Renal Replacement Therapy Clinical Trial
Official title:
Multicentre Randomised Trial of Intermittent Versus Continuous Renal Replacement Therapy for Acute Renal Failure
This multicentre SHARF4 (Stuivenberg Hospital Acute Renal Failure) study aims to investigate
outcome in patients with acute renal failure (ARF), stratified according to severity of
disease (SHARF score) and randomised to different treatment options.
All adult patients with a serum creatinine >2 mg/dl were included. Patients were stratified
according to disease severity and those in need for RRT were randomised to intermittent
(IRRT) or continuous renal replacement therapy (CRRT)
Subjects. Hospitals qualified for participation if they had at least 600 beds, a centre for
the treatment of End Stage Kidney Disease (ESKD) patients, a multipurpose ICU with at least
12 beds, at least 30 patients with ARF treated by RRT during the last year and regular use
of both intermittent and continuous techniques. A centre questionnaire was sent to candidate
centres in order to check qualifying criteria.
Qualified Belgian ICU units included all adult (age ³ 18 years old) patients with a serum
creatinine >2 mg/dl that were consecutively admitted. All patients with known pre-existing
chronic renal disease, defined as a serum creatinine above 1.5 mg or with clearly reduced
kidney size on ultrasound were excluded.
Severity was defined by calculating the SHARF score in all subjects that fulfilled the
inclusion criteria. Patients were stratified in 3 classes (SHARF<30, 30-60, >60). Within
each stratum, those in need for renal replacement therapy were randomised to daily IRRT
(intermittent haemodialysis during 4-6 hours daily) or CRRT (continuous veno-venous
hemofiltration), if none of the predefined contraindications for randomisation were present.
Data collection. The following basic data were collected: demographic (age, sex, weight and
height), course of hospitalisation (date of admission to hospital and to ICU, date of
discharge from ICU and from hospital or date of death), date of ARF diagnosis, type of ARF
(prerenal, renal, postrenal, acute on chronic disease), cause of ARF (acute tubular
necrosis, acute glomerulonephritis, acute interstitial nephritis, systemic disease), primary
disease type (medical - toxic, medical - other, surgical, obstetric) and serum creatinine at
different time points during hospitalisation. Parameters of the SHARF score were collected
at the first day that the criteria of ARF were met. For patients referred to the ICU later
in the course of their ARF, the day of admission to the ICU was the starting day. Overall
severity was evaluated with the APACHE II score at baseline and with the SOFA score at
diagnosis of ARF and after 24 and 48 hours.
The following short-term outcome parameters were measured: hospital mortality, length of
stay at ICU and hospital and GFR at hospital discharge according to the Cockroft and Gault
formula.
Allocation of treatment. From the previous SHARF studies, we learned that about 50 % of
patients would need RRT treatment. The decision to treat conservatively or to start RRT was
at the discretion of the attending physician, taking into account the rules of good clinical
practice in this field. The choice of RRT treatment modality was randomised within each
stratum of the SHARF score. Randomisation was performed electronically per centre. In order
to avoid selection bias, all consecutive patients had to be included. If a patient could not
be randomised for some reason, the reason had to be documented in the electronic Case Report
Form (CRF).
Renal Replacement Therapy. The techniques used to perform RRT were in agreement with the
standard procedures of the participating hospitals. Therefore, all candidate centres
completed a questionnaire about their current renal replacement strategy in ARF. The
strategy chosen in the protocol was the result of this questionnaire. For IRRT a central
venous access, a synthetic membrane (polysulfone or AN 69), and a bicarbonate dialysate were
used. Daily dialysis was performed during 4-6 hours per session with a blood flow of 100-300
ml/min and a dialysate flow of 100-500 ml/min. For CRRT a central venous access and a
synthetic membrane (polysulfone or AN 69) were used. Continuous veno-venous hemofiltration
(CVVH) was the preferred method. It was continued during 24 hours per day with a blood flow
rate of 100-200 ml/min, a substitution rate of 1-2 L per hour and either lactate or
bicarbonate solutions were used. For both modalities, anticoagulation was performed
according to the centre practice with either unfractionated heparin, low molecular weight
heparin or citrate. The randomly assigned treatment modality of IRRT or CRRT had to be
continued daily during at least 3 consecutive days. Thereafter treatment could be continued
according to the needs of the patients and at the discretion of the investigator. The
motivation for any change in the randomised or planned treatment was recorded in the
electronic CRF. Data of all RRT treatments were recorded including date, type of treatment,
effective duration, ultrafiltration rate and artificial kidney.
Sample size calculation The sample calculation was based on the assumption that the overall
mortality would be 50 % as in the former SHARF studies and that a difference of 10 % in
mortality between IRRT and CRRT had to be detected to be clinically relevant. With a first
order error of 5 % and a power of 80 % a sample size of 407 patients was needed in each
renal replacement group. Since about 50 % of included patients would be considered for renal
replacement therapy, a total of 1628 patients had to be included.
Statistical analysis. The data analysis was performed according to the intention-to-treat
principle. Univariate analysis was performed on all parameters in order to find significant
differences between groups using Student's t-test and Chi square test. Life table analysis
was used to compare hospital survival in both treatment groups with Cox proportional hazards
regression to control for covariates. Multivariate analysis was performed using logistic
regression with mortality as dependant outcome variable. Confounding factors were selected
if they show significant difference in the comparison between both treatment options and
contribute effectively and independently to the observed outcome. For subgroup analysis,
selection was based on reported evidence that these subgroups included the most complicated
patients showing the highest co-morbidity and mortality. Statistical significance was set at
the .05 level (two-sided). All analyses were performed using SPSS, version 12.0.
Institutional Review Board The protocol has been approved initially by the Ethics Committee
of the Public Sector of Antwerp and by the Ethics Committee of each participating centre. A
written informed consent has been asked from each patient or his representative in case the
patient was unconscient or intubated.
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Observational Model: Defined Population, Time Perspective: Longitudinal
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