Areeba Fareed, Samia Rohail, Alishba Adnan, Abdul Moiz Khan
{"title":"DCvax:肿瘤治疗胶质母细胞瘤的一个有希望的进展。","authors":"Areeba Fareed, Samia Rohail, Alishba Adnan, Abdul Moiz Khan","doi":"10.1177/20363613231179541","DOIUrl":null,"url":null,"abstract":"Dear Editor, Glioblastoma is a malignant neoplasm of the central nervous system that arises from glial cells, primarily astrocyctes and is characterized by poorly differentiated, fusiform, round or pleomorphic astrocyctic cells with marked nuclear atypical and brisk mitotic activity. Despite advances in early diagnosis and comprehensive treatments, there is nearly 100% recurrence rate and dismal patient survival. According to researchers, more than 13,000 Americans are diagnosed with Glioblastoma annually, causing significant morbidity and mortality. There has been no cure for Glioblastoma so far. Treatment options often include surgical removal of the tumor followed by concomitant radiation and adjuvant temozolomide TMZ chemotherapy which has been the standard of care for glioblastoma since decades, but exposure to high doses of ionizing radiation is a well-known exogenous risk factor for glioblastoma. The inability to cross the BBB is the major obstacle in achieving remission after surgical resection followed by chemotherapy and radiation. As a result, glioblastoma typically recurs within six to 8 months and the survival rate is generally less than 5%. Despite the development of novel, complex, multidisciplinary, and targeted therapies the outcome for patients remains almost universally lethal. Therefore, the need for effective treatment is undeniable. For this reason, it has been a priority area in cancer research. Recently, US biotech company Northwest Biotherapeutics has developed a brain cancer vaccine, called DCVax, which is designed to help patients’ immune system to target their tumors that may prolong their life by months or, in some cases, years. Thus, opening a door for the development of innovative therapy for targeting glioblastoma. The vaccine is created for each patient individually by isolating dendritic cells, from their blood which is then primed with biomarkers from a sample of the patient’s tumor. Dendritic cells present tumor antigens to the immune system, prime T cells, and mobilize antitumor responses. To evaluate the safety of the vaccine and its impact on survival time in patients with Glioblastoma, a phase 3 randomized control trial was conducted. In this trial, 348 patients newly diagnosed with Glioblastoma were tested at King’s College Hospital and other centers around the world for 8 years. Patients had surgery to remove their tumors as much as possible, followed by radiation and chemotherapy as the standard treatment for Glioblastoma. Among these patients, two out of three were treated with the vaccine, DCVax-L, with the remaining one-third receiving a placebo. The astonishing result of the trial has shown that newly diagnosed patients who received the vaccine survived for 19.3 months compared to 16.5 months for those who received a placebo. 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Despite advances in early diagnosis and comprehensive treatments, there is nearly 100% recurrence rate and dismal patient survival. According to researchers, more than 13,000 Americans are diagnosed with Glioblastoma annually, causing significant morbidity and mortality. There has been no cure for Glioblastoma so far. Treatment options often include surgical removal of the tumor followed by concomitant radiation and adjuvant temozolomide TMZ chemotherapy which has been the standard of care for glioblastoma since decades, but exposure to high doses of ionizing radiation is a well-known exogenous risk factor for glioblastoma. The inability to cross the BBB is the major obstacle in achieving remission after surgical resection followed by chemotherapy and radiation. As a result, glioblastoma typically recurs within six to 8 months and the survival rate is generally less than 5%. Despite the development of novel, complex, multidisciplinary, and targeted therapies the outcome for patients remains almost universally lethal. Therefore, the need for effective treatment is undeniable. For this reason, it has been a priority area in cancer research. Recently, US biotech company Northwest Biotherapeutics has developed a brain cancer vaccine, called DCVax, which is designed to help patients’ immune system to target their tumors that may prolong their life by months or, in some cases, years. Thus, opening a door for the development of innovative therapy for targeting glioblastoma. The vaccine is created for each patient individually by isolating dendritic cells, from their blood which is then primed with biomarkers from a sample of the patient’s tumor. Dendritic cells present tumor antigens to the immune system, prime T cells, and mobilize antitumor responses. To evaluate the safety of the vaccine and its impact on survival time in patients with Glioblastoma, a phase 3 randomized control trial was conducted. In this trial, 348 patients newly diagnosed with Glioblastoma were tested at King’s College Hospital and other centers around the world for 8 years. Patients had surgery to remove their tumors as much as possible, followed by radiation and chemotherapy as the standard treatment for Glioblastoma. Among these patients, two out of three were treated with the vaccine, DCVax-L, with the remaining one-third receiving a placebo. The astonishing result of the trial has shown that newly diagnosed patients who received the vaccine survived for 19.3 months compared to 16.5 months for those who received a placebo. 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DCvax: A promising advancement in oncology for the treatment of glioblastoma.
Dear Editor, Glioblastoma is a malignant neoplasm of the central nervous system that arises from glial cells, primarily astrocyctes and is characterized by poorly differentiated, fusiform, round or pleomorphic astrocyctic cells with marked nuclear atypical and brisk mitotic activity. Despite advances in early diagnosis and comprehensive treatments, there is nearly 100% recurrence rate and dismal patient survival. According to researchers, more than 13,000 Americans are diagnosed with Glioblastoma annually, causing significant morbidity and mortality. There has been no cure for Glioblastoma so far. Treatment options often include surgical removal of the tumor followed by concomitant radiation and adjuvant temozolomide TMZ chemotherapy which has been the standard of care for glioblastoma since decades, but exposure to high doses of ionizing radiation is a well-known exogenous risk factor for glioblastoma. The inability to cross the BBB is the major obstacle in achieving remission after surgical resection followed by chemotherapy and radiation. As a result, glioblastoma typically recurs within six to 8 months and the survival rate is generally less than 5%. Despite the development of novel, complex, multidisciplinary, and targeted therapies the outcome for patients remains almost universally lethal. Therefore, the need for effective treatment is undeniable. For this reason, it has been a priority area in cancer research. Recently, US biotech company Northwest Biotherapeutics has developed a brain cancer vaccine, called DCVax, which is designed to help patients’ immune system to target their tumors that may prolong their life by months or, in some cases, years. Thus, opening a door for the development of innovative therapy for targeting glioblastoma. The vaccine is created for each patient individually by isolating dendritic cells, from their blood which is then primed with biomarkers from a sample of the patient’s tumor. Dendritic cells present tumor antigens to the immune system, prime T cells, and mobilize antitumor responses. To evaluate the safety of the vaccine and its impact on survival time in patients with Glioblastoma, a phase 3 randomized control trial was conducted. In this trial, 348 patients newly diagnosed with Glioblastoma were tested at King’s College Hospital and other centers around the world for 8 years. Patients had surgery to remove their tumors as much as possible, followed by radiation and chemotherapy as the standard treatment for Glioblastoma. Among these patients, two out of three were treated with the vaccine, DCVax-L, with the remaining one-third receiving a placebo. The astonishing result of the trial has shown that newly diagnosed patients who received the vaccine survived for 19.3 months compared to 16.5 months for those who received a placebo. Overall 13% of all trial participants treated with DCVax lived more than 5 years after diagnosis compared with 5.7% in the comparison group