Title of article
Growth factor receptor as angiogenesis targetting therapy of electric Field-Based management for glioblastoma: From laboratory to clinical perspective
Author/Authors
Permana ، Khrisna Rangga Neurosurgery Department - Faculty of Medicine Universitas Airlangga - Dr. Soetomo General Academic Hospital , Al Fauzi ، Asra Neurosurgery Department - Faculty of Medicine Universitas Airlangga - Dr. Soetomo General Academic Hospital , Haq ، Irwan Barlian Immadoel Neurosurgery Department - Faculty of Medicine Universitas Airlangga - Dr. Soetomo General Academic Hospital , Parenrengi ، Muhammad Arifin Neurosurgery Department - Faculty of Medicine Universitas Airlangga - Dr. Soetomo General Academic Hospital , Purwati ، Purwati Stem Cell Research and Development Center - Institute of Tropical Disease , Utomo ، Budi Department of Public Health - Faculty of Medicine - Universitas Airlangga , Abdul Mujib ، Sahudi Surgery Department - Faculty of Medicine - Dr. Soetomo General Academic Hospital
From page
681
To page
690
Abstract
Angiogenesis provides nutrition and oxygen to the tumor cells and surrounding tissue, which promotes tumor development and spread, and can also be a means by which cells can escape from the primary tumor and via the bloodstream will metastasize to further locations. Glioblastoma requires the angiogenesis process to grow and invade surrounding structures. Currently, many cancer therapy modalities target angiogenesis. Growth factor receptors such as VEGF, EGFR, and GFR have potential as targets for cancer therapy, including glioblastoma. Electric field-based therapy is one of the breakthrough modalities that has been introduced and researched for cancer treatment in the last decade. The objective of this study is to discuss and review electric field-based management for glioblastoma and its effects on angiogenesis. Electric field-based therapy for glioblastoma has a downregulating effect on the angiogenesis process at the laboratory level. This makes it a promising therapy in the future.
Keywords
Glioblastoma , growth factor , Angiogenesis , electric field
Journal title
Eurasian Chemical Communications
Journal title
Eurasian Chemical Communications
Record number
2779124
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