“Sickle cell disease (SCD), is a hematologic disorder caus


“Sickle cell disease (SCD), is a hematologic disorder caused by an autosomic recessive inherited mutation in the hemoglobin genes (HbS), is considered the most frequent hemoglobinopathy in the world, with a peak incidence in the African population. SCD is see more reported as the first cause of stroke in childhood; children with homozygous HbS genes have a yearly first stroke risk of approximately 0.5% [1]. According to the STOP study (stroke prevention trial in sickle cell anemia) [2], the stroke risk in these patients could be predicted by

TAMM (time-averaged mean of maximum blood flow) velocities detected by transcranial Doppler sonography (TCD) in the major intracranial arteries. Patients are categorized as “normal” if TAMM is <170 cm/s, “conditional” if TAMM is between 170 and 200 cm/s, “abnormal” if TAMM is >200 cm/s. Children with “abnormal” values are at the highest risk of stroke and are advised to undergo blood transfusion, in order

to reduce that risk. However, there are many reports of SCD patients with “normal” TAMM velocities harboring silent strokes at MRI; the prevalence of these lesions is higher than in the normal population [3] and [4]. For this reason, we conducted a study to investigate whether the detection of a significant side-to-side asymmetry in patients with normal TAMM values could identify those subjects, which are more prone to develop silent strokes. We enrolled in this study thirty-one SCD patients (15 females; Selleckchem Ku0059436 mean age: 9.23 ± 3.66 years; age range: 4–14 years), previously categorized as “normal” according to the STOP protocol, which never received blood transfusions, and did not have a clinical history of TIA/stroke. A complete TCD examination was performed by an experienced neurosonographer, in a quiet atmosphere and without pharmacological sedation, using a 2 MHz pulsed-wave Doppler probe Methocarbamol (Viasys Healthcare, Model Sonara) to

explore the major intracranial arteries through the temporal bone-window: TAMM velocity was recorded bilaterally in the middle cerebral artery, anterior cerebral artery and posterior cerebral artery and stored on a database. Offline side-to-side comparison of TAMM values allowed detecting a significant asymmetry, as defined by Zanette et al. [5]. All patients also underwent brain magnetic resonance imaging (MRI) by means of a 1.5 T MR scanner (Achieva, Philips, Best, the Netherlands). The study protocol included axial fluid attenuated inversion recovery (FLAIR) sequence (repetition time 11,000 ms; echo time 140 ms; inversion time: 2800; echo train length 53; flip angle 90°; field of view 230 mm; matrix 256 × 256; slice thickness 5 mm; interslice gap 0.5 mm; number of averages 2) to disclose ischemic lesions. Lesion area was manually traced on all images by a neuroradiogist with experience in pediatric neuroradiology on a dedicated console and software (Medstation).

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