Spinal Vascular Shunts: A Patterned Approach

Pediatric Spinal Vascular Abnormalities: Overview, Diagnosis, and Management

Hemangioblastomas are true benign vascular neoplasms arising from pluripotent mesenchymal stem cells that give rise to vascular endothelial cells and are most commonly found in the cerebellum, spinal cord, brainstem, and retina. These tumors may be isolated sporadic lesions or may be associated with hereditary genetic factors in the case of von Hippel-Lindau (VHL) syndrome. Spinal cord haemangioblastomas constitute 1.1% to 2.4% of all central nervous system tumors105, with the majority being single tumors that present in the fourth decade of life 106. In the pediatric population, sporadic spinal cord hemangioblastomas are exceedingly rare. The prevalence of spinal cord hemangioblastomas in children is increased among those with VHL syndrome. The thoracic cord is the most common site for spinal cord hemangioblastomas, followed by the cervical cord. Although these tumors are benign, they cause disabling symptoms due to spinal cord compression, syringomyelia, or hemorrhage from the tumor itself or from aneurysms that form on tumor-feeding arteries or intra-tumoral vessels.

Intracranial subarachnoid hemorrhage as part of spinal arteriovenous metameric syndrome

Spinal Arteriovenous Metameric Syndrome is a rare and complex nonhereditary genetic vascular disorder, affecting multiple layers of tissues at the same metamere, including the spinal cord. We present a case of a 20-year-old man who presented to the emergency department with sudden headache and transient loss of consciousness. Cranial computed tomography scan revealed subarachnoid hemorrhage predominantly in the cerebellar cisterns, fourth ventricle, extending to the basal cisterns. Cerebral angiography showed no abnormalities. Cervical angiographic acquisitions demonstrated a spinal metameric arteriovenous malformation (AVM) at the C3 and C4 levels. Cervical magnetic resonance imaging also confirmed the metameric AVM, revealing both intradural intramedullary and extra-dural vascular lesions in the vertebrae and adjacent soft tissues. The patient was referred for endovascular treatment. Although quite rare, the association between cervical spinal arteriovenous shunt diseases and intracranial hemorrhage has been reported. The bleeding in this case may be attributed to venous reflux into intracranial veins.

Pediatric peri-medullary arteriovenous fistula: Pearls for diagnosis and treatment

Pediatric type IVc perimedullary arteriovenous fistulae (PAVF) comprise a rare subcategory of spinal vascular malformations in which multiple spinal arteries directly connect with draining veins resulting in high-flow arteriovenous shunting and large intradural venous varicosities. Complete disconnection of the fistula is necessary to prevent hemorrhage or spinal compression. A surgical, rather than endovascular, approach proves favorable under specific circumstances. Due to the rarity of these pediatric fistulae, no large studies exist to enumerate these circumstances. This case report fills this void by detailing several considerations which favored surgery for a type IVc PAVF in a 17-year-old female patient.

Vascular Pathologic Conditions in and around the Spinal Cord

Diagnosing and differentiating spinal vascular pathologic conditions is challenging. Small structures, lengthy imaging examinations, and overlapping imaging features increase the difficulty. Yet, subtle findings and helpful protocols can narrow the differential diagnosis. The authors aim to help radiologists make accurate and timely diagnoses of spinal vascular pathologic conditions in and around the spinal cord by highlighting spinal vascular anatomy, imaging findings, and three broad categories of abnormalities: infarcts, anomalies, and tumors. ©RSNA, 2024.

Spontaneous thrombosis of high flow pediatric arteriovenous fistulae: Case series of two patients and a comprehensive literature review

Pediatric pial arteriovenous shunts in the brain and spine are challenging to understand because of low incidence, variable presentation, and associations with genetic syndromes. What is known about their natural history comes from reviews of small series. To better understand the natural history and role for intervention, two cases are presented followed by a review of the literature. In the first case, an infant with a prior history of intracranial hemorrhage from a ruptured pial fistula returns for elective embolization for a second pial fistula which was found to be spontaneously thrombosed 2 weeks later. In the second case, a 5-year-old with a vertebro-vertebral fistula, identified on work up for a heart murmur and documented with diagnostic angiography, is brought for elective embolization 6 weeks later where spontaneous thrombosis is identified. In reviewing the literature on pediatric single-hole fistulae of the brain and spine, the authors offer some morphologic considerations for identifying which high-flow fistulae may undergo spontaneous thrombosis to decrease the potentially unnecessary risk associated with interventions in small children.

Application of Spinal Subtraction and Bone Background Fusion CTA in the Accurate Diagnosis and Evaluation of Spinal Vascular Malformations

BACKGROUND AND PURPOSE

Accurate pretreatment diagnosis and assessment of spinal vascular malformations using spinal CTA are crucial for patient prognosis, but the postprocessing reconstruction may not be able to fully depict the lesions due to the complexity inherent in spinal anatomy. Our purpose was to explore the application value of the spinal subtraction and bone background fusion CTA (SSBBF-CTA) technique in precisely depicting and localizing spinal vascular malformation lesions.

MATERIALS AND METHODS

In this retrospective study, patients (between November 2017 and November 2022) with symptoms similar to those of spinal vascular malformations were divided into diseased (group A) and nondiseased (group B) groups. All patients underwent spinal CTA using Siemens dual-source CT. Multiplanar reconstruction; routine bone subtraction, and SSBBF-CTA images were obtained using the snygo.via and ADW4.6 postprocessing reconstruction workstations. Multiple observers researched the following 3 aspects: 1) preliminary screening capability using original images with multiplanar reconstruction CTA, 2) the accuracy and stability of the SSBBF-CTA postprocessing technique, and 3) diagnostic evaluation of spinal vascular malformations using the 3 types of postprocessing images. Diagnostic performance was analyzed using receiver operating characteristic analysis, while reader or image differences were analyzed using the Wilcoxon signed-rank test or the Kruskal-Wallis rank sum test.

RESULTS

Forty-nine patients (groups A and B: 22 and 27 patients; mean ages, 44.0 [SD, 14.3] years and 44.6 [SD,15.2] years; 13 and 16 men) were evaluated. Junior physicians showed lower diagnostic accuracy and sensitivity using multiplanar reconstruction CTA (85.7% and 77.3%) than senior physicians (93.9% and 90.9%, 98% and 95.5%). Short-term trained juniors achieved SSBBF-CTA image accuracy similar to that of experienced physicians (P > .05). In terms of the visualization and localization of spinal vascular malformation lesions (nidus/fistula, feeding artery, and drainage vein), both multiplanar reconstruction and SSBBF-CTA outperformed routine bone subtraction CTA (P = .000). Compared with multiplanar reconstruction, SSBBF-CTA allowed less experienced physicians to achieve superior diagnostic capabilities (comparable with those of experienced radiologists) more rapidly (P < .05).

CONCLUSIONS

The SSBBF-CTA technique exhibited excellent reproducibility and enabled accurate pretreatment diagnosis and assessment of spinal vascular malformations with high diagnostic efficiency, particularly for junior radiologists.

Salvageable Intra-stent Coil Embolization Treatment for Spinal Dural Arteriovenous Fistula in a Child

Spinal dural arteriovenous fistulae (SDAVF) are rare diseases that exhibit abnormal connections between arteries and veins. They are even rarer in the pediatric population and pose diagnostic and treatment challenges for physicians. Its presentation varies depending on the site and size of the SDAVF. Multiple management options are available, which are usually tailored depending on the patient's condition. Here, we present a rare case of SDAF in a four-year-old girl who initially presented with bilateral lower limb weakness. The patient was then treated successfully using primary major fistula point stenting and intra-stent coiling, with complete closure achieved. Full recovery was achieved over the course of follow-ups. The deep analysis of SDAVF, its classification, and the utilization of the best available endovascular tools by a dedicated neurovascular team offer the best outcome in dealing with complex spinal neurovascular pathologies.