Stroke Clinical Trial
Official title:
Effects of Hydroxyurea on the Prevention of Primary Stroke in Children With Sickle Cell Anemia and Elevated Transcranial Doppler (TCD) Flow Velocity
The purpose of this study is to assess prospectively the efficacy of hydroxyurea therapy in the setting of cerebrovascular disease, manifest as conditional or abnormal transcranial doppler ultrasonography (TCD) flow velocities, in children with sickle cell anemia (SCA). TCD is used to measure flow velocity in intracranial arteries as a marker of increased stroke risk in children with SCA. The primary objective of this protocol is to determine whether hydroxyurea reduces elevated TCD velocity.
The purpose of this study is to assess prospectively the efficacy of hydroxyurea therapy in
the setting of cerebrovascular disease, manifest as conditional or abnormal transcranial
doppler ultrasonography (TCD) flow velocities, in children with sickle cell anemia (SCA).
TCD is used to measure flow velocity in intracranial arteries as a marker of increased
stroke risk in children with SCA. The primary objective of this protocol is to determine
whether hydroxyurea reduces elevated TCD velocity.
The STOP (Stroke Prevention in Sickle Cell Anemia) trial, a multicenter, randomized,
controlled trial for primary stroke demonstrated that monthly blood transfusions, when
compared to observation alone, significantly reduced the risk of primary stroke for children
with SCA whose TCD velocity exceeded 200 cm/sec. Despite the STOP trial's clear results,
there are unresolved issues regarding TCD and stroke risk in children with SCA. First, the
predictive value of an abnormal result is not compelling since less than a third of children
with an abnormal TCD velocity and even fewer with conditional results will ever develop a
clinical stroke. There is also discordance between TCD and MRI results. Only 40% of children
with abnormal TCD velocity will have abnormalities on brain MRI (Wang, et al. J Pediatr
Hematol/Oncol 2000;22(4):335-339, Pegelow, et al. Arch Neurol 2001;58:2017-2021). There are
also well recognized risks of chronic blood transfusions, including iron overload and
alloimmunization, and the necessary duration of transfusion protection for children with
abnormal TCD velocity is unknown. Unfortunately, there are currently no therapeutic options
besides blood transfusions for patients with SCA and an abnormal TCD velocity.
Erythrocyte transfusions and hydroxyurea have many similar beneficial effects in patients
with SCA. Transfusions may prevent primary stroke by lowering the % HbS, by increasing the
hematocrit, by improving red cell rheology, by decreasing red cell adhesion, and by lowering
TCD velocity. Hydroxyurea leads to many of the same changes, thus in this protocol, we will
examine whether hydroxyurea, like transfusions, can lower TCD velocity. In our patients with
SCA who have been screened with TCD ultrasonography, we have observed that children who were
screened while receiving hydroxyurea had lower TCD velocity measurements than those who were
not on hydroxyurea. In a small number of patients with TCD velocity measurements before and
after initiation of hydroxyurea for non-neurological reasons, the TCD velocity declined
significantly after achieving full dose hydroxyurea therapy. The changes in TCD velocity
were correlated with changes in hematocrit since hydroxyurea increases blood counts in
patients with SCA. For each % increase in hematocrit, the TCD velocity increased by 6.3
cm/sec. This was similar to an abstract from the STOP trial, in which TCD flow velocity
declined by 7.9 cm/sec for each increase in % hematocrit from transfusions.
Based on this preliminary data, we initiated this prospective, single-institution, pilot
trial to determine whether hydroxyurea therapy lowers TCD flow velocity in children with
sickle cell anemia.
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Allocation: Non-Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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