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Trial registered on ANZCTR
Registration number
ACTRN12617001614381
Ethics application status
Approved
Date submitted
23/11/2017
Date registered
8/12/2017
Date last updated
30/08/2022
Date data sharing statement initially provided
19/11/2019
Type of registration
Prospectively registered
Titles & IDs
Public title
Early peritoneal dialysis in infants after heart operation
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Scientific title
Early prophylactic peritoneal dialysis in infants post cardiac surgery: a randomised, open, two group trial
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Secondary ID [1]
293429
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None
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Universal Trial Number (UTN)
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Trial acronym
EPICS
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Linked study record
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Health condition
Health condition(s) or problem(s) studied:
Cardiac surgery for congenital heart disease
305593
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Condition category
Condition code
Cardiovascular
304815
304815
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0
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Diseases of the vasculature and circulation including the lymphatic system
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Surgery
305013
305013
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0
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Other surgery
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Intervention/exposure
Study type
Interventional
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Description of intervention(s) / exposure
Infants in the treatment group will be commenced on peritoneal dialysis as soon as possible (no later than 60 minutes) after admission to ICU following cardiac surgery. The treatment will be provided for a total of 24 hours (24 cycles in total)
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Intervention code [1]
299670
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Treatment: Other
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Intervention code [2]
299729
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Prevention
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Comparator / control treatment
Infants in the control arm will NOT receive peritoneal dialysis for the first 24 hour period following cardiac surgery. However, peritoneal dialysis may be commenced in the first 24 hours in the control group if there is: (1) serum potassium 6.5 mmol/L; (2) or severe metabolic acidosis (pH < 7.25 with a Co2 < 40); or (3) urine output <0.5 ml/kg/hr for 6 hrs or more despite frusemide infusion.
Update: The PD catheter will be left clamped during the first 24 hour period following cardiac surgery in the control arm
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Control group
Active
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Outcomes
Primary outcome [1]
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Composite outcome (one or more of death from any cause, cardiac arrest, emergency chest reopening and requirement for extracorporeal membrane oxygenation).
This outcome measure is collected by review of electronic medical records
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Assessment method [1]
304028
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Timepoint [1]
304028
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Within 90 days after randomisation
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Secondary outcome [1]
340741
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Vasoactive-inotrope score (VIS)
VIS = Dopamine (mcg/kg/min) + dobutamine (mcg/kg/min) + 100 x adrenaline (mcg/kg/min) + 10 x milrinone (mcg/kg/min) + 10,000 x vasopressin (U/kg/min) + 100 x noradrenaline (mcg/kg/min)
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Assessment method [1]
340741
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Timepoint [1]
340741
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At 24 hours post ICU admission
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Secondary outcome [2]
340742
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Cumulative percent fluid balance.
This outcome is assessed by fluid balance which is routinely collected on the bedside based on total intake and output.
Cumulative percent fluid balance = (total fluid balance since admission [Litre]) / (weight [kg]) ×100
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Assessment method [2]
340742
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Timepoint [2]
340742
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By end of day 2 of surgery (Midnight of the 2nd postoperative night)
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Secondary outcome [3]
340743
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ICU length of stay.
This outcome is assessed by review of electronic medical records
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Assessment method [3]
340743
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Timepoint [3]
340743
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Following cardiac surgery
(Maximum follow-up :1 year)
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Secondary outcome [4]
340744
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Hospital length of stay
This outcome is assessed by review of electronic medical records
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Assessment method [4]
340744
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Timepoint [4]
340744
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Following cardiac surgery
(Maximum follow-up :1 year)
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Secondary outcome [5]
340745
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Duration of mechanical ventilation
This outcome is assessed by review of electronic medical records
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Assessment method [5]
340745
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Timepoint [5]
340745
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Following cardiac surgery
(Maximum follow-up :1 year)
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Secondary outcome [6]
340746
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Serum interlukin-6
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Assessment method [6]
340746
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Timepoint [6]
340746
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At 0, 6 and 24 hours from admission to ICU following cardiac surgery
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Secondary outcome [7]
340919
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Serum interlukin-8
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Assessment method [7]
340919
0
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Timepoint [7]
340919
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At 0, 6 and 24 hours from admission to ICU following cardiac surgery
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Secondary outcome [8]
340920
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Serum interlukin-10
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Assessment method [8]
340920
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Timepoint [8]
340920
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At 0, 6 and 24 hours from admission to ICU following cardiac surgery
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Secondary outcome [9]
340921
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Serum Tumour necrosis factor - alpha
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Assessment method [9]
340921
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Timepoint [9]
340921
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At 0, 6 and 24 hours from admission to ICU following cardiac surgery
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Secondary outcome [10]
340923
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Mortality
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Assessment method [10]
340923
0
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Timepoint [10]
340923
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At 90 days from randomisation
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Secondary outcome [11]
340925
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Requirement for ECMO
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Assessment method [11]
340925
0
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Timepoint [11]
340925
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At 90 days from randomisation
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Secondary outcome [12]
340926
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Cardiac arrest
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Assessment method [12]
340926
0
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Timepoint [12]
340926
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At 90 days from randomisation
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Secondary outcome [13]
340927
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Emergency chest reopening
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Assessment method [13]
340927
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Timepoint [13]
340927
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At 90 days from randomisation
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Secondary outcome [14]
340928
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Total volume of packed red blood cell transfusion
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Assessment method [14]
340928
0
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Timepoint [14]
340928
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At 90 days from randomisation
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Secondary outcome [15]
340929
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Incidence of post-operative infection
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Assessment method [15]
340929
0
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Timepoint [15]
340929
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At 90 days from randomisation
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Secondary outcome [16]
340930
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Number of days receiving vasoactive medications
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Assessment method [16]
340930
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Timepoint [16]
340930
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At 90 days from randomisation
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Secondary outcome [17]
340931
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Rate of readmission to ICU
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Assessment method [17]
340931
0
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Timepoint [17]
340931
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At 90 days from randomisation
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Secondary outcome [18]
340932
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Renal failure requiring renal replacement therapy
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Assessment method [18]
340932
0
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Timepoint [18]
340932
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At 90 days from randomisation
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Secondary outcome [19]
340933
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Incidence of brain injury (new seizures or neuroimaging findings)
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Assessment method [19]
340933
0
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Timepoint [19]
340933
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At 90 days form randomisation
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Secondary outcome [20]
340934
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Overall hospital costs
**This will be calculated based on previously described methods (Doyle 1989:: MJA vol150 page558-568). Cost in dollars will recalculated based on the assumption that the proportion of nursing staff within hospital who were assigned to intensive care unit and cardiology ward represented the same proportion of the hospital's operating costs that were expended in the care of infants in these wards.
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Assessment method [20]
340934
0
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Timepoint [20]
340934
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12 months following randomisation
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Eligibility
Key inclusion criteria
Infants less than or equal to 180 days of age who have had cardiac surgery (in RACHS-1 categories 3 to 6) with cardiopulmonary bypass will be eligible, providing they have a peritoneal dialysis catheter in place at the time of admission to ICU and are expected to be ventilated for at least 24 hours
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Minimum age
0
Days
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Maximum age
180
Days
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Sex
Both males and females
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Can healthy volunteers participate?
No
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Key exclusion criteria
The exclusions will be: 1) if withdrawal of treatment is being considered 2) infants who have already participated in the same trial during a previous cardiac surgery 3) children already on extracorporeal membrane oxygenation (ECMO) at the time of admission from the operating theatre and 4) infants whose parents refuse consent.
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Study design
Purpose of the study
Treatment
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Allocation to intervention
Randomised controlled trial
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Procedure for enrolling a subject and allocating the treatment (allocation concealment procedures)
Allocation concealment is achieved by an independent centralised computer allocation process. Allocation is only revealed once eligibility is confirmed
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Methods used to generate the sequence in which subjects will be randomised (sequence generation)
Randomisation is computer generated, will be in blocks and stratified by RACHS-1 category (3- 4, 5-6)
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Masking / blinding
Open (masking not used)
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Who is / are masked / blinded?
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Intervention assignment
Parallel
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Other design features
The study is a randomised, open, two group trial. Eligible participants are randomised to either Early peritoneal dialysis (Treatment group) OR No early peritoneal dialysis (Control group)
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Phase
Not Applicable
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Type of endpoint/s
Safety/efficacy
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Statistical methods / analysis
Sample Size Estimation
Based on an expected composite primary outcome rate of 20% in the control group and 5% in the intervention group, we calculated we will need a total of 39 primary endpoints using an alpha error of < 0.01 and power of 90%. If the control group had a primary outcome rate of 20% throughout the trial, 156 infants will be needed in the control group and 156 in the intervention group (total 312). Data collected in the paediatric intensive care unit at the Royal Children’s hospital (2012-2015) was used to calculate primary endpoint rate in children after cardiac surgery and who had a peritoneal dialysis catheter:
Analysis plan
Analysis will be by intention-to-treat. For analysis of primary outcome, Cox regression adjusted for age at the time of randomisation and with censoring at the time of loss to follow-up will be used to calculate hazard ratio (HRs) with 95% CI. Alternatively a chi-squared test (or Fisher’s exact test) may be used for the primary outcome if loss to follow-up is minimal. Risk ratios and risk difference between the treatment groups will also be calculated (with 95% CI). Measures of the spread of the data will include 95% confidence interval, standard deviation, and interquartile range as appropriate. A per-protocol analysis will also be performed in which data from any patients in the intervention arm who did not receive peritoneal dialysis within 6 hrs of completion of CPB and data from any patients in the control arm who received peritoneal dialysis within 6 hours of completion of CPB will be excluded.
For secondary outcomes, tests for proportions (chi-squared test or Fisher’s exact test) will be used of categorical variables and unpaired test (if normality assumptions met) or rank-sum test will be s used for continuous variables. For cytokine measurements at 0, 6 and 24 hours, analysis of covariance controlling for baseline value and including study group in the model will be used will be used for analysis. The pre-specified groups for sub-group analyses are: RACHS-1 category (3-4, 5-6) and CPB duration ( 150 min vs. > 150 min). Appropriate interaction term will be used to test whether or not the sub-groups will be associated with different treatment outcome. All statistical tests will be two-sided with an alpha of 0.05, except for the primary outcome variable where a lower p value will be used to allow for appropriate alpha spending (depending on the number of planned interim analysis). Statistical analysis will be performed using Stata software (StataCorp, College Station, Texas).
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Recruitment
Recruitment status
Recruiting
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Date of first participant enrolment
Anticipated
11/12/2017
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Actual
27/09/2019
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Date of last participant enrolment
Anticipated
11/12/2023
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Actual
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Date of last data collection
Anticipated
11/12/2024
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Actual
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Sample size
Target
312
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Accrual to date
205
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Final
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Recruitment in Australia
Recruitment state(s)
VIC
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Recruitment hospital [1]
9427
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The Royal Childrens Hospital - Parkville
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Recruitment postcode(s) [1]
18137
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3052 - Parkville
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Funding & Sponsors
Funding source category [1]
298056
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Charities/Societies/Foundations
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Name [1]
298056
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Murdoch Children's Research Institute
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Address [1]
298056
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Murdoch Children's Research Institute
Royal Children's Hospital
50 Flemington Road, Parkville Victoria 3052 Australia
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Country [1]
298056
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Australia
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Primary sponsor type
Hospital
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Name
The Royal Children's Hospital Melbourne
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Address
Royal Children's Hospital
50 Flemington Road, Parkville Victoria 3052 Australia
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Country
Australia
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Secondary sponsor category [1]
297130
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None
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Name [1]
297130
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None
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Address [1]
297130
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None
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Country [1]
297130
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Ethics approval
Ethics application status
Approved
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Ethics committee name [1]
299075
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HREC, The Royal Children's Hospital Melbourne
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Ethics committee address [1]
299075
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Human Research and Ethics Committee Royal Children's Hospital 50 Flemington Road, Parkville Victoria 3052 Australia
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Ethics committee country [1]
299075
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Australia
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Date submitted for ethics approval [1]
299075
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Approval date [1]
299075
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22/11/2017
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Ethics approval number [1]
299075
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HREC reference number: HREC/17/RCHM/246
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Summary
Brief summary
Background: Children undergoing heart surgery require cardiopulmonary bypass. This is a technique which takes over the work of the heart and lungs so the surgeon can perform the operation. The use of cardiopulmonary bypass often causes a reaction in the child called systemic inflammatory response (or SIRS for short). Children who develop SIRS are much more likely to have complications in intensive care (cardiac arrest, need for time on a breathing machine, prolonged intensive care stay and even death). Doctors and nurses at the Royal Children’s Hospital are very interested in studying and preventing SIRS. Peritoneal dialysis is a therapy often used in children after heart surgery; it is also used in children and adults to provide artificial kidney function. It involves placing fluid in the abdomen and using the lining to remove fluids and substances. We have observed that the early use of this therapy soon after heart operation is associated with improved outcomes. Peritoneal dialysis might reduce the risk of SIRS. Proposed study: We plan to study the role of early peritoneal dialysis in preventing the complications of SIRS in babies less than six months of age. The study will be conducted in the Cardiac Intensive Care Unit at the Royal Children’s Hospital, Melbourne. We have calculated we will need 312 infants in the study and hope to find out if early peritoneal dialysis helps reduce complications of SIRS following cardiac surgery. Babies will either get early peritoneal dialysis or normal care. Early peritoneal dialysis will start within an hour of arriving in the intensive care unit after heart surgery and will continue for 24 hours. Normal care babies will only get peritoneal dialysis if they need it for artificial kidney function. Potential implications for child health: This study will help to answer the question: “Does early peritoneal dialysis really help babies after heart surgery ?”.It will help make decisions about treatments after heart surgery. This is important for doctors and nurses working in intensive care units around the world. Peritoneal dialysis is a low cost treatment and if early commencement of this therapy after surgery is shown to positively influence outcomes it will have important implications for children born with congenital heart disease.
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Trial website
None
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Trial related presentations / publications
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Public notes
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Contacts
Principal investigator
Name
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Dr Siva Namachivayam
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Address
79210
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Dr Siva Namachivayam
Paediatric Intensive Care Physician
The Royal Children's Hospital Melbourne
50 Flemington Road | Parkville | 3052 | VIC
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Country
79210
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Australia
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Phone
79210
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+61 3 9345 5224
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Fax
79210
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Email
79210
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[email protected]
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Contact person for public queries
Name
79211
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Siva Namachivayam
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Address
79211
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The Royal Children's Hospital Melbourne
50 Flemington Road | Parkville | 3052 | VIC
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Country
79211
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Australia
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Phone
79211
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+61 3 9345 5224
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Fax
79211
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Email
79211
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[email protected]
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Contact person for scientific queries
Name
79212
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Siva Namachivayam
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Address
79212
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The Royal Children's Hospital Melbourne
50 Flemington Road | Parkville | 3052 | VIC
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Country
79212
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Australia
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Phone
79212
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+61 3 9345 5224
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Fax
79212
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Email
79212
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[email protected]
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Data sharing statement
Will individual participant data (IPD) for this trial be available (including data dictionaries)?
No
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No/undecided IPD sharing reason/comment
Not decided yet
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What supporting documents are/will be available?
No Supporting Document Provided
Results publications and other study-related documents
Documents added manually
No documents have been uploaded by study researchers.
Documents added automatically
Source
Title
Year of Publication
DOI
Dimensions AI
Study protocol and statistical analysis plan for the Early Peritoneal Dialysis in Infants after Cardiac Surgery (EPICS) trial
2022
https://doi.org/10.51893/2022.2.oa9
N.B. These documents automatically identified may not have been verified by the study sponsor.
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