Physiological Imaging Methods for Evaluating Response to Immunotherapies in Glioblastomas.
Seung-Cheol LeeVanessa ShehuPradeep Kumar GuptaKavindra NathHarish PoptaniPublished in: International journal of molecular sciences (2021)
Glioblastoma (GBM) is the most malignant brain tumor in adults, with a dismal prognosis despite aggressive multi-modal therapy. Immunotherapy is currently being evaluated as an alternate treatment modality for recurrent GBMs in clinical trials. These immunotherapeutic approaches harness the patient's immune response to fight and eliminate tumor cells. Standard MR imaging is not adequate for response assessment to immunotherapy in GBM patients even after using refined response assessment criteria secondary to amplified immune response. Thus, there is an urgent need for the development of effective and alternative neuroimaging techniques for accurate response assessment. To this end, some groups have reported the potential of diffusion and perfusion MR imaging and amino acid-based positron emission tomography techniques in evaluating treatment response to different immunotherapeutic regimens in GBMs. The main goal of these techniques is to provide definitive metrics of treatment response at earlier time points for making informed decisions on future therapeutic interventions. This review provides an overview of available immunotherapeutic approaches used to treat GBMs. It discusses the limitations of conventional imaging and potential utilities of physiologic imaging techniques in the response assessment to immunotherapies. It also describes challenges associated with these imaging methods and potential solutions to avoid them.
Keyphrases
- high resolution
- positron emission tomography
- immune response
- clinical trial
- computed tomography
- contrast enhanced
- end stage renal disease
- amino acid
- chronic kidney disease
- ejection fraction
- physical activity
- mass spectrometry
- human health
- toll like receptor
- pet ct
- mesenchymal stem cells
- fluorescence imaging
- inflammatory response
- radiation therapy
- dendritic cells
- climate change