Anemia Clinical Trial
Official title:
A Feasibility Randomized Trial Comparing Restrictive and Liberal Blood Transfusion Strategies in Patients Requiring Four or More Days in Intensive Care
The most effective transfusion practice in critically ill ICU patients is unknown. Currently
the data is unclear as to whether a liberal or restrictive transfusion policy is of most
benefit to patients in the short and longer term. The aim of this study is to test the
hypothesis that liberal use of RBCs (Hb transfusion trigger ≤90g/L; target Hb range 91-110
g/L) to correct anaemia improves clinical outcomes compared with a restrictive transfusion
trigger (Hb transfusion trigger ≤70 g/L; target Hb range 71-90 g/L) in anaemic critically
ill patients requiring prolonged ICU stay (≥4 days).
Patients will be randomised to one of two transfusion strategies on a 1:1 basis
Group 1 "Restrictive RBC Transfusion group":
Patients will receive single unit RBC transfusions with a transfusion trigger of ≤70 g/L
with a target Hb concentration of 71-90 g/L during the intervention period.
Group 2 "Liberal RBC transfusion group":
Patients will receive single unit RBC transfusions with a transfusion trigger of ≤90 g/L
with a target of 91-110 g/L during intervention. These patients will all receive a
transfusion on the day of randomisation.
Duration of Intervention:
Remainder of ICU stay or 14 days from randomisation, whichever is longer
Follow-Up
Quality of Life, mobility and health service usage questionnaires at 60 and 180 days.
This is a feasibility study that will provide essential data to ensure the success of the
full trial. A qualitative study will also be carried out to explore potential reasons for
non-recruitment and clinician concerns with the existing protocol. An exploratory biomarker
sub-study will test whether a pro-inflammatory signal occurs in the liberally transfused
group associated with transfusions.
Anaemia is a common complication of critical illness and 40−50% of all patients in intensive
care units (ICUs) receive blood transfusions. However, despite the perceived benefits of
correcting anaemia, numerous non−randomised cohort studies and a system review suggest
associations between blood transfusions and adverse patient outcomes. The only large
randomised controlled trial comparing restrictive with liberal transfusion policies in
critically ill patients (the "TRICC study") suggested a trend to greater morality at 30 days
in the liberal transfusion group. However the TRICC study does not inform clinical practice
with regard to how to manage long stay ICU patients. Also, and importantly, the blood
product used in the TRICC study contained white blood cells (non−leucodepleted), which are
associated with adverse events, whereas blood in the UK now has the white blood cells
removed prior to blood storage (leucodepleted). Due to continuing uncertainty many
clinicians continue to use higher Hb transfusion triggers in longer−term ICU patients and we
confirmed this recently in a survey of 184 ICU clinicians.
This uncertainty is important for patients, clinicians and the blood services. For example,
patients who require longer stays in ICU have long recovery times, use significant hospital
resource, and suffer symptoms such as fatigue, breathlessness and reduced Health Related
Quality of Life (HRQoL) for many months. It is possible that blood transfusions could
alleviate some of these problems. In addition, donated blood is in short supply and is
increasingly expensive to produce. As 40% of ICU patients receive transfusions, and use 8%
of the Scottish blood stocks, a stronger evidence base could optimise the use of this
precious resource.
A Cochrane systematic review (co-authored by one of the applicants, BMcL) noted that current
evidence was dominated by the TRICC trial, and concluded that the "....effects of
conservative transfusion triggers on functional status, morbidity and mortality,
particularly in patients with cardiac disease, need to be tested in further large clinical
trials"4. Further studies are clearly required to determine the most effective transfusion
practice in critically ill ICU patients.
We have completed an extensive programme of work to inform this study. Based on this data we
have identified a patient population in whom an RCT will address many areas of clinical
uncertainty. We will study longer-term ICU patients (higher illness severity; higher
morbidity; worse long-term functional status; low long-term HRQoL; greater illness costs)
who are aged ≥55 (high incidence of IHD; less certainty regarding safety with restrictive
approach in TRICC trial). The treatment exposure will last longer than the TRICC trial,
potentially including post-ICU care, because anaemia recovers slowly.
This study is a feasibility study comparing the effectiveness of a "restrictive" blood
transfusion policy in long−stay ICU patients with a more "liberal" transfusion policy to
inform the definitive RCT design. It has been designed to answer the following questions
- What proportion of eligible patients can be recruited to the study?
- What difference in mean Hb concentration and RBCs exposure will occur with our
protocol?
- How good is compliance with our proposed study protocol?
- What factors (if any) limit recruitment and result in protocol violations?
- How should the current protocol be modified for a larger definitive trial?
- Are there any strong pro-inflammatory signals or other patient safety concerns
associated with liberal RBCs use?
- How should the health economic evaluation be undertaken in the full trial?
This feasibility evaluation includes three elements:
1. A single blind randomised trial comparing patients managed with the restrictive versus
the liberal strategy (main study).
2. A comparison of circulating plasma levels of inflammatory biomarkers during the first 24
hours of randomisation in patients managed with the liberal and restrictive strategy.
3. An interview-based qualitative study with clinicians managing patients in the study
units.
1. Main Study.
The overall hypothesis for this programme of work is that liberal use of RBCs to
correct anaemia (HB transfusion trigger ≤90g/L; target Hb range 91-110 g/L) improves
clinical outcomes compared with a restrictive transfusion trigger (Hb transfusion
trigger ≤70g/L; target Hb range 71-90 g/L) in anaemic critically ill patients requiring
prolonged ICU stay (≥4 days).
Patients will be randomised to one of two transfusion strategies on a 1:1 basis
Group 1 "Restrictive RBC Transfusion group":
Patients will receive single unit RBC transfusions with a transfusion trigger of ≤70
g/L with a target Hb concentration of 71-90 g/L during the intervention period.
Group 2 "Liberal RBC transfusion group":
Patients will receive single unit RBC transfusions with a transfusion trigger of ≤90
g/L with a target of 91-110 g/L during intervention. These patients will all receive a
transfusion on the day of randomisation.
The intervention will last for 14 days from the time of randomisation or until
discharge from the intensive care unit, whichever is longer. The aim is for all
surviving patients to receive the randomised intervention for at least 14 days in all
cases.
Follow-up Complication rates will be ascertained by case note review during the 60 days
following randomisation (hospital stay only).
The length of their stay in ICU and in hospital will be ascertained from the patient
records
Longer Term follow up of Patients
Patients will be contacted at 60 and 180 days following randomisation. At these time
points the following will be determined or measured:
- Survival status
- Physical disability using the Rivermead Mobility Index
- HRQoL using the SF-12 questionnaire
- Health economic questionnaire to determine health care resource use (180 days
only).
2. Biomarker Study.
The aim of this part of the study is to explore whether a pro-inflammatory signal is
associated with RBC transfusion in intensive care patients. A range of pro- and
anti-inflammatory markers will be compared between the patients entering the
restrictive group, who are not expected to receive RBCs during the 24 hours following
randomisation, and the liberal group, who will all receive at least one RBC unit during
the 24 hours following randomisation.
Blood samples will be collected from patients as follows:
Restrictive Group: A blood sample will be drawn following randomisation (time zero), at
time zero plus 6 hours, and at time zero plus 24 hours.
Liberal Group: A blood sample will be drawn following randomisation and immediately
prior to RBC transfusion (time zero), at time zero plus 6 hours, and at time zero plus
24 hours
Each blood sample will be 10mL volume (total 30mL per patient). Plasma samples will be
batch analysed at the end of the study.
3. Qualitative Study.
The randomised controlled trial (RCT) is widely acknowledged as the "gold standard" in the
evaluation of clinical interventions. Recruitment, however, is often problematic, with
serious implications for the detection of important treatment differences, the
generalisability of research findings to other patient populations and cost. A recent review
demonstrated that less than a third of UK studies recruited the required sample size within
the timeframe originally specified, and approximately one third required an extended
recruitment period. The recruitment and retention of participants is particularly
problematic in critical care research, the rationale for which is currently ill-defined.
Review of the existing literature on barriers to research participation suggests that a
myriad of methodological/study-specific, organisational and clinician-specific issues exist.
The purpose of this exploratory qualitative study, undertaken as part of the RELIEVE
programme of work, is to identify and address perceived barriers to recruitment among
clinicians prior to a larger definitive trial.
The aims of this study are
- To explore clinicians' experiences of clinical uncertainty in relation to existing
guidance (as a default for clinical decision-making) and in relation to recruitment and
compliance with the study protocol.
- To explore clinicians' knowledge of and perspectives on existing evidence and
guidelines in relation to blood transfusion practice
- To explore clinicians' practice in relation to existing evidence and guidelines
- To explore clinicians' prior perspectives on research participation with particular
reference to patient groups (e.g. patients with ischaemic heart disease) or clinical
scenarios (e.g. bleeding events) which might elicit clinical uncertainty in relation to
recruitment, randomisation or protocol compliance
- To explore clinicians' subsequent experiences of trial participation with reference to
previously described concerns
- To develop potential strategies for the improved recruitment and retention of study
participants.
Methods We will conduct qualitative semi-structured interviews with clinicians in each of
the 6 participating centres. We will invite the Principal Investigator at each site to
participate and, in order to minimise selection bias, we will invite a second clinician with
a "non-vested interest" in the study to participate. Participants will be interviewed both
prior to trial commencement and following trial completion.
Phase I: Prior to study commencement, we will explore (a) clinicians' knowledge and
perspectives on existing evidence and guidelines in relation to blood transfusion practice
(b) clinicians' practice in relation to existing evidence and guidelines (c) clinicians'
perspectives on research participation per se and (d) clinicians' perspectives on the study
protocol in relation to patient groups or clinical scenarios which are likely to elicit
uncertainty in terms of recruitment, randomisation or protocol adherence.
Phase II: Following study completion, we will invite the same clinicians to describe their
experiences and perceptions of trial participation, with particular reference to patient
groups or clinical scenarios in which recruitment, randomisation or protocol adherence
elicited concern or uncertainty. Using the screening logs, Case Report and Adverse Event
Forms kept at each site by the dedicated research nurses, we will explore, where possible,
the rationale for (a) clinician refusal of eligible patients and (b) non-compliance with
study protocol or (c) withdrawal of recruited patients. We will invite clinicians to
identify potential strategies for addressing these issues.
Analysis
The transcribed interviews will be examined and coded for relevant issues using Computer
Assisted Qualitative Data Analysis Software (CAQDAS), namely NVIVO8®. Using thematic
analysis, we will therefore identify and delineate key issues of concern, as expressed by
clinicians, in relation to (a) the recruitment and retention of participants in critical
care research (b) the recruitment and retention of eligible patients with reference to the
RELIEVE study protocol.
Outcomes
The identification of "generic", protocol-specific and organisational barriers to
recruitment will facilitate the identification of clinically and locally relevant strategies
to address these issues prior to the larger definitive study. Using both the existing
literature and the unique insights provided by this study, we will also develop and refine a
screening tool of research barriers which will (a) be used to audit recruitment in the
larger definitive study and (b) form the basis of a tool relevant for critical care research
per se.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Single Blind (Subject), Primary Purpose: Treatment
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