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Brain topography on adult ultrasound images: Techniques, interpretation, and image library

BACKGROUND AND PURPOSE: Many studies have explored the possibility of using cranial ultrasound for discerning intracranial pathologies like tumors, hemorrhagic stroke, or subdural hemorrhage in clinical scenarios where computer tomography may not be accessible or feasible. The visualization of intra...

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Detalles Bibliográficos
Autores principales: Kapoor, Sahil, Offnick, Austin, Allen, Beddome, Brown, Patrick A., Sachs, Jeffrey R., Gurcan, Metin Nafi, Pinton, Gianmarco, D'Agostino, Ralph, Bushnell, Cheryl, Wolfe, Stacey, Duncan, Pam, Asimos, Andrew, Sarwal, Aarti
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9804536/
https://www.ncbi.nlm.nih.gov/pubmed/35924877
http://dx.doi.org/10.1111/jon.13031
Descripción
Sumario:BACKGROUND AND PURPOSE: Many studies have explored the possibility of using cranial ultrasound for discerning intracranial pathologies like tumors, hemorrhagic stroke, or subdural hemorrhage in clinical scenarios where computer tomography may not be accessible or feasible. The visualization of intracranial anatomy on B‐mode ultrasound is challenging due to the presence of the skull that limits insonation to a few segments on the temporal bone that are thin enough to allow transcranial transmission of sound. Several artifacts are produced by hyperechoic signals inherent in brain and skull anatomy when images are created using temporal windows. METHODS: While the literature has investigated the accuracy of diagnosis of intracranial pathology with ultrasound, we lack a reference source for images acquired on cranial topography on B‐mode ultrasound to illustrate the appearance of normal and abnormal structures of the brain and skull. Two investigators underwent hands‐on training in Cranial point‐of‐care ultrasound (c‐POCUS) and acquired multiple images from each patient to obtain the most in‐depth images of brain to investigate all visible anatomical structures and pathology within 24 hours of any CT/MRI imaging done. RESULTS: Most reproducible structures visible on c‐POCUS included bony parts and parenchymal structures. Transcranial and abdominal presets were equivalent in elucidating anatomical structures. Brain pathology like parenchymal hemorrhage, cerebral edema, and hydrocephalus were also visualized. CONCLUSIONS: We present an illustrated anatomical atlas of cranial ultrasound B‐mode images acquired in various pathologies in a critical care environment and compare our findings with published literature by performing a scoping review of literature on the subject.