====== Ruptured Posterior inferior cerebellar artery aneurysm ====== {{rss>https://pubmed.ncbi.nlm.nih.gov/rss/search/1zepmoDGp3XYKZBkVZPjuFxErS3lVRmAJyqARNeD7nXfRY3Qua/?limit=15&utm_campaign=pubmed-2&fc=20250620044835}} ===== 📚 Definition ===== A **ruptured posterior inferior cerebellar artery (PICA) aneurysm** is a pathological dilatation of the PICA wall that has burst, resulting in bleeding into the subarachnoid space—typically within the posterior fossa. It most often presents as **posterior fossa subarachnoid hemorrhage (SAH)** and can be life-threatening due to the confined space near the brainstem, risk of hydrocephalus, and critical neurovascular structures. These aneurysms are rare, accounting for **less than 1%–2%** of all intracranial aneurysms, but pose significant **surgical and endovascular challenges** due to their deep location and proximity to vital structures. ---- ====== 🧠 Classification ====== A ruptured PICA aneurysm can be classified according to anatomical, clinical, morphological, and therapeutic criteria. Below is a structured breakdown. ===== 🧠 1. Anatomical Classification (by PICA Segment) ===== ^ Segment ^ Name ^ Description ^ | P1 | Anterior medullary | From origin to inferior olive | | P2 | Lateral medullary | Around lateral medulla | | P3 | Tonsillomedullary | Near the cerebellar tonsil | | P4 | Telovelotonsillar | Near the tela choroidea and 4th ventricle | | P5 | Cortical | Distal cortical branches to vermis and hemisphere | * Most common aneurysm sites: **P1 and P2**, especially at the **vertebral-PICA junction**. ===== 💥 2. Clinical Classification (Based on Rupture) ===== * Presents with **posterior fossa SAH** (subarachnoid hemorrhage), especially in the **cisterna magna** or **fourth ventricle**. * Grading systems: * **Fisher Grade** (blood load on CT) * **Hunt and Hess Grade** (clinical severity) * **WFNS Grade** (GCS + focal deficit) ===== 🧪 3. Etiological Classification ===== * **Saccular (true) aneurysm** * **Dissecting aneurysm** ← common in vertebrobasilar system * **Fusiform aneurysm** * **Mycotic aneurysm** (infective) * **Pseudoaneurysm** (trauma/iatrogenic) ===== 🔬 4. Morphological Classification ===== * **Shape**: saccular, fusiform, dissecting * **Size**: * Small: < 7 mm * Medium: 7–12 mm * Large: 13–24 mm * Giant: ≥ 25 mm * **Neck width**: * Narrow-neck: < 4 mm * Wide-neck: ≥ 4 mm or dome-to-neck ratio < 2 ===== 🩻 5. Radiological Appearance ===== * Identified by **CTA, MRA or DSA** * Blood in **posterior fossa**, **fourth ventricle**, **cerebellomedullary cistern** * Possible complications: * Obstructive hydrocephalus * Brainstem compression ===== 🧮 6. Surgical Accessibility (Yasargil-style) ===== * **Surgically accessible**: vertebral-PICA junction * **Surgically challenging**: distal PICA (P3–P5), near brainstem or 4th ventricle ===== 📊 7. Treatment-Based Classification ===== * **Microsurgical clipping** * **Endovascular approaches**: * Coiling * Stent-assisted coiling * Flow diverters (select cases) * **Parent artery occlusion** * **Bypass with trapping** (dissecting/fusiform) * Decision-making depends on: * Aneurysm morphology * Segmental location * Clinical status * Institutional expertise ---- Ruptured PICA aneurysms require individualized management based on aneurysm location, morphology, and patient factors. === Endovascular Treatment === Preferred for proximal PICA aneurysms (VA-PICA junction, anterior/lateral medullary segments) Coiling techniques: Selective coiling: For saccular aneurysms with narrow necks and preserved PICA origin Balloon-assisted coiling: For wide-necked aneurysms Stent-assisted coiling: For complex cases requiring parent artery preservation Parent vessel occlusion (PVO): Used for dissecting/fusiform aneurysms Safe if collateral flow is confirmed ^ Endovascular Outcomes ^ | Proximal aneurysms | 85–90% technical success, ≤5% procedural complications | | Distal aneurysms | Higher recurrence (up to 25%), risk of cerebellar infarction | === Surgical Treatment === Preferred for distal PICA aneurysms (tonsillomedullary to cortical segments) Approaches: Far-lateral/suboccipital craniotomy: For proximal aneurysms Telovelar/retromastoid: For distal/cortical branches Techniques: Clipping: For saccular aneurysms with clear necks Trapping with bypass: For fusiform/dissecting aneurysms ^ Surgical Outcomes ^ | Distal aneurysms | 83% favorable outcomes (mRS 0–2) | | Proximal aneurysms| Higher cranial nerve palsy risk (up to 20%) | === Key Decision Factors === ^ Factor ^ Endovascular ^ Surgery ^ | Aneurysm location | Proximal PICA | Distal PICA | | Morphology | Saccular, narrow neck | Complex, wide neck | | PICA origin | Adjacent to aneurysm neck | Incorporated into dome | | Clinical status | Poor-grade SAH | Mass effect symptoms | === Complications === Brainstem ischemia: Risk from occlusion of medullary perforators (proximal PICA) Cerebellar infarction: More common in distal PVO without collateral supply Rebleeding: Higher risk in partially coiled aneurysms (8–12%) Summary: Proximal ruptured PICA aneurysms are usually managed with endovascular coiling or PVO, while distal lesions are better suited for surgical clipping. Multidisciplinary evaluation is essential for optimal outcomes.