Dural Puncture Complications.

Dural puncture, commonly referred to as lumbar puncture (LP), carries the risk of rare but serious complications including post-dural puncture headache, hemorrhage, herniation, and infection. These complications can lead to suboptimal patient outcomes including significant morbidity and mortality in some instances. This review comprehensively examines potential LP complications, including their incidence, pathophysiology, risk factors, clinical presentations, imaging findings, preventative measures, and treatment strategies.

Root of the Neck and Extracranial Vessel Anatomy.

The root of the neck is the junctional anatomic structure between the thoracic inlet, the axilla, and the lower neck. The detailed radiological anatomy of this critical area is discussed in this review.

Anatomy of Intracranial Veins.

The cerebral venous system is complex and sophisticated and serves various major functions toward maintaining brain homeostasis. Cerebral veins contain about 70% of cerebral blood volume, have thin walls, are valveless, and cross seamlessly white matter, ependymal, cisternal, arachnoid, and dural boundaries to eventually drain cerebral blood either into dural sinuses or deep cerebral veins. Although numerous variations in the cerebral venous anatomic arrangement may be encountered, the overall configuration is relatively predictable and landmarks relatively well defined.

Neuro-Interventional Management of Acute Ischemic Stroke.

Restoration of cerebral blood flow is the most important step in preventing irreversible damage to hypoperfused brain cells after ischemic stroke from large-vessel occlusion. For those patients who do not respond to (or are not eligible for) intravenous thrombolysis, endovascular therapy has become standard of care. A shift is currently taking place from rigid time windows for intervention (time is brain) to physiology-driven paradigms that rely heavily on neuroimaging.