@article {Reyes:2015:2637-8329:282,
title = "Horner Syndrome: A Practical Approach to Critical Anatomy and Imaging",
journal = "Neurographics",
parent_itemid = "infobike://asnr/ng",
publishercode ="asnr",
year = "2015",
volume = "5",
number = "6",
publication date ="2015-11-01T00:00:00",
pages = "282-289",
itemtype = "ARTICLE",
issn = "2637-8329",
eissn = "2637-8329",
url = "https://asnr.publisher.ingentaconnect.com/content/asnr/ng/2015/00000005/00000006/art00005",
doi = "doi:10.3174/ng.6150135",
keyword = "MCG = middle cervical ganglion, FLAIR = fluid attenuation inversion recovery, CT = computed tomography, ICG = inferior cervical ganglion, MR = magnetic resonance, MRA = magnetic resonance angiography, CTA = computed tomography angiography, STIR = short tau inversion recovery, SCG = superior cervical ganglion, ECA = external carotid artery, ICA = internal carotid artery",
author = "Reyes, E.J. and Ibrahim, M. and Cornblath, W.T. and Trobe, J.D. and Mukherji, S.K. and Parmar, H.A.",
abstract = "Horner syndrome describes the triad of ptosis, miosis, and anhydrosis that results from disruption of the oculosympathetic pathway. It is often associated with specific clinical features based on the location of the culprit lesion and can range from benign to life-threatening conditions,
including carotid artery dissection and malignant neoplasms. We reviewed the anatomy of the oculosympathetic pathway, the clinical approach to Horner syndrome, and the imaging findings of lesions associated with Horner syndrome at different levels of the oculosympathetic pathway.Learning
Objective: We suggest appropriate imaging strategies for Horner syndrome based on the patient's clinical presentation and laboratory investigations.",
}