Top

Published in:

Open Access 01-03-2021 | Mutism | Technical Note - Brain Tumors

Medial-tonsillar telovelar approach for resection of a superior medullary velum cerebral cavernous malformation: anatomical and tractography study of the surgical approach and functional implications

Authors: Christian Brogna, José Pedro Lavrador, Hussein Shaaban Kandeel, Ahmad Beyh, Eduardo C. Ribas, Francesco Vergani, Christos M. Tolias

Published in: Acta Neurochirurgica | Issue 3/2021

Abstract

Background

Superior medullary velum cerebral cavernous malformations pose a challenge in terms of appropriate microsurgical approach. Safe access to this deep location as well as preservation of surrounding anatomical structures, in particular the superior cerebellar peduncle just lateral to the superior medullary velum and the dentate nuclei, is paramount to achieve a good functional outcome.

Methods

Cadaveric dissections provide useful knowledge of the normal anatomy while tractography allows a better understanding of the individual anatomy in the presence of a lesion. The medial-tonsillar telovelar approach provides a feasible corridor for accessing superior velum cerebral cavernous malformations without compromising the fibres contained in the superior cerebellar peduncle. The major cerebellar efferents—cerebello-rubral, cerebello-thalamic and cerebello-vestibular tracts—and afferents, anterior spinocerebellar, tectocerebellar and trigeminocerebellar tracts, within the superior cerebellar peduncle are preserved, and the dentate nuclei are not affected.

Results and conclusion

A retraction-free exposure through this natural posterior fossa corridor allows the patient with the anatomical and functional subtract to make a good functional recovery by minimizing the risk of a superior cerebellar syndrome, ataxia, tremor and dysmetria; decomposition of movement in the ipsilateral extremities, nystagmus and hypotonia; or akinetic mutism, reduced or absent speech with onset within the first post-operative week.

Akakin A, Peris-Celda M, Kilic T, Seker A, Gutierrez-Martin A, Rhoton A Jr (2014) The dentate nucleus and its projection system in the human cerebellum: the dentate nucleus microsurgical anatomical study. Neurosurgery 74(4):401–424CrossRef

Avants BB, Tustison NJ, Song G, Cook PA, Klein A, Gee JC (2011) A reproducible evaluation of ANTs similarity metric performance in brain image registration. Neuroimage 54:2033–2044CrossRef

Avula S, Mallucci C, Kumar R, Pizer B (2015) Posterior fossa syndrome following brain tumour resection: review of pathophysiology and a new hypothesis on its pathogenesis. Childs Nerv Syst 31(10):1859–1867CrossRef

Aydin I, Hanalioglu S, Peker HO, Turan Y, Kina H, Cikla U, Baskaya MK (2018) The tonsillouvular fissure approach: access to dorsal and lateral aspects of the fourth ventricle. World Neurosurg 114:e1107–e1119CrossRef

Carr K, Ghamasaee P, Singh A, Tarasiewicz I (2017) Posterior fossa syndrome with delayed MR evidence of unilateral superior cerebellar peduncle (SCP) damage. Childs Nerv Syst 33(3):503–507CrossRef

Cavalcanti DD, Morais BA, Figueiredo EG, Spetzler RF, Preul MC (2019) Surgical approaches for the lateral mesencephalic sulcus. J Neurosurg 12:1–6

Cohen-Gadol AA (2014) Large pontine cavernous malformations: resection via the telovelar approach and mapping of the fourth ventricular floor: 3-dimensional operative video. Neurosurgery 10(Suppl 4):655 discussion 655PubMed

Dammann P, Schaller C, Sure U (2017) Should we resect peri-lesional hemosiderin deposits when performing lesionectomy in patients with cavernoma-related epilepsy (CRE)? Neurosurg Rev 40(1):39–43CrossRef

Dammers R, Delwel EJ, Krisht AF (2009) Cavernous hemangioma of the mesencephalon: tonsillouveal transaqueductal approach. Neurosurgery 64(5 Suppl 2):296–299 discussion 299–300PubMed

10.

Ferraro A, Barrera SE.(1936) The effects of lesions of the superior cerebellar peduncle in the Macacus rhesus monkey. Bull Neur Inst. New York;5(165)

11.

Ferrier D, Turner WA (1894) Record of experiments illustrative of the symptomatology and degenerations owing lesions of the cerebellum and its peduncles and related structures in monkeys. Philos Trans R Soc Lond B 185:719–778CrossRef

12.

Fujii K, Lenkey C, Rhoton AL Jr (1980) Microsurgical anatomy of the choroidal arteries. Fourth ventricle and cerebellopontine angles. J Neurosurg 52(4):504–524CrossRef

13.

Girad PF, Bonnamour GE (1950) Syndromes of obliteration of the superior cerebellar artery and total softening of the upper third of the tegmentum of the cerebral peduncles; involvement of the superior oblique muscle. Lyon Med 183(33):100–103

14.

Glasser MF, Sotiropoulos SN, Wilson JA et al (2013) Coalson, T.S. The minimal preprocessing pipelines for the human connectome project. Neuroimage 80:105–124CrossRef

15.

Jittapiromsak P, Sabuncuoglu H, Deshmukh P, Spetzler RF, Preul MC (2010) Accessing the recesses of the fourth ventricle: comparison of tonsillar retraction and resection in the telovelar approach. Neurosurgery 66(3 Suppl Operative):30–39 discussion 39–40PubMed

16.

Keller AD, Hare WK (1934) The rubrospinal tracts in the monkey. Effects of Experimental Section. Arch NeurPsych 32(6):1253–1272CrossRef

17.

Lapresle J (1979) Rhythmic palatal myoclonus and the dentato-olivary pathway. J Neurol 220(4):223–230CrossRef

18.

Lawton MT, Quiñones-Hinojosa A, Jun P (2006) The supratonsillar approach to the inferior cerebellar peduncle: anatomy, surgical technique, and clinical application to cavernous malformations. Neurosurgery 59(4 Suppl 2):ONS244–ONS251 discussion ONS251–2PubMed

19.

Mussi AC, Rhoton AL Jr (2000) Telovelar approach to the fourth ventricle: microsurgical anatomy. J Neurosurg 92(5):812–823CrossRef

20.

Ojemann JG, Partridge SC, Poliakov AV, Niazi TN, Shaw DW, Ishak GE, Lee A, Browd SR, Geyer JR, Ellenbogen RG (2013) Diffusion tensor imaging of the superior cerebellar peduncle identifies patients with posterior fossa syndrome. Childs Nerv Syst 29(11):2071–2077CrossRef

21.

Onen MR, Moore K, Cikla U, Ucer M, Schmidt B, Field AS, Baskaya MK (2018) Hypertrophic olivary degeneration: neurosurgical perspective and literature review. World Neurosurg 112:e763–e771CrossRef

22.

Rhoton AL Jr (2000) Cerebellum and fourth ventricle. Neurosurgery 47(3, Suppl):S7–S27CrossRef

23.

Rhoton AL Jr (2000) The cerebellar arteries. Neurosurgery 47(3, Suppl):S29–S68PubMed

24.

Rhoton AL Jr (2000) The posterior fossa veins. Neurosurgery 47(3, Suppl):S69–S92CrossRef

25.

Tanriover N, Ulm AJ, Rhoton AL Jr, Yasuda A (2004) Comparison of the transvermian and telovelar approaches to the fourth ventricle. J Neurosurg 101(3):484–498CrossRef

26.

Tayebi Meybodi A, Lawton MT, Tabani H, Benet A (2017) Tonsillobiventral fissure approach to the lateral recess of the fourth ventricle. J Neurosurg 127(4):768–774CrossRef

27.

Tomasello F, Conti A, Angileri FF, Cardali S (2015) Telo-velar approach to fourth-ventricle tumours: how I do it. Acta Neurochir 157(4):607–610CrossRef

28.

Tomita T, Frassanito P (2013) Tumors of the superior medullary velum in infancy and childhood: report of 6 cases. J Neurosurg Pediatr 11(1):52–59CrossRef

29.

Trelles JO(1935) L’hypertrophie des olives bulbaires; thèse de médecine, Paris

30.

Tubbs RS, Wellons JC III, Salter G, Oakes WJ (2004) Fenestration of the superior medullary velum as treatment for a trapped fourth ventricle: a feasibility study. Clin Anat 17(2):82–87CrossRef

31.

van Baarsen K, Kleinnijenhuis M, Konert T, van Cappellen van Walsum AM, Grotenhuis A (2013) Tractography demonstrates dentate-rubro-thalamic tract disruption in an adult with cerebellar mutism. Cerebellum 12(5):617–622CrossRef

32.

Van Essen DC, Smith SM, Barch DM et al (2013) The WU-Minn Human connectome project: an overview. Neuroimage 80:62–79CrossRef

33.

Walker AE, Boterrel EH (1937) The syndrome of the cerebellar peduncle syndrome in the monkey. Brain 60(3):329–353CrossRef

Title: Medial-tonsillar telovelar approach for resection of a superior medullary velum cerebral cavernous malformation: anatomical and tractography study of the surgical approach and functional implications
Authors: Christian Brogna
José Pedro Lavrador
Hussein Shaaban Kandeel
Ahmad Beyh
Eduardo C. Ribas
Francesco Vergani
Christos M. Tolias
Publication date: 01-03-2021
Publisher: Springer Vienna
Keywords: Mutism
Pica Syndrome
Mutism
Published in: Acta Neurochirurgica / Issue 3/2021
Print ISSN: 0001-6268
Electronic ISSN: 0942-0940
DOI: https://doi.org/10.1007/s00701-020-04418-2

Keynote webinar | Spotlight on sleep in brain health

Springer Medicine

Medial-tonsillar telovelar approach for resection of a superior medullary velum cerebral cavernous malformation: anatomical and tractography study of the surgical approach and functional implications

Abstract

Background

Methods

Results and conclusion

Keynote webinar | Spotlight on sleep in brain health

Springer Medicine

Abstract

Background

Methods

Results and conclusion

Please log in to get access to this content

Other articles of this Issue 3/2021

Correction to: Revision and complication rates in adult shunt surgery: a single institution study

Timelines and rebleeds in patients admitted into neurosurgical care for aneurysmal subarachnoid haemorrhage

Letter to the Editor: Endoscopic surgical strategy of pineal cyst-associated aqueductal stenosis

Correction to: Effect of irrigation on fibrinolytic rtPA therapy in a clot model of intracerebral haemorrhage: a systematic in vitro study

Correction to: From patient-centred ethics to the ethics of a pandemic

Impact of the weekend effect on outcome after microsurgical clipping of ruptured intracranial aneurysms