and ceftazidim (2g/8h), both for acute and chronic infections. In case
there is a positive synovial fluid aspiration result, the investigators will perform
targeted antibiotic treatment according to antibiogram. Hence, patients assigned to the
control group will be able to receive an adequate antibiotic coverage. Additionally, there
are no guidelines or clinical recommendations about the use of antibiotic prophylaxis in
first-stage exchange, or irrigation and débridment procedures.
The protocol and surgical techniques performed, as well as the prosthetic models and cement
spacers are the same the investigators use in the Department of Orthopaedic surgery and
Traumatology of the study center, which have already been approved by a proper board review.
That said, his clinical trial will not suppose any modification to the current clinical
practice, neither to the microbiological techniques and methods applied.
Data collection:
- Preoperative data: gender, age, weight, Body Mass Index, comorbidities, type of
prosthesis, mean time to diagnosis, preoperative joint aspirate microbiologic analysis
and blood cell count.
- Intraoperative data: Whether or not antibiotic has been used and type of antibiotic
used.
- Postoperative data: Intraoperative culture results and microbiological technique
employed.
The investigators will consider false-negatives those patients who do not meet the infection
criteria referred above (see inclusion criteria) and those who present negative culture
results.
The routine surgical follow-up is scheduled 4, 6, 12 and 24 weeks after surgical
intervention, as recommended by the study hospital protocol.
STATISTICS:
Statistical analysis:
Firstly, the investigators will perform a descriptive analysis of the study population.
Whereas categorical variables will be expressed as numbers and frequencies, parameters
measured on a continuous scale will be represented by their mean and standard deviation, in
case they follow a normal distribution. Otherwise, the investigators will employ quartiles
and median values to describe them.
Secondly, a bivariate analysis comparing each parameter with the group patients were
assigned to will be executed, using the Chi Square or Fisher test to describe categorical
variables. As to qualitative parameters, a variance analysis will be done if the variables
follow a normal distribution. Otherwise, Kruskal-Wallis and Man-Whitney test will be used.
Finally, the investigators will employ a relative risk method to evaluate negativization
risk.
The investigators will consider statistically significant p values under 0.05 and use SPSS
18.0 (SPSS inc, Chicago- Illinois) software and Prism (6.01 version, Graphpad, La Jolla, CA)
for graphical analyses.
Sample Size:
The investigators undertook a Chi Square difference test to determine the sample size,
assuming a 15% false negative rate in the control group, a 60% false negative rate in the
study group and a 10% rate of lost to follow-up. The test revealed that 14 patients were
needed in each group to detect statistically significant differences, establishing an α
error of 0.05 and a statistical power of 80%.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Crossover Assignment, Masking: Open Label, Primary Purpose: Prevention
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