A new simple and free tubular device for microscopic transcortical approach to deep-seated lesions: technical note and case example
Author:
Publisher
Springer Science and Business Media LLC
Subject
Clinical Neurology,Surgery
Link
https://link.springer.com/content/pdf/10.1007/s00701-021-04927-8.pdf
Reference22 articles.
1. Assina R, Rubino S, Sarris CE, Gandhi CD, Prestigiacomo CJ (2014) The history of brain retractors throughout the development of neurological surgery. Neurosurg Focus 36(4):E8
2. Bander ED, Jones SH, Kovanlikaya I, Schwartz TH (2016) Utility of tubular retractors to minimize surgical brain injury in the removal of deep intraparenchymal lesions: a quantitative analysis of FLAIR hyperintensity and apparent diffusion coefficient maps. JNS 124(4):1053–1060
3. Cohen-Gadol AA (2013) Minitubular transcortical microsurgical approach for gross total resection of third ventricular colloid cysts: technique and assessment. World Neurosurg 79(1):207.e7-207.e10
4. Echeverry N, Mansour S, MacKinnon G, Jaraki J, Shapiro S, Snelling B (2020) Intracranial tubular retractor systems: a comparison and review of the literature of the BrainPath, Vycor, and METRx tubular retractors in the management of deep brain lesions. World Neurosurg 143:134–146
5. Greenberg IM (1981) Self-retaining retractor and handrest system for neurosurgery. Neurosurgery 8(2):205–208
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