Thrombocytopenia Clinical Trial
Official title:
Clinical Effectiveness of Standard Versus Pathogen-reduced Buffy Coat-derived Platelet Concentrates in Plasma in Hemato-oncological Patients.
The objective of this study is to determine if pooled buffy coat-derived pathogen reduced plasma-stored platelet concentrates are non-inferior compared to plasma-stored platelet concentrates in terms of WHO bleeding complications in hemato-oncological patients with thrombocytopenia.
Currently some pathogen-reduced platelet products (PR-PCs) have passed phase III studies, are
in progress or can be expected in the near future. At present some transfusion centers
throughout Europe have implemented PR-PCs, but as yet PR-PCs are not formally accepted as a
standard product that should be applied nation-wide. Because many uncertainties currently
exist on the "optimal" platelet product, it is in the interest of patients, health care
providers and the transfusion provider (Sanquin) to decide on evidence.
With all the current safety measures remaining in place, pathogen reduction provides a safety
benefit by reducing the number of transfusions of platelet concentrates contaminated with
bacteria, but which were missed by the screening method. In the Dutch situation, morbidity is
estimated to be 1:14,000 platelet concentrates [Te Boekhorst, Transfusion 2005]. In this
publication, two cases of transmission of B. cereus by a platelet transfusion are reported,
where both patients experience a life-threatening sepsis, but recover eventually. Cases of
bacterial transmission however often go unnoted, so a frequency as low as 1:130,000 has been
reported [Dumont, Transfusion 2010]. The same is true for mortality; this value ranges from
1:50,000 to 1:500,000.
A more precautionary benefit is protection against known and unknown pathogens. It is
difficult to estimate the actual risk, and consequently to estimate the benefit for the
patient. While in The Netherlands no epidemics have occurred against which no screening tests
could be developed, including Q-fever, there is a small but real risk that an epidemic can
wipe out the blood supply in a country. This has happened in La Réunion, where an epidemic of
chikungunya virus urged import of blood products from abroad, followed by rapid introduction
of a pathogen reduction technology to ensure the blood supply [Rasongles, Transfusion 2009].
An outbreak of this virus in Italy resulted in suspension of blood collections in an affected
area, which led to a low blood inventory as well as a reduced delivery of plasma to
fractionation institutes.
Appreciating the difficulties of extrapolating in vitro tests towards in vivo efficacy,
platelet products should be tested in clinical trials. Of note, radiolabeling techniques in
volunteers as required by the FDA, are not used in the Netherlands. For major product
variations in the Netherlands, investigators depend on studies in patients. Extending storage
for logistic purposes, combined with maintaining or even improving the safety of platelet
products, and maintaining clinical efficacy are the main features in the development of new
platelet products. In this study protocol, the aim is to investigate transfusion efficacy of
two different platelet products: plasma-PCs, and pathogen-reduced (PR)-plasma-PCs, combining
extended storage with or without treatment with a photochemical pathogen reduction technique.
Prior to the start of the clinical study an in vitro study of the product has been performed,
showing that the study product meets the current in vitro quality requirements for release
for transfusion. However, on site implementation validation still has to take place.
Refractoriness to platelet transfusions and bleeding complications are the main clinical
problems in intensively treated hemato-oncological patients and are essential endpoints for
transfusion studies as well. In this trial, bleeding will be scored according to the World
Health Organization (WHO) scale as a primary endpoint. Refractoriness is defined as a 1-hour
CCI <7.5 and/or a 24-hour CCI <4.5 after ABO compatible platelet transfusions on at least two
successive occasions. Known causes of non-alloimmune refractoriness are included in this
trial because for the purpose of generalization, relevant to develop a national product,
testing transfusion efficacy of new platelet products should imply all patients in need of a
preventive support with platelet transfusions. The 1- and 24-hour CCI are commonly used to
evaluate platelet transfusions and, albeit not without discussion, currently the platelet
count is the only parameter in trigger-based transfusion policy. The ratio of both the 1-hour
and 24-hour CCI mirrors both platelet recovery immediately after transfusion as the 1-hour
CCI, and platelet survival one day after transfusion as the 24-hour CCI. Other secondary
clinical endpoints of the trial will be transfusion requirement (red cells and platelets),
transfusion interval to next transfusion and adverse reactions.
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