Glioblastoma Vaccines as Promising Immune-Therapeutics: Challenges and Current Status
Abstract: Glioblastoma (GBM) is the most common and aggressive malignant brain tumor. Standard treatments including surgical resection, radiotherapy, and chemotherapy, have failed to significantly improve the prognosis of glioblastoma patients. Currently, immunotherapeutic approaches based on vaccines, chimeric antigen-receptor T-cells, checkpoint inhibitors, and oncolytic virotherapy are showing promising results in clinical trials. The combination of different immunotherapeutic approaches is proving satisfactory and p… Show more
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Immunotherapeutic advances in glioma management: The rise of vaccine‐based approaches
BackgroundGliomas, particularly glioblastoma multiforme (GBM), are highly aggressive brain tumors that present significant challenges in oncology due to their rapid progression and resistance to conventional therapies. Despite advancements in treatment, the prognosis for patients with GBM remains poor, necessitating the exploration of novel therapeutic approaches. One such emerging strategy is the development of glioma vaccines, which aim to stimulate the immune system to target and destroy tumor cells.AimsThis review aims to provide a comprehensive evaluation of the current landscape of glioma vaccine development, analyzing the types of vaccines under investigation, the outcomes of clinical trials, and the challenges and opportunities associated with their implementation. The goal is to highlight the potential of glioma vaccines in advancing more effective and personalized treatments for glioma patients.Materials and MethodsThis narrative review systematically assessed the role of glioma vaccines by including full‐text articles published between 2000 and 2024 in English. Databases such as PubMed/MEDLINE, EMBASE, the Cochrane Library, and Scopus were searched using key terms like “glioma,” “brain tumor,” “glioblastoma,” “vaccine,” and “immunotherapy.” The review incorporated both pre‐clinical and clinical studies, including descriptive studies, animal‐model studies, cohort studies, and observational studies. Exclusion criteria were applied to omit abstracts, case reports, posters, and non‐peer‐reviewed studies, ensuring the inclusion of high‐quality evidence.ResultsClinical trials investigating various glioma vaccines, including peptide‐based, DNA/RNA‐based, whole‐cell, and dendritic‐cell vaccines, have shown promising results. These vaccines demonstrated potential in extending survival rates and managing adverse events in glioma patients. However, significant challenges remain, such as therapeutic resistance due to tumor heterogeneity and immune evasion mechanisms. Moreover, the lack of standardized guidelines for evaluating vaccine responses and issues related to ethical considerations, regulatory hurdles, and vaccine acceptance among patients further complicate the implementation of glioma vaccines.DiscussionAddressing the challenges associated with glioma vaccines involves exploring combination therapies, targeted approaches, and personalized medicine. Combining vaccines with traditional therapies like radiotherapy or chemotherapy may enhance efficacy by boosting the immune system’s ability to fight tumor cells. Personalized vaccines tailored to individual patient profiles present an opportunity for improved outcomes. Furthermore, global collaboration and equitable distribution are critical for ensuring access to glioma vaccines, especially in low‐ and middle‐income countries with limited healthcare resourcesConclusionGlioma vaccines represent a promising avenue in the fight against gliomas, offering hope for improving patient outcomes in a disease that is notoriously difficult to treat. Despite the challenges, continued research and the development of innovative strategies, including combination therapies and personalized approaches, are essential for overcoming current barriers and transforming the treatment landscape for glioma patients.
Immunotherapeutic advances in glioma management: The rise of vaccine‐based approaches
BackgroundGliomas, particularly glioblastoma multiforme (GBM), are highly aggressive brain tumors that present significant challenges in oncology due to their rapid progression and resistance to conventional therapies. Despite advancements in treatment, the prognosis for patients with GBM remains poor, necessitating the exploration of novel therapeutic approaches. One such emerging strategy is the development of glioma vaccines, which aim to stimulate the immune system to target and destroy tumor cells.AimsThis review aims to provide a comprehensive evaluation of the current landscape of glioma vaccine development, analyzing the types of vaccines under investigation, the outcomes of clinical trials, and the challenges and opportunities associated with their implementation. The goal is to highlight the potential of glioma vaccines in advancing more effective and personalized treatments for glioma patients.Materials and MethodsThis narrative review systematically assessed the role of glioma vaccines by including full‐text articles published between 2000 and 2024 in English. Databases such as PubMed/MEDLINE, EMBASE, the Cochrane Library, and Scopus were searched using key terms like “glioma,” “brain tumor,” “glioblastoma,” “vaccine,” and “immunotherapy.” The review incorporated both pre‐clinical and clinical studies, including descriptive studies, animal‐model studies, cohort studies, and observational studies. Exclusion criteria were applied to omit abstracts, case reports, posters, and non‐peer‐reviewed studies, ensuring the inclusion of high‐quality evidence.ResultsClinical trials investigating various glioma vaccines, including peptide‐based, DNA/RNA‐based, whole‐cell, and dendritic‐cell vaccines, have shown promising results. These vaccines demonstrated potential in extending survival rates and managing adverse events in glioma patients. However, significant challenges remain, such as therapeutic resistance due to tumor heterogeneity and immune evasion mechanisms. Moreover, the lack of standardized guidelines for evaluating vaccine responses and issues related to ethical considerations, regulatory hurdles, and vaccine acceptance among patients further complicate the implementation of glioma vaccines.DiscussionAddressing the challenges associated with glioma vaccines involves exploring combination therapies, targeted approaches, and personalized medicine. Combining vaccines with traditional therapies like radiotherapy or chemotherapy may enhance efficacy by boosting the immune system’s ability to fight tumor cells. Personalized vaccines tailored to individual patient profiles present an opportunity for improved outcomes. Furthermore, global collaboration and equitable distribution are critical for ensuring access to glioma vaccines, especially in low‐ and middle‐income countries with limited healthcare resourcesConclusionGlioma vaccines represent a promising avenue in the fight against gliomas, offering hope for improving patient outcomes in a disease that is notoriously difficult to treat. Despite the challenges, continued research and the development of innovative strategies, including combination therapies and personalized approaches, are essential for overcoming current barriers and transforming the treatment landscape for glioma patients.
Impact of Extent of Resection on Overall Survival in Glioblastomas: An Umbrella Review of Meta-Analyses
(1) Background: Glioblastoma (GBM) is the most common malignant brain tumor in adults. Due to a lack of level 1 evidence, there is no clear consensus on the optimal extent of resection to improve overall survival. This umbrella review aggregates existing meta-analyses (MAs) to assess overall survival in patients undergoing subtotal resection (STR) versus gross total resection (GTR). (2) Methods: A systematic search of PubMed, Scopus, and Web of Science identified 441 studies, with four MAs meeting inclusion criteria. Data were analyzed using the metaumbrella R package, focusing on overall survival. Quality was assessed using AMSTAR2, with scores ranging from 0 to 11. The Ioannidis criteria were applied to evaluate the credibility of the evidence. (3) Results: The quality assessment rated all four studies highly, with a mean AMSTAR2 score of 10.25. The pooled analysis revealed a significant survival advantage for GTR over STR. However, the Ioannidis classification graded the evidence as Class III, indicating weak credibility. (4) Conclusions: GTR offers a slight survival benefit over STR in GBM patients, but the credibility of the evidence is weak, highlighting the need for further research.
Новые Биомаркеры Для Диагностики Заболеваний Рта
Заболевания полости рта, такие как пародонтоз, кариес зубов и рак полости рта, являются значительными проблемами здравоохранения, которые влияют не только на здоровье полости рта, но и на весь организм. Традиционные методы диагностики часто выявляют эти заболевания только на поздних стадиях, что ограничивает возможности лечения и его исход. Появление биомаркеров — биологических молекул, обнаруживаемых в биологических жидкостях, таких как слюна и жидкость десневой борозды (GCF), — открывает многообещающие возможности для ранней неинвазивной диагностики, прогнозирования и персонализированного лечения. В этом обзоре рассматривается роль биомаркеров в диагностике заболеваний полости рта с упором на их способность выявлять патологии на ранних стадиях. Биомаркеры слюны, такие как богатые пролином белки (PRP) и микроРНК (miRNA), уже проявили себя в выявлении риска кариеса и плоскоклеточного рака полости рта на ранней стадии (OSCC). Биомаркеры GCF, такие как соотношение RANKL/OPG и цитокины, позволяют врачам отслеживать прогрессирование заболеваний пародонта и настраивать планы лечения. Интеграция высокопроизводительных технологий и искусственного интеллекта в исследования биомаркеров еще больше повышает точность диагностики и персонализированный уход. Цель данного обзора состоит в анализе и детальном обсуждении использования современных биомаркеров заболеваний полости рта. Особое внимание уделяется биомаркерам слюны и жидкости десневой борозды (GCF), которые представляют собой перспективные инструменты для диагностики различных патологий, включая онкологические заболевания. Эти биомаркеры обладают высоким потенциалом для раннего выявления, мониторинга прогрессирования заболеваний и оценки эффективности терапевтических вмешательств. Oral diseases such as periodontal disease, dental caries, and oral cancer are significant public health problems that affect not only oral health but also the entire body. Traditional diagnostic methods often detect these diseases only at late stages, which limits treatment options and outcomes. The advent of biomarkers, biological molecules found in biological fluids such as saliva and gingival crevicular fluid (GCF), offers promising opportunities for early non-invasive diagnosis, prognosis, and personalized treatment. This review examines the role of biomarkers in the diagnosis of oral diseases, focusing on their ability to detect pathologies at early stages. Salivary biomarkers such as proline-rich proteins (PRPs) and microRNAs (miRNAs) have already shown promise in identifying the risk of dental caries and early oral squamous cell carcinoma (OSCC). GCF biomarkers such as RANKL/OPG ratio and cytokines enable clinicians to monitor periodontal disease progression and customize treatment plans. The integration of high-throughput technologies and artificial intelligence in biomarker research further enhances diagnostic accuracy and personalized care. The aim of this review is to analyse and discuss in detail the use of modern biomarkers of oral diseases. Particular attention is paid to salivary and gingival crevicular fluid (GCF) biomarkers, which are promising tools for the diagnosis of various pathologies, including cancer. These biomarkers have high potential for early detection, monitoring of disease progression, and evaluation of the effectiveness of therapeutic interventions. Пародонт ауруы, тіс кариесі және ауыз қуысының қатерлі ісігі сияқты ауыз қуысы аурулары ауыз қуысының денсаулығына ғана емес, бүкіл денеге әсер ететін маңызды денсаулық проблемалары болып табылады. Дәстүрлі диагностикалық әдістер көбінесе бұл ауруларды тек соңғы кезеңде анықтайды, бұл емдеу мүмкіндіктері мен нәтижесін шектейді. Биомакерлердің пайда болуы - сілекей және қызыл иектің кревикулярлық сұйықтығы (GCF) сияқты дене сұйықтықтарында кездесетін биологиялық молекулалар - ерте инвазивті емес диагностика, болжау және жеке емдеу үшін перспективалы мүмкіндіктер ұсынады. Бұл шолуда ауыз қуысының ауруларын диагностикалаудағы биомаркерлердің рөлі зерттеледі, олардың патологияны ерте кезеңде анықтау қабілетіне назар аударылады. Пролинге бай протеиндер (PRPs) және микроРНҚ (миРНҚ) сияқты сілекей биомаркерлері тіс кариесінің және ерте сатыдағы ауыз қуысының скамозды жасушалық карциномасының (OSCC) қаупін анықтайтыны көрсетілген. RANKL/OPG қатынасы және цитокиндер сияқты GCF биомаркерлері клиницистерге пародонт ауруларының дамуын бақылауға және емдеу жоспарларын сәйкестендіруге мүмкіндік береді. Жоғары өнімді технологиялар мен жасанды интеллектті биомаркерді зерттеуге біріктіру диагностикалық дәлдікті және жеке күтімді одан әрі жақсартады. Бұл шолудың мақсаты - ауыз қуысының аурулары үшін қазіргі биомаркерлердің қолданылуын егжей-тегжейлі талдау және талқылау. Әртүрлі патологияларды, соның ішінде қатерлі ісіктерді диагностикалаудың перспективалы құралдарын білдіретін сілекей мен қызыл иектің кревикулярлық сұйықтығының (GCF) биомаркерлеріне ерекше назар аударылады. Бұл биомаркерлер ерте анықтау, аурудың дамуын бақылау және терапевтік араласулардың тиімділігін бағалау үшін жоғары әлеуетке ие.
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