Cardiovascular Diseases Clinical Trial
Official title:
Algorithmic Protamine Dosing for Reversal of Heparin After Cardiopulmonary Bypass (PRODOSE)
The PRODOSE trial is investigating a bespoke pharmacokinetic algorithm that calculates a
tailored dose of protamine, required after cardiopulmonary bypass to reverse the action of
heparin, based on individual patients and their actual bypass time.
The PRODOSE trial aims to demonstrate that the algorithm can be used to define a protamine
dose that will more reliably return coagulation parameters to pre-heparin levels as well as
decreasing the risk of post-operative bleeding and transfusion.
The trial aims to recruit 200 patients who will be randomised to either a bespoke or standard
dose of protamine. The randomisation ratio will be 1:1 in the first instance but the trial
uses an adaptive design and an interim analysis will be conducted after 100 patients have
been randomised. The randomisation ratio could then be updated after the interim analysis to
favour a superior arm whilst preserving statistical power levels.
Open-heart surgery is routinely conducted using a heart-lung machine. In order to conduct
operations involving heart-lung machines a patient's coagulation system needs to be reliably
suppressed to avoid clot formation. Clot in the extracorporeal circuit generally has fatal
consequences.
In the vast majority of cases (>99%) the desired suppression of the blood clotting system is
achieved by administering heparin. Although relatively short acting, with a half-life of
about 150min for a full adult dose, heparin needs to be reversed after weaning from the
heart-lung machine in order to avoid catastrophic bleeding post-operatively.
Heparin reversal is achieved by using protamine. This drug is derived from salmon sperm and
is generally safe to use. However, in a reasonable number of cases it can have severe side
effects, ranging from dangerous hypotension to high blood pressure in the lung circulation
with adequately oxygenate the patient. Severe anaphylactic reactions have also been
described. There is also increasing evidence that inadequately high doses of protamine may
lead to an increased bleeding tendency.
There is controversy about the right dosing of protamine. Traditionally a pragmatic and
empirical '1:1' formula is used reversing 100 Units of heparin with 1mg of protamine. This
dosing regime does not take the decay of heparin during the time spent on the heart-lung
machine into account and potentially exposes patients to unnecessarily high doses of
protamine.
The research team was previously able to demonstrate in a pilot project that using a
pharmacokinetic algorithm, which takes heparin decay into account, can reduce the protamine
dose given to patients without increased bleeding or transfusion requirements.
The team have continued to develop this algorithm into a 2 compartmental model and are
seeking to test the hypothesis that using the new formula can reduce patients' risk of the
unwanted side-effects of protamine by reducing its dose.
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