Cranial Cavernous Malformations Natural History and Treatment. Surgical management of brain-stem cavernous malformations: report of 137 cases. Wang C.-C., Liu A., Zhang J.-T., Sun B., and Zhao Y.-L. Pocket atlas of radiographic anatomy, third edition. A Scientific Statement for Healthcare Professionals From the American Heart Association/American Stroke Associatio. Management of Brain Arteriovenous Malformations. 19 2-3: 5-9.ĭerdeyn CP, Zipfel GJ, Albuquerque FC, Cooke DL, Feldmann E, Sheehan JP, et al. Ukrainian Journal of Minimally Invasive and Endoscopic Sur- gery. Surgical treatment of subtentorial cavernomas of the brain.
Smolanka VI, Polishchuk ME, Wozniak OM, Oblivach AA, Smolanka AV, Gavrilov TS. Neurology and Neurosurgery Eastern Europe. Assignment of data of diffusion-tensor tomography and MR-tractography in neurosurgery of glioma of the motor area of the brain. Handbook of Neurosurgery 9th Edition (2020) (PDF) by Mark S. Brain and spinal cavernous malformations. Natural history of cavernous mal- formation: systematic review and meta-analysis of 25 studies.Neurology. Taslimi S, Modabbernia A, Amin-Hanjani S, Barker FG, Macdonald RL. Surgical treatment of symptomatic epilepsy in patients with brain cavernomas. Tsymbaliuk V, Tsimeyko O, Yakovenko L, Kostiuk M, Kostiuk K. Cerebral cavernous malformations: Spectrum of neuroradiological findings. 2020: 464-470.Ĭortés Velaa JJ, Concepción Aramendíab L, Ballenilla Marcob F, Gallego Leónb JI, González-Spínola San Gila J. 2 10th Edition (Ukrainian transla- tion). Functional Components of the Microcirculation. Clinically Applied Microcirculation Research. 115-162.īarker JH, Anderson GL, Menger MD. Hardcover - Lippincott Williams & Wilkins. In: Diagnostic Cerebral Angiography: 2nd (second) Edition. Pathology of the craniocervical vasculature. Cerebral cavernous malformations: review of the genetic and protein-protein interactions resulting in disease pathogenesis. According to MR tractography and morphological data, in some cases, there is brain parenchyma in the structure of CMs and AVMs, which may require additional attention in deciding on the radical resection of CVMs of EBAs.īaranoski JF, Kalani MY, Przybylowski CJ, Zabramski JM. When planning surgeries in case of CVMs, attention should be paid to the results of conductive path visualization. To our opinion, this explains the visualization of conducting paths in CVMs during MR tractography.Ĭonclusions. During optical microscopy of specimens of CVMs, we found brain tissues between pathological vessels. Patients’ MR-tractography data showed the presence of conductive paths in the tissues of CM and AVM and the reduced fractional anisotropy in the regions of interest, which indicates their involvement. The method of optical microscopy was used to study microslides stained with the classic (hematoxylin-eosin) and specialized methods (Masson’s and Hart’s methods). Four patients with CVM of EBA were selected based on the availability of MR tractography data and histologic specimens. A review of the literature concerning the surgical treatment of cavernous malformations (CM) and arteriovenous malformations (AVM) localized in eloquent brain areas (EBA). To assess the value of magnetic resonance (MR) tractography in deciding on the tactics of surgical treatment of CVM through comparison with morphological studies. The question of whether the surgical procedure is safe is paramount.Īim.
We believe, that in the planning of the surgical removal of cerebral vascular malformations (CVM) of eloquent brain areas, a question of whether they include the functionally sustainable brain tissue remains relevant.
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