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- [1]Bae KT (2010) —
- [2]Bae KT et al. (2008) —
- [3]Awai K et al. (2004) —
- [4]Mihl C et al. (2015) —
- [5]Bae KT, Tran & Heiken (2000) —
- [6]Fleischmann & Hitraya (1999) —
- Awai, K., Hiraishi, K., & Hori, S. (2004). Effect of contrast material injection duration and rate on aortic peak time and peak enhancement at dynamic CT involving injection protocol with dose tailored to patient weight. Radiology, 230(1), 142-150.
- Bae, K. T. (2010). Intravenous contrast medium administration and scan timing at CT: considerations and approaches. Radiology, 256(1), 32-61.
- Bae, K. T., Seeck, B. A., Hildebolt, C. F., et al. (2008). Peak enhancement of the aorta and liver at multidetector row CT: effect of contrast medium volume and body weight. AJR, 190(3), 777-784.
- Fleischmann, D. (2003). Use of high-concentration contrast media in multiple-detector-row CT: principles and rationale. European Radiology, 13(Suppl 5), M14-M20.
- Bae, K. T. (2003). Peak contrast enhancement in CT and MR angiography: when does it occur and why? Pharmacokinetic study in a porcine model. Radiology, 227(3), 809-816.
- Henzell, E., et al. (2013). Optimising contrast material volume for computed tomography pulmonary angiography. European Radiology, 23(12), 3246-3252.
- Mihl, C., Kok, M., Wildberger, J. E., Das, M., et al. (2015). Coronary CT angiography using low concentrated contrast media injected with high flow rates: Feasible in clinical practice. European Journal of Radiology, 84(11), 2155-2160.
- Rengo, M., et al. (2010). CT pulmonary angiography: a patient-specific contrast injection protocol. Radiologia Medica, 115(5), 701-710.
- Saade, C., Bou-Fakhredin, R., et al. (2013). Caudocranial scan direction and patient-specific volume of contrast material improve image quality and reduce contrast material volume during computed tomography angiography of the aorta. Journal of Computer Assisted Tomography, 37(5), 721-726.
- Saade, C., El-Merhi, F., et al. (2017). Contrast medium volume optimization for multidetector computed tomography of the thoracic aorta. Clinical Radiology, 73(1), 93.e1-93.e7.
- Saade, C., et al. (2019). Contrast volume reduction using patient-specific formulas. Radiography, 25(3), 261-267.
- Awai, K., Imuta, M., Utsunomiya, D., et al. (2004). Contrast enhancement for whole-body screening using multidetector row helical CT: comparison between uniphasic and biphasic injection protocols. Radiological Medicine, 22(5), 303-309.
- Bae, K. T., Tran, H. Q., & Heiken, J. P. (2000). Multiphasic Injection Method for Uniform Prolonged Vascular Enhancement at CT Angiography: Pharmacokinetic Analysis and Experimental Porcine Model. Radiology, 216(3), 872-880.
- Fleischmann, D., & Hitraya, E. G. (1999). Mathematical analysis of arterial enhancement and optimization of bolus geometry for CT angiography using the discrete-time survival function. Journal of Computer Assisted Tomography, 23(3), 472-479.