165 Hemodynamic Imaging in Brain Metastases: ASL vs. Hypercapnic BOLD REFERENCES 1. Alsop DC, Detre JA, Golay X, et al. Recommended Implementation of ASL Perfusion MRI for Clinical Applications. Magn Reson Med 2015; 73: 102–116. 2. Detre JA, Rao H, Wang DJJ, et al. Applications of arterial spin labeled MRI in the brain. Journal of Magnetic Resonance Imaging 2012; 35: 1026–1037. 3. Telischak NA, Detre JA, Zaharchuk G. Arterial spin labeling MRI: Clinical applications in the brain. Journal of Magnetic Resonance Imaging 2015; 41: 1165– 1180. 4. Markus HS. Cerebral perfusion and stroke. J Neurol Neurosurg Psychiatry 2004; 75: 353–361. 5. Sebök M, Niftrik CHB Van, Wegener S, et al. Agreement of Novel Hemodynamic Imaging Parameters for the Acute and Chronic Stages of Ischemic Stroke: A Matched-pair Cohort Study. Neurosurg Focus 2021; 51: 1–8. 6. Václavů L, Meynart BN, Mutsaerts HJMM, et al. Hemodynamic provocation with acetazolamide shows impaired cerebrovascular reserve in adults with sickle cell disease. Haematologica 2019; 104: 690–699. 7. Chan ST, Evans KC, Rosen BR, et al. A case study of magnetic resonance imaging of cerebrovascular reactivity: A powerful imaging marker for mild traumatic brain injury. Brain Inj 2015; 29: 403–407. 8. Sobczyk O, Battisti-Charbonney A, Fierstra J, et al. A conceptual model for CO2induced redistribution of cerebral blood flow with experimental confirmation using BOLD MRI. Neuroimage 2014; 92: 56–68. 9. Champagne AA, Bhogal AA, Coverdale NS, et al. A novel perspective to calibrate temporal delays in cerebrovascular reactivity using hypercapnic and hyperoxic respiratory challenges. Neuroimage. Epub ahead of print 15 February 2017. DOI: 10.1016/j.neuroimage.2017.11.044. 10. Frederick B de B, Nickerson LD, Tong Y. Physiological denoising of BOLD fMRI data using Regressor Interpolation at Progressive Time Delays (RIPTiDe) processing of concurrent fMRI and near-infrared spectroscopy (NIRS). Neuroimage 2012; 60: 1913–1923. 11. Tong Y, Bergethon PR, Frederick B de B. An improved method for mapping cerebrovascular reserve using concurrent fMRI and near-infrared spectroscopy with Regressor Interpolation at Progressive Time Delays (RIPTiDe). Neuroimage 2011; 56: 2047–2057. 12. Cai S, Shi Z, Zhou S, et al. Cerebrovascular Dysregulation in Patients with Glioma Assessed with Time-shifted BOLD fMRI. 13. Fierstra J, van Niftrik C, Piccirelli M, et al. Diffuse gliomas exhibit whole brain impaired cerebrovascular reactivity. Magn Reson Imaging 2018; 45: 78–83. 14. Sebök M, van Niftrik CHB, Muscas G, et al. Hypermetabolism and impaired cerebrovascular reactivity beyond the standard MRI-identified tumor border indicate diffuse glioma extended tissue infiltration. Neurooncol Adv 2021; 3: 1–9. 15. Kienast Y, von Baumgarten L, Fuhrmann M, et al. Real-time imaging reveals the single steps of brain metastasis formation. Nat Med 2010; 16: 116–122. 16. Fidler IJ, Yano S, Zhang RD, et al. The seed and soil hypothesis: Vascularisation and brain metastases. Lancet Oncology 2002; 3: 53–57. 17. Langley RR, Fidler IJ. The biology of brain metastasis. Clin Chem 2013; 59: 180– 189. 6
RkJQdWJsaXNoZXIy MTk4NDMw