Mirza Eushaa,  Aziz Sumaiya,  Ajilogba Kaseem,  Delf Jonathan,  Dickinson Fiona,  Samanta Rajib,  Patel Ushma,  Swienton David,  Sharaf Ahmed

Final Pr. ID: Poster #: CR-044

Case:

We present the case of a 3 year old male patient who presented to ED with right sided weakness and facial drooling post fall with head injury. On examination, there was residual right sided weakness with poor eye contact and communicative difficulties.

Urgent CT Head revealed a focal, well defined hypo-attenuation in the left basal ganglia (Figure 1).

Subsequent MRI Head and Angiogram demonstrated an anomalous origin of the left middle cerebral artery (MCA) and lenticulostriate arteries on Time of Flight (TOF) angiographic images. The left internal cerebral artery (ICA) gives off the left posterior communicating artery which loops back on it giving off a very small MCA and forming a large, odd looking A1 anterior cerebral artery (ACA) (Figure 2). The left lenticulostriate arteries arise on the horizontal segment of the loop which forms the A1 ACA (Figure 2).

The left perforator territory demonstrates high T2/FLAIR signal with diffusion restriction involving the left putamen and upper aspect of the left caudate nucleus as seen on CT (Figure 3).

The patient was initiated on antiplatelet therapy with aspirin. He subsequently represented two months later with transient left sided weakness. Neurological examination was grossly normal apart from a slow gate.

Repeat MRI demonstrated reduction in the extent of the previous T2 signal abnormality within the left putamen consistent with expected evolution of previous infarct (Figure 4).

Dual antiplatelet therapy with the addition of clopidogrel was initiated. Subsequent clinical follow up found improvement in his verbal ability and eye contact.

Discussion:

There are numerous reported anatomical variants involving the MCA, such as a duplicated, accessory and fenestration, which are related to the embryological development of the MCA (1-3). Recently, twig-like MCA’s have been reported which are likely thought to be a secondary consequence to developmental stenosis of the proximal MCA (4). There are currently no case reports describing the anomalous distal ICA, ACA and MCA findings such as those in our case report. We hypothesise that the patient clinical symptoms are likely due to the anomalous origin and tortuosity of the lenticulostriate arteries resulting in hypoperfusion and ischaemia (5). Clinical improvement was demonstrated after initiating antiplatelet therapy. Moreover, interestingly despite the small calibre MCA there was no evidence of ischaemia within this territory. Read More

Authors:  Mirza Eushaa , Aziz Sumaiya , Ajilogba Kaseem , Delf Jonathan , Dickinson Fiona , Samanta Rajib , Patel Ushma , Swienton David , Sharaf Ahmed

Keywords:  Pediatric Neuroradiology, Pediatric Stroke

Rodríguez Garza Claudia,  Guillen Gutierrez Cinthia,  Elizondo Riojas Guillermo

Final Pr. ID: Poster #: EDU-064

Review the causes of cerebral hemorrhage in the pediatric patient based on clinical cases.

Stroke is a major cause of morbidity and mortality in children worldwide. The reported annual incidence ranges from 2.3 to 13 per 100,000 children per year in developed countries. In contrast to the adult, in children, diagnosis is not as straightforward, because when children present with acute neurological deficits, stroke is often not the first diagnosis considered by the medical providers.

Neuroimaging is essential for diagnosis and differentiation of stroke from stroke mimics that can present similarly.

Stroke in children can be ischemic or hemorrhagic, referring to the term hemorrhagic stroke as a intracerebral hemorrhage that is nontraumatic and whose most common etiology is secondary to a vascular malformation (Arteriovenous Malformation (AVM), Dural/Pial Arteriovenous Fistula (Dural AVF/Pial AVF), Cavernous Malformation, Vein of Galen Aneurysmal Malformation (VGAM), Developmental Venous Anomaly (DVA), Capillary telangiectasia, Sinus Pericranii, Aneurysms).

The most commonly used classification of vascular malformation is based on angioarchitectural and histomorphological characteristics. To differentiate these classic types, in a first step, shunting lesions have to be discerned from nonshunting lesions, as well as other features of the vascular contribution that will be evaluated by image.

We cannot forget the hemorrhage associated with coagulopathy, haematological disorders, brain tumors and cerebral sinovenous thrombosis (CSVT) which in the latter case can be found as venous infarction or hemorrhage; and other less common causes of hemorraghe in pediatrics as the intracranial aneurysms, in 15% of all pediatric aneurysms are secondary to an infection (micotic aneurysm).

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Authors:  Rodríguez Garza Claudia , Guillen Gutierrez Cinthia , Elizondo Riojas Guillermo

Keywords:  vascular malformations, hemorrhage, pediatric stroke