Details

Autor(en) / Beteiligte

• Lara-Velazquez, Montserrat
• Al-Kharboosh, Rawan
• Jeanneret, Stephanie
• Vazquez-Ramos, Carla
• Mahato, Deependra
• Tavanaiepour, Daryoush
• Rahmathulla, Gazanfar
• Quinones-Hinojosa, Alfredo

Titel

Advances in Brain Tumor Surgery for Glioblastoma in Adults

Ist Teil von

• Brain sciences, 2017-12, Vol.7 (12), p.166

Ort / Verlag

Switzerland: MDPI AG

Erscheinungsjahr

2017

Link zum Volltext

Quelle

EZB Free E-Journals

Beschreibungen/Notizen

• Glioblastoma (GBM) is the most common primary intracranial neoplasia, and is characterized by its extremely poor prognosis. Despite maximum surgery, chemotherapy, and radiation, the histological heterogeneity of GBM makes total eradication impossible, due to residual cancer cells invading the parenchyma, which is not otherwise seen in radiographic images. Even with gross total resection, the heterogeneity and the dormant nature of brain tumor initiating cells allow for therapeutic evasion, contributing to its recurrence and malignant progression, and severely impacting survival. Visual delimitation of the tumor's margins with common surgical techniques is a challenge faced by many surgeons. In an attempt to achieve optimal safe resection, advances in approaches allowing intraoperative analysis of cancer and non-cancer tissue have been developed and applied in humans resulting in improved outcomes. In addition, functional paradigms based on stimulation techniques to map the brain's electrical activity have optimized glioma resection in eloquent areas such as the Broca's, Wernike's and perirolandic areas. In this review, we will elaborate on the current standard therapy for newly diagnosed and recurrent glioblastoma with a focus on surgical approaches. We will describe current technologies used for glioma resection, such as awake craniotomy, fluorescence guided surgery, laser interstitial thermal therapy and intraoperative mass spectrometry. Additionally, we will describe a newly developed tool that has shown promising results in preclinical experiments for brain cancer: optical coherence tomography.