Technical overview of magnetic resonance fingerprinting and its applications in radiation therapy

2021 ◽  
Author(s):  
Yong Chen ◽  
Lan Lu ◽  
Tong Zhu ◽  
Dan Ma
Keyword(s):  
Radiation Therapy ◽  
Magnetic Resonance

scholarly journals NIMG-33. CHANGES IN MAGNETIC RESONANCE IMAGING AFTER PROTON BOOST THERAPY FOR GLIOBLASTOMA WITH AND WITHOUT TUMOR TREATING FIELDS THERAPY

2020 ◽  
Vol 22 (Supplement_2) ◽  
pp. ii155-ii155
Author(s):  
Hanna Goett ◽  
Alexandra Jensen ◽  
Tobias Struffert ◽  
Eberhard Uhl ◽  
Marco Stein
Keyword(s):  
Magnetic Resonance Imaging ◽  
Radiation Therapy ◽  
Magnetic Resonance ◽  
Contrast Enhancement ◽  
Median Overall Survival ◽  
Progressive Disease ◽  
Tumor Resection ◽  
Resonance Imaging ◽  
Tumor Treating Fields ◽  
Magnetic Resonance Imaging Mri

Abstract BACKGROUND Tumor treating fields (TTFields) are an approved glioblastoma (GBM) treatment modality that demonstrated a significant improved median overall survival in newly diagnosed GBM patients. Data about morphologic changes in serial magnetic resonance imaging (MRI) for patients with a combination therapy of TTFields and proton boost therapy does not exist. METHODS Twenty-two patients were included in this study. All patients were treated with initial tumor resection followed by combined chemo- and radiation therapy. Radiation therapy was performed with 50.0 Gy photons and a proton boost with 10 Gy equivalent (Gy(RBE)). 11 patients were additionally treated with TTFields. RESULTS A new increase in contrast enhancement and/or a progress in the T2 FLAIR hyperintensity was observed in 54.5% (N=12) at 3 months and in 31.8% (N=7) at 6 months. No differences were observed between patients with and without TTFields therapy at 3 months [63.6% (N=7) vs. 45.5% (N=5); P=0.392] and at 6 months [27.3 (N=3) vs. 36.3% (N=4); P=0.647). By the RANO criteria a progressive disease (PD) was observed in 6 patients (27.3%) at 3 months and in 7 patients (31.8%) at 6 months. Pseudoprogression (PP) was observed in in 36.4% (N=8) at months and in 27.3% (N=6) at 6 months. Neither for PD at 3 months [36.4% (N=4) vs. 18.2% (N=2); P=0.338] or at 6 months [36.4% (N=4) vs. 27.3% (N=3); P=0.647), nor for PP at 3 months [45.5% (N=5) vs. 27.2% (N=3); P=0.375] or at 6 months [18.2% (N=2) vs. 36.4% (N=4); P=0.338] differences for patients with and without TTFields therapy were found. CONCLUSION Increased contrast enhancement and/or increased T2 FLAIR MRI hyperintensity after proton boost therapy are common. Furthermore, the rates for new contrast enhancement, PD, and PP after photon therapy with and without additional TTFields therapy are comparable.

Combining Low-Dose Radiation Therapy and Magnetic Resonance Guided Focused Ultrasound to Reduce Amyloid-β Deposition in Alzheimer’s Disease

2021 ◽  
pp. 1-4
Author(s):  
Paolo Farace ◽  
Stefano Tamburin
Keyword(s):  
Alzheimer’S Disease ◽  
Clinical Trials ◽  
Radiation Therapy ◽  
White Matter ◽  
Magnetic Resonance ◽  
Low Dose ◽  
Focused Ultrasound ◽  
Amyloid Β ◽  
Low Dose Radiation ◽  
Dose Radiation

Amyloid-β deposition is one of the neuropathological hallmarks of Alzheimer’s disease (AD), but pharmacological strategies toward its reduction are poorly effective. Preclinical studies indicate that low-dose radiation therapy (LD-RT) may reduce brain amyloid-β. Animal models and proof-of-concept preliminary data in humans have shown that magnetic resonance guided focused ultrasound (MRgFUS) can reversibly open the blood-brain-barrier and facilitate the delivery of targeted therapeutics to the hippocampus, to reduce amyloid-β and promote neurogenesis in AD. Ongoing clinical trials on AD are exploring whole-brain LD-RT, which may damage radio-sensitive structures, i.e., hippocampus and white matter, thus contributing to reduced neurogenesis and radiation-induced cognitive decline. However, selective irradiation of cortical amyloid-β plaques through advanced LD-RT techniques might spare the hippocampus and white matter. We propose combined use of advanced LD-RT and targeted drug delivery through MRgFUS for future clinical trials to reduce amyloid-β deposition in AD since its preclinical stages.

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