Use of a Luciferase-Expressing Orthotopic Rat Brain Tumor Model to Optimize a Targeted Irradiation Strategy for Efficacy Testing with Temozolomide.
Alexandra M MowdayNatasja G LieuwesRianne BiemansDamiënne MarcusBehzad RezaeifarBrigitte ReniersFrank VerhaegenJan TheysLudwig J DuboisPublished in: Cancers (2020)
Glioblastoma multiforme (GBM) is a common and aggressive malignant brain cancer with a mean survival time of approximately 15 months after initial diagnosis. Currently, the standard-of-care (SOC) treatment for this disease consists of radiotherapy (RT) with concomitant and adjuvant temozolomide (TMZ). We sought to develop an orthotopic preclinical model of GBM and to optimize a protocol for non-invasive monitoring of tumor growth, allowing for determination of the efficacy of SOC therapy using a targeted RT strategy combined with TMZ. A strong correlation (r = 0.80) was observed between contrast-enhanced (CE)-CT-based volume quantification and bioluminescent (BLI)-integrated image intensity when monitoring tumor growth, allowing for BLI imaging as a substitute for CE-CT. An optimized parallel-opposed single-angle RT beam plan delivered on average 96% of the expected RT dose (20, 30 or 60 Gy) to the tumor. Normal tissue on the ipsilateral and contralateral sides of the brain were spared 84% and 99% of the expected dose, respectively. An increase in median survival time was demonstrated for all SOC regimens compared to untreated controls (average 5.2 days, p < 0.05), but treatment was not curative, suggesting the need for novel treatment options to increase therapeutic efficacy.
Keyphrases
- contrast enhanced
- computed tomography
- magnetic resonance imaging
- diffusion weighted
- magnetic resonance
- dual energy
- early stage
- high resolution
- white matter
- healthcare
- radiation therapy
- palliative care
- diffusion weighted imaging
- cancer therapy
- oxidative stress
- mesenchymal stem cells
- squamous cell carcinoma
- radiation induced
- neuropathic pain
- multiple sclerosis
- mass spectrometry
- spinal cord
- free survival
- chronic pain
- bone marrow
- high intensity
- prognostic factors
- molecularly imprinted