====== Cerebellar Infarction Surgery ======

{{rss>https://pubmed.ncbi.nlm.nih.gov/rss/search/1p1HIAUta7O7C_ciXq-MrrsPx8wJwamdz1kNSECqPmbGNjhk46/?limit=15&utm_campaign=pubmed-2&fc=20240226163655}}

The choice can be made between [[ventriculostomy]] ([[external ventricular drainage]]; EVD), [[suboccipital decompressive craniectomy]] (SODC) 
((Edlow JA, Newman-Toker DE, Savitz SI. Diagnosis and initial management of cerebellar
infarction. Lancet Neurol. 2008;7(10):951-964. doi:10.1016/S1474-4422(08)70216-3)).
----
Concerning the extent of the surgical procedure, some authors argue that implantation of an extraventricular drainage (EVD) is sufficient, whilst others fear the possibility of upwards herniation across the tentorium



===== Surgical indications =====

Contrary to supratentorial hemispheric strokes, deterioration is not necessarily dependent on a specific vascular territory, but on the initial infarct volume
(()).

The surgical treatment is decided when there are threats of [[herniation]] or [[brainstem compression]].

Surgical decompression should probably be done as soon as any of the following signs develop if there is no response to medical therapy.

It is important to recognize a [[lateral medullary syndrome]] (LMS) which may often accompany a [[cerebellar infarction]]. With LMS, the signs are usually present from the onset (dysphagia, dysarthria, Horner syndrome, ipsilateral facial numbness, crossed sensory loss...), and are not accompanied by a change in sensorium. There is no place for surgical decompression in LMS since it represents primary brainstem ischemia and not compression.

Findings proceed in the approximate following sequence if there is no intervention: 

1. abducens (VI) nerve palsy

2. loss of ipsilateral gaze (compression of VI nucleus and lateral gaze center)

3. peripheral facial nerve paresis (compression of facial colliculus)

4. confusion and somnolence (may be partly due to developing hydrocephalus)

5. Babinski sign

6. hemiparesis

7. lethargy

8. small but reactive pupils

9. coma

10. posturing→flaccidity

11. ataxic respirations
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In an institution experience for patients with worsening levels of [[consciousness]] and radiologically evident ventricular enlargement, they recommend [[external ventricular drainage]], and reserve surgical resection of necrotic tissue for patients whose clinical status worsens despite [[ventriculostomy]], those for whom worsening is accompanied by signs of brainstem compression, and those with tight posterior fossae
((Raco A, Caroli E, Isidori A, Salvati M. Management of acute cerebellar
infarction: one institution's experience. Neurosurgery. 2003 Nov;53(5):1061-5;
discussion 1065-6. PubMed PMID: 14580272.
)).

===== Suboccipital Decompressive Craniectomy for cerebellar infarction =====
[[Suboccipital Decompressive Craniectomy for cerebellar infarction]].

===== External ventricular drain for cerebellar infarction =====

[[External ventricular drain for cerebellar infarction]].

===== Endoscopic third ventriculostomy =====

10 patients with a resulting hydrocephalus caused by a space-occupying cerebellar infarction were managed with ETV. Glasgow Coma Scale score on admission, cause of stroke, and computed tomographic signs, including the ischemic vascular territory involved and brain edema, were noted. Clinical outcome was evaluated using the Glasgow Outcome Scale.

Results: In all patients, there was a mean interval of 4 days from the onset of deterioration of consciousness to operation. Mean Glasgow Coma Scale score on admission was 11.2. In nine patients, ETV was the initial procedure of ventricular drainage. One patient was primarily treated with an external ventricular drainage, but the device dislocated and ETV was performed. In one patient, an external ventricular drainage became necessary 7 days after the initial ETV because of a malfunction of the stoma. One patient showed a progressive brain edema 2 days after ETV, and suboccipital decompression was performed. Eight successfully treated patients demonstrated an improvement in the level of consciousness after ETV. Mean Glasgow Outcome Scale score on discharge of all patients was 3.4.

Conclusion: Occlusive hydrocephalus caused by cerebellar infarction is infrequent. When occlusive hydrocephalus is observed, ETV can be used successfully with minimal risks, especially with avoidance of a higher rate of infectious complications caused by external drainage systems
((Baldauf J, Oertel J, Gaab MR, Schroeder HW. Endoscopic third ventriculostomy for occlusive hydrocephalus caused by cerebellar infarction. Neurosurgery. 2006 Sep;59(3):539-44; discussion 539-44. doi: 10.1227/01.NEU.0000228681.45125.E9. PMID: 16955035.)).


===== References =====