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Trial registered on ANZCTR
Registration number
ACTRN12622000533796
Ethics application status
Approved
Date submitted
21/03/2022
Date registered
5/04/2022
Date last updated
8/09/2024
Date data sharing statement initially provided
5/04/2022
Date results provided
8/09/2024
Type of registration
Prospectively registered
Titles & IDs
Public title
Route of administration of phosphate replacement in the ICU
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Scientific title
Prospective, randomized, parallel group, electronic medical record (EMR)-embedded, clinical trial to determine whether enteral phosphate replacement is non-inferior to intravenous phosphate replacement in critically ill patients with hypophosphatemia
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Secondary ID [1]
306729
0
None
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Universal Trial Number (UTN)
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Trial acronym
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Linked study record
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Health condition
Health condition(s) or problem(s) studied:
hypophosphatemia
325715
0
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critical illness
325716
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Condition category
Condition code
Metabolic and Endocrine
323058
323058
0
0
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Other metabolic disorders
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Diet and Nutrition
323059
323059
0
0
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Other diet and nutrition disorders
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Intervention/exposure
Study type
Interventional
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Description of intervention(s) / exposure
This study will compare two routes of phosphate replacement in critically ill patients with hypophosphatemia; enteral or paraenteral (intravenous). Both routes are current standard care.
Participants assigned to the 'enteral route' will receive phosphate tablets (500mg per tablet). The decision regarding single dose or regular (once, twice or three times per day) will be that of the treating physician and will be based on a variety of factors, including the severity of hypophosphatemia. The equivalent of 500mg of oral phosphate is 16.1mmol of phosphate. Additionally, there are 20.4mmol of sodium bicarbonate (350 mg) and 3.1mmol of potassium bicarbonate (315mg).
Participants assigned 'parenteral route' will receive either sodium dihydrogen phosphate or potassium dihydrogen phosphate, or both, depending on the treating physician discretion. Similarly, this is guided by factors including serum sodium and potassium concentrations. The dose of phosphate will vary from 10 to 45mmol with maximal rate of administration of 20mmol per hour and decided by the intensive care (ICU) team.
Medical records will be monitored frequently to ensure adherence to intervention arm.
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Intervention code [1]
323173
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Treatment: Drugs
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Comparator / control treatment
This study will compare two routes of phosphate replacement in critically ill patients with hypophosphatemia; enteral or paraenteral (intravenous). Both routes are current standard care.
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Control group
Active
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Outcomes
Primary outcome [1]
330825
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The primary outcome measure is serum phosphate level measured before phosphate replacement and 24 hours after replacement.
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Assessment method [1]
330825
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Timepoint [1]
330825
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Prior to phosphate replacement and 24 hours after replacement.
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Secondary outcome [1]
407734
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Serum phosphate level daily for seven days
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Assessment method [1]
407734
0
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Timepoint [1]
407734
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Daily for seven days
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Secondary outcome [2]
407735
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Healthcare cost for enteral phosphate and intravenous phosphate use per patient.
In this analysis, the endpoints that represent treatment effectiveness will be cases with severe hypophosphatemia, blood stream infections, number of days in ICU, and deaths. The type of health economic analysis will be decided based on the difference in the effectiveness between the two treatment arms. If there is robust evidence showing that an endpoint is identical between enteral and parenteral phosphate replacement, a cost-minimisation analysis will be conducted; otherwise, a cost-effectiveness analysis will be performed.
Total cost associated with each intervention will be calculated based on cost of the medication, cost of delivery of the treatment, cost of adverse events associated with the intervention, and hospital costs. In the cost-minimisation analysis, the total costs, adjusted for the difference in the patient baseline characteristics, will be compared between the two interventions. In the cost-effectiveness analysis, incremental cost per case of severe hypophosphatemia, per blood stream infection prevented, per day in ICU reduced, and per death prevented in patients receiving enteral phosphate replacement compared to parenteral phosphate replacement will be calculated.
The cost will be calculated based on the sum of all the cost from medications, delivery of the treatment, cost of adverse event associated with the treatment including but not limited to blood stream infection, fluid overload, hospital stay. All of above detail will be sourced from data-linkage to the electronic medical record (EPIC) and financial records, collected manually.
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Assessment method [2]
407735
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Timepoint [2]
407735
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Measured throughout the entire duration of the participant's stay in ICU.
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Secondary outcome [3]
407736
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Amount of waste used in delivery enteral phosphate and intravenous phosphate for 50 patients in each group.
A pragmatic methodology to provide novel information about healthcare waste will be utilised. To quantify waste, landfill, and environmental impact of phosphate replacement a nested cohort study of 100 administrations for hypophosphatemia (50 enteral and 50 intravenous) will be conducted.
The pharmaceutical waste amassed for one patient from each study arm (enteral and intravenous), including glass vials of sodium and potassium dihydrogen phosphate, syringes used to aspirate phosphate solution from vials, blunt aspiration needle and fluid bags used to dilute phosphate for infusion, and plastic box and carton packaging of enteral phosphate tablets will be weighed then multiply to the number of phosphate replacements for 50 patients in each arm and presented with weight (g, kg). The different groups of waste with weight will illustrate the environmental impact of each route of administration.
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Assessment method [3]
407736
0
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Timepoint [3]
407736
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Measured throughout the entire duration of the participant's stay in ICU.
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Secondary outcome [4]
407737
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Doses of phosphate replaced.
This information will be collected from the participant's electronic medical record where it is recorded as part of standard care.
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Assessment method [4]
407737
0
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Timepoint [4]
407737
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Measured throughout the entire duration of the participant's stay in ICU.
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Secondary outcome [5]
407738
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Volume of IV fluid administered with phosphate.
This information will be collected from the participant's electronic medical record where it is recorded as part of standard care.
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Assessment method [5]
407738
0
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Timepoint [5]
407738
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Measured throughout the entire duration of the participant's stay in ICU.
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Secondary outcome [6]
407739
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Volume of IV fluid administered per day.
This information will be collected from the participant's electronic medical record where it is recorded as part of standard care.
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Assessment method [6]
407739
0
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Timepoint [6]
407739
0
Measured throughout the entire duration of the participant's stay in ICU.
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Secondary outcome [7]
407740
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Fluid balance.
This information will be collected from the fluid balance chart of each participant's electronic medical record, where it is collected as standard care.
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Assessment method [7]
407740
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Timepoint [7]
407740
0
Measured throughout the entire duration of the participant's stay in ICU.
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Secondary outcome [8]
407741
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Blood sodium concentration
This information will be collected from the participant's electronic medical record where it is recorded as part of standard care.
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Assessment method [8]
407741
0
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Timepoint [8]
407741
0
Measured daily throughout the entire duration of the participant's stay in ICU.
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Secondary outcome [9]
407742
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Blood pressure
This information will be collected from the participant's electronic medical record where it is recorded as part of standard care.
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Assessment method [9]
407742
0
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Timepoint [9]
407742
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pre-, during, and one-hour post phosphate replacement
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Secondary outcome [10]
407743
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Number of patients who develop severe hypophosphatemia (phosphate < 0.3mmol/L)
This information will be collected from the participant's electronic medical record where it is recorded as part of standard care.
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Assessment method [10]
407743
0
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Timepoint [10]
407743
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Monitored daily throughout the entire duration of the participant's stay in ICU.
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Secondary outcome [11]
407744
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Blood stream infections
This information will be collected from the participant's electronic medical record.
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Assessment method [11]
407744
0
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Timepoint [11]
407744
0
Monitored daily throughout the entire duration of the participant's stay in ICU.
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Secondary outcome [12]
407745
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Duration of admission to ICU
This information will be collected from the participant's electronic medical record where it is collected as standard practice.
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Assessment method [12]
407745
0
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Timepoint [12]
407745
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Participant's discharge from ICU
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Secondary outcome [13]
407746
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Duration of admission to hospital
This information will be collected from the participant's electronic medical record where it is collected as standard practice.
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Assessment method [13]
407746
0
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Timepoint [13]
407746
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Participant's discharge from hospital
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Secondary outcome [14]
407747
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Mortality
This information will be collected from the participant's electronic medical record where it is collected as standard practice.
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Assessment method [14]
407747
0
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Timepoint [14]
407747
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Censored to participant's discharge from hospital
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Secondary outcome [15]
408012
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Blood pH
This information will be collected from the participant's electronic medical record where it is recorded as part of standard care.
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Assessment method [15]
408012
0
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Timepoint [15]
408012
0
Measured daily throughout the entire duration of the participant's stay in ICU.
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Secondary outcome [16]
408013
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Blood potassium concentration
This information will be collected from the participant's electronic medical record where it is recorded as part of standard care.
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Assessment method [16]
408013
0
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Timepoint [16]
408013
0
Measured daily throughout the entire duration of the participant's stay in ICU.
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Eligibility
Key inclusion criteria
All adult patients admitted to RMH ICU who require phosphate replacement with serum phosphate level <0.75mmol/l.
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Minimum age
18
Years
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Maximum age
No limit
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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
- Serum phosphate concentration <0.3mmol/L, i.e., severe hypophosphatemia
- Either enteral or parenteral replacement is not possible (i.e., no enteric feeding tube, intolerance of enteral feeding with gastric aspiration >300ml or no intravenous line)
- Treating clinician believes that either enteral or parenteral phosphate replacement is indicated for this patient
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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)
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Methods used to generate the sequence in which subjects will be randomised (sequence generation)
Simple randomisation using a computerised sequence generator
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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
electronic medical record (EMR) embedded, non-inferiority clinical trial
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Phase
Phase 4
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Type of endpoint/s
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Statistical methods / analysis
Characteristics of the participants in each treatment group will be summarized using the appropriate summary statistics. For the continuous outcomes, an analysis of covariance model will be fit for each of the time points. For binary outcomes, a logistic regression model with the treatment group included as an indicator variable will be used. The analysis will be intention to treat. There should be minimal missing data, however the extent and pattern of missing data will be exaluated.
Statistical methods will be led by Dr Emily Karahalios (Biostatistician with Methods and Implementation Support for Clinical and Health Research Hub, MISCH) with analyses conducted using Stata (StataCorp. 2019. Stata Statistical Software: Release 16. College Station, TX: StataCorp LLC).
In the health economic analysis, the endpoints that represent treatment effectiveness will be: cases with severe hypophosphatemia, blood stream infections, number of days in ICU, and deaths. The type of health economic analysis will be decided based on the difference in the effectiveness between the two treatment arms. If there is robust evidence showing that an endpoint is identical between enteral route and parenteral phosphate replacement, a cost-minimization analysis will be conducted, otherwise a cost-effectiveness analysis will be performed.
Total cost associated with each intervention will be calculated based on cost of the medication, cost of delivery of the treatment, cost of adverse events associated with the intervention, and hospital costs. In the cost-minimization analysis the total costs, adjusted for the difference in the patient baseline characteristics will be compared between the two interventions. In the cost-effectiveness analysis, incremental cost per case of severe hypophosphatemia, per blood stream infection prevented, per day in ICU reduced, and per death prevented in patients receiving enteral phosphate replacement compared to parenteral phosphate replacement will be calculated.
Probabilistic sensitivity analysis will be conducted using the bootstrap method. The health economic analysis will be overseen by Dr An Duy Tran (Health Economist at Methods and Implementation Support for Clinical and Health Research Hub, MISCH).
A pragmatic methodology to provide novel information about healthcare waste will be utilised. To quantify waste, landfill, and environmental impact of phosphate replacement a nested cohort study of 100 administrations for hypophosphatemia (50 enteral and 50 intravenous) will be conducted.
The pharmaceutical waste amassed for one patient from each study arm (enteral and intravenous), including glass vials of sodium and potassium dihydrogen phosphate, syringes used to aspirate phosphate solution from vials, blunt aspiration needle and fluid bags used to dilute phosphate for infusion, and plastic box and carton packaging of enteral phosphate tablets will be weighed then multiply to the number of phosphate replacements for 50 patients in each arm and presented with weight (g, kg). The different groups of waste with weight will illustrate the environmental impact of each route of administration.
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Recruitment
Recruitment status
Completed
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Date of first participant enrolment
Anticipated
20/04/2022
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Actual
20/04/2022
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Date of last participant enrolment
Anticipated
20/04/2023
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Actual
30/06/2022
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Date of last data collection
Anticipated
20/10/2023
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Actual
1/06/2023
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Sample size
Target
120
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Accrual to date
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Final
145
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Recruitment in Australia
Recruitment state(s)
VIC
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Recruitment hospital [1]
21997
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Royal Melbourne Hospital - City campus - Parkville
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Recruitment postcode(s) [1]
37099
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3050 - Parkville
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Funding & Sponsors
Funding source category [1]
311060
0
Hospital
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Name [1]
311060
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Royal Melbourne Hospital
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Address [1]
311060
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Royal Melbourne Hospital
300 Grattan Street Parkville, Victoria 3050
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Country [1]
311060
0
Australia
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Primary sponsor type
Hospital
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Name
Royal Melbourne Hospital
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Address
Royal Melbourne Hospital
300 Grattan Street Parkville, Victoria 3050
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Country
Australia
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Secondary sponsor category [1]
312391
0
None
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Name [1]
312391
0
N/A
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Address [1]
312391
0
N/A
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Country [1]
312391
0
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Ethics approval
Ethics application status
Approved
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Ethics committee name [1]
310605
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Royal Melbourne Hospital Human Research Ethics Committee
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Ethics committee address [1]
310605
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Office for Research The Royal Melbourne Hospital Level 2 South West 300 Grattan Street Parkville VIC 3050 Australia
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Ethics committee country [1]
310605
0
Australia
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Date submitted for ethics approval [1]
310605
0
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Approval date [1]
310605
0
15/12/2021
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Ethics approval number [1]
310605
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HREC/81779/MH-2021
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Summary
Brief summary
Phosphate is a very important electrolyte and, as such, low phosphate serum levels must be treated promptly. In the Intensive Care Unit (ICU) critically ill patients are at risk of low phosphate levels and phosphate ions are frequently administered via the enteral or parenteral (intravenous) route. There is little data on which route is best but there is a tenfold cost differential between the enteral and parental preparations. In addition, there may be more healthcare waste associated with the parenteral route. Given the potential but unproven advantages of the enteral route, this study aims compare the safety and effectiveness of phosphate replacement via the enteral and paraenteral routes.
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Trial website
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Trial related presentations / publications
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Public notes
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Contacts
Principal investigator
Name
118238
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A/Prof Adam Deane
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Address
118238
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Level 5, Building B The Royal Melbourne Hospital 300 Grattan Street, Parkville Victoria 3050
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Country
118238
0
Australia
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Phone
118238
0
+61 3 9342 9254
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Fax
118238
0
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Email
118238
0
[email protected]
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Contact person for public queries
Name
118239
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Brianna Tascone
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Address
118239
0
Level 5, Building B The Royal Melbourne Hospital 300 Grattan Street, Parkville Victoria 3050
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Country
118239
0
Australia
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Phone
118239
0
+61 3 9342 9252
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Fax
118239
0
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Email
118239
0
[email protected]
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Contact person for scientific queries
Name
118240
0
Adam Deane
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Address
118240
0
Level 5, Building B The Royal Melbourne Hospital 300 Grattan Street, Parkville Victoria 3050
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Country
118240
0
Australia
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Phone
118240
0
+61 3 9342 9254
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Fax
118240
0
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Email
118240
0
[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
At this stage no IPD will be available.
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What supporting documents are/will be available?
No Supporting Document Provided
Doc. No.
Type
Citation
Link
Email
Other Details
Attachment
15470
Study protocol
[email protected]
15471
Statistical analysis plan
[email protected]
Results publications and other study-related documents
Documents added manually
No documents have been uploaded by study researchers.
Documents added automatically
No additional documents have been identified.
Download to PDF