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Neurosurgical Review
Published in: Neurosurgical Review 6/2022

10-11-2022 | Glioblastoma | Research

Endoscopic resection of thalamic lesions via supracerebellar infratentorial approach: a case series and technical note

Authors: Shuang Liu, Tao Xie, Silin Wu, Chen Li, Tengfei Liu, Puyuan Zhao, Pin Chen, Xiaobiao Zhang

Published in: Neurosurgical Review | Issue 6/2022

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Abstract

The deep location of the thalamus and the complex neural circuits in the surrounding area make surgery extremely challenging. Feasibility and advisability of using a supracerebellar infratentorial approach (SCITA) for endoscopic resection of thalamic lesions remains to be further evaluated. Fifteen patients who underwent endoscopic resection of thalamic via SCITA from 2014 to 2021 were retrospectively collected. We analyzed preoperative tumor-related variables and surgical procedures in detail, as well as postoperative outcomes. Lesions mainly located in the posterior and/or medial part of the thalamus, and some of them expanded downward, or backward. The mean size of them was 30 × 24 mm. Five of the nine patients with preoperative hydrocephalus underwent cerebrospinal fluid shunts to relieve increased intracranial pressure. Among the 15 patients, 4 were glioblastoma, 3 were pilocytic astrocytoma, and the rest included 1 case of anaplastic astrocytoma, melanoma, polymorphous low-grade neuroepithelial tumor of the young, rosette-forming glioneuronal tumor, inflammatory lesion, diffuse midline glioma, and cavernous hemangioma. The majority of patients (10/15) achieved gross total resection, which has become more pronounced since paramedian SCITA was used in place of the midline approach in 2020 (6/8). Three patients had unresolved or new onset of clinical symptoms after surgery, resulting in a decreased KPS score at discharge. Neuro-endoscopic techniques can ameliorate many of the shortcomings of the SCITA. With the accumulation of experience and technological progress, more deficiencies of this approach may be improved, enabling safe and effective resection of posterior and/or medial part thalamic lesions.
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Literature
1.
2.
Sood S, Nundkumar N, Ham SD (2011) Interhemispheric endoscopic resection of large intraventricular and thalamic tumors. J Neurosurg Pediatr 7(6):596–599PubMedCrossRef
3.
4.
Cinalli G et al (2018) Surgical treatment of thalamic tumors in children. J Neurosurg Pediatr 21(3):247–257PubMedCrossRef
5.
Albright AL (2004) Feasibility and advisability of resections of thalamic tumors in pediatric patients. J Neurosurg 100(5 Suppl Pediatrics):468–72PubMed
6.
Akiyama O et al (2017) Microsurgical and endoscopic approaches to the pulvinar. J Neurosurg 127(3):630–645PubMedCrossRef
7.
Cohen-Cohen S et al (2019) Supracerebellar infratentorial and occipital transtentorial approaches to the pulvinar: ipsilateral versus contralateral corridors. Oper Neurosurg (Hagerstown) 16(3):351–359CrossRef
8.
Chen CC, Lin HL, Cho DY (2007) Endoscopic surgery for thalamic hemorrhage: a technical note. Surg Neurol 68(4):438–42 (discussion 442)PubMedCrossRef
9.
Gu Y et al (2015) Suprachiasmatic translamina terminalis corridor used in endoscopic endonasal approach for resecting third ventricular craniopharyngioma. J Neurosurg 122(5):1166–1172PubMedCrossRef
10.
Xie T et al (2015) The contralateral transfalcine transprecuneus approach to the atrium of the lateral ventricle: operative technique and surgical results. Neurosurg 11 Suppl 2:110–7 (discussion 117-8)
11.
Gu Y, Hu F, Zhang X (2016) Purely endoscopic resection of pineal region tumors using infratentorial supracerebellar approach: how I do it. Acta Neurochir (Wien) 158(11):2155–2158CrossRef
12.
Gu Y et al (2019) The purely endoscopic supracerebellar infratentorial approach for resecting pineal region tumors with preservation of cerebellomesencephalic vein: technical note and preliminary clinical outcomes. World Neurosurg 128:e334–e339PubMedCrossRef
13.
Rangel-Castilla L, Spetzler RF (2015) The 6 thalamic regions: surgical approaches to thalamic cavernous malformations, operative results, and clinical outcomes. J Neurosurg 123(3):676–685PubMedCrossRef
14.
Niu X et al (2020) Surgical treatment and survival outcome of patients with adult thalamic glioma: a single institution experience of 8 years. 147(2):377–386
15.
16.
Ishii R et al (2002) Gross total removal of gliomas in the pulvinar and correlative microsurgical anatomy. Neurol Med Chir (Tokyo) 42(12):536–45 (discussion 545-6)CrossRef
17.
Yamada K, Mase M, Matsumoto T (1998) Surgery for deeply seated arteriovenous malformation: with special reference to thalamic and striatal arteriovenous malformation. Neurol Med Chir (Tokyo) 38(Suppl):227–230CrossRef
18.
19.
Liu YT et al (2018) Probable pathogenesis, diagnosis, and management of untreated arteriovenous malformation with cyst formation: case report and literature review. 118(4):603–605
20.
Steinbok P et al (2016) Pediatric thalamic tumors in the MRI era: a Canadian perspective. Childs Nerv Syst 32(2):269–280PubMedCrossRef
21.
Mc KW, Paine KW (1958) Primary tumours of the thalamus. Brain 81(1):41–63CrossRef
22.
Choque-Velasquez J et al (2019) Extent of Resection and long-term survival of pineal region tumors in Helsinki neurosurgery. World Neurosurg 131:e379–e391PubMedCrossRef
23.
24.
Beks JW, Bouma GJ, Journée HL (1987) Tumours of the thalamic region. A retrospective study of 27 cases. Acta Neurochir (Wein) 85(3–4):125–7CrossRef
25.
Bernstein M et al (1984) Thalamic tumors in children. Long-term follow-up and treatment guidelines. J Neurosurg 61(4):649–56PubMedCrossRef
26.
Di Rocco C, Iannelli A (2002) Bilateral thalamic tumors in children. Childs Nerv Syst 18(8):440–444PubMedCrossRef
27.
Hirsch JF et al (1979) A new surgical approach to the third ventricle with interruption of the striothalamic vein. Acta Neurochir (Wien) 47(3–4):135–147CrossRef
28.
Zhang Z et al (2013) Management of hydrocephalus secondary to pineal region tumors. Clin Neurol Neurosurg 115(9):1809–1813PubMedCrossRef
29.
Hernesniemi J et al (2008) Microsurgical management of pineal region lesions: personal experience with 119 patients. Surg Neurol 70(6):576–583PubMedCrossRef
30.
Xin C et al (2021) Endoscopic-assisted surgery versus microsurgery for pineal region tumors: a single-center retrospective study. Neurosurg Rev 44(2):1017–1022PubMedCrossRef
31.
Schulz M et al (2021) Management of pineal region tumors in a pediatric case series. Neurosurg Rev 44(3):1417–1427PubMedCrossRef
32.
McGirt MJ et al (2002) Cerebrospinal fluid shunt survival and etiology of failures: a seven-year institutional experience. Pediatr Neurosurg 36(5):248–255PubMedCrossRef
33.
Reddy GK et al (2011) Obstructive hydrocephalus in adult patients: the Louisiana State University Health Sciences Center-Shreveport experience with ventriculoperitoneal shunts. World Neurosurg 76(1–2):176–182PubMedCrossRef
34.
Konovalov AN, Pitskhelauri DI (2003) Principles of treatment of the pineal region tumors. Surg Neurol 59(4):250–268PubMedCrossRef
35.
Choque-Velasquez J et al (2021) Management of obstructive hydrocephalus associated with pineal region cysts and tumors and its implication in long-term outcome. World Neurosurgery 149:e913–e923PubMedCrossRef
36.
Morota N, Ihara S, Araki T (2010) Torkildsen shunt: re-evaluation of the historical procedure. Childs Nerv Syst 26(12):1705–1710PubMedCrossRef
37.
Liu S et al (2022) Neuronavigation-guided transcortical-transventricular endoport-assisted endoscopic resection for thalamic lesions: preliminary experience. World Neurosurg 166:19–27PubMedCrossRef
38.
Baran O et al (2019) Surgical approaches to the thalamus in relation to the white matter tracts of the cerebrum. World Neurosurg 128:e1048–e1086PubMedCrossRef
39.
Kawashima M et al (2006) Surgical approaches to the atrium of the lateral ventricle: microsurgical anatomy. Surg Neurol 65(5):436–445PubMedCrossRef
40.
Cavanna AE, Trimble MR (2006) The precuneus: a review of its functional anatomy and behavioural correlates. Brain 129(Pt 3):564–583PubMedCrossRef
41.
Jun CL, Nutik SL (1985) Surgical approaches to intraventricular meningiomas of the trigone. Neurosurgery 16(3):416–420PubMedCrossRef
42.
Yonekawa Y et al (2001) Supracerebellar transtentorial approach to posterior temporomedial structures. J Neurosurg 94(2):339–345PubMedCrossRef
43.
Smrcka M, Navratil O (2021) What is the risk of venous cerebellar infarction in the supracerebellar infratentorial approach?. 44(2):897–900
44.
Lindroos A-C et al (2010) Sitting position for removal of pineal region lesions: the Helsinki experience. World Neurosurg 74(4):505–513PubMedCrossRef
45.
46.
Jadik S et al (2009) A standardized protocol for the prevention of clinically relevant venous air embolism during neurosurgical interventions in the semisitting position. Neurosurg 64(3):533–8CrossRef
47.
Luostarinen T et al (2017) Prone versus sitting position in neurosurgery-differences in patients’ hemodynamic management. World Neurosurg 97:261–266PubMedCrossRef
48.
Choque-Velasquez J et al (2018) Praying sitting position for pineal region surgery: an efficient variant of a classic position in neurosurgery. World Neurosurg 113:e604–e611PubMedCrossRef
49.
Kodera T et al (2011) Neurosurgical venous considerations for tumors of the pineal region resected using the infratentorial supracerebellar approach. J Clin Neurosci 18(11):1481–1485PubMedCrossRef
50.
Matsushima T et al (1989) Microsurgical anatomy of the tentorial sinuses. J Neurosurg 71(6):923–928PubMedCrossRef
51.
de Oliveira JG et al (2010) Supracerebellar infratentorial approach to cavernous malformations of the brainstem: surgical variants and clinical experience with 45 patients. Neurosurg 66(2):389–399CrossRef
52.
Xie T et al (2022) Endoscopic midline and paramedian supracerebellar infratentorial approach to pineal region tumors: clinical study and approach comparison. World Neurosurg 168:63–73
53.
Matsuo S et al (2016) Midline and off-midline infratentorial supracerebellar approaches to the pineal gland. J Neurosurg 126(6):1984–1994PubMedCrossRef
54.
Choque-Velasquez J et al (2020) Midline and paramedian supracerebellar infratentorial approach to the pineal region: a comparative clinical study in 112 patients. World Neurosurg 137:e194–e207PubMedCrossRef
55.
Sun Q et al (2019) Quantitative analysis of ipsilateral and contralateral supracerebellar infratentorial and occipital transtentorial approaches to the cisternal pulvinar: laboratory anatomical investigation. J Neurosurg 133(4):1–10
56.
Mascitelli J et al (2018) Contralateral supracerebellar-infratentorial approach for resection of thalamic cavernous malformations. Oper Neurosurg (Hagerstown) 15(4):404–411CrossRef
57.
Aboul-Enein H, El-Aziz-Sabry AA, Hafez Farhoud A (2015) Supracerebellar infratentorial approach with paramedian expansion for posterior third ventricular and pineal region lesions. Clin Neurol Neurosurg 139:100–9PubMedCrossRef
58.
Giammattei L et al (2021) Extreme lateral supracerebellar infratentorial approach: surgical anatomy and review of the literature. World Neurosurg 147:89–104PubMedCrossRef
59.
Zaidi HA et al (2015) Minimally Invasive endoscopic supracerebellar-infratentorial surgery of the pineal region: anatomical comparison of four variant approaches. World Neurosurg 84(2):257–266PubMedCrossRef
Metadata
Title
Endoscopic resection of thalamic lesions via supracerebellar infratentorial approach: a case series and technical note
Authors
Shuang Liu
Tao Xie
Silin Wu
Chen Li
Tengfei Liu
Puyuan Zhao
Pin Chen
Xiaobiao Zhang
Publication date
10-11-2022
Publisher
Springer Berlin Heidelberg
Published in
Neurosurgical Review / Issue 6/2022
Print ISSN: 0344-5607
Electronic ISSN: 1437-2320
DOI
https://doi.org/10.1007/s10143-022-01891-4

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