연구동향 분석
박사

인체 조직등가물질을 이용한 갑상선 자기공명영상의 자화율 변화에 관한 연구 = A study on image distortion improvement using silicon device in thyroid diffusion MRI images

서대건 2015년

논문상세정보
인용/피인용
' 인체 조직등가물질을 이용한 갑상선 자기공명영상의 자화율 변화에 관한 연구 = A study on image distortion improvement using silicon device in thyroid diffusion MRI images' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • r2´
  • 갑상선 확산강조영상
  • 실리콘 패드
  • 에코평면영상
  • 왜곡
  • 자화율
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
79 0

0.0%

' 인체 조직등가물질을 이용한 갑상선 자기공명영상의 자화율 변화에 관한 연구 = A study on image distortion improvement using silicon device in thyroid diffusion MRI images' 의 참고문헌

  • 스핀 에코 EPI 기준 정보를 이용한 경사자장 EPI 영상기법에서의인공물의 분석 및 보정방법에 관한 연구
    정준영 Korea Advanced Instituteof Science and Technology: 대전 [2007]
  • 대한자기공명의과학회
    대한자기공명영상학. : p. 54 - 56 [2008]
  • van den Bergen, B., et al., SAR and power implications of different RFshimming strategies in the pelvis for 7T MRI. Journal of MagneticResonance Imaging, 2009. 30(1): p. 194-202.
  • http://www.mw. go.kr
  • http://www.itsbio.co.kr/main/goods_view.php?category2=65&no=176#spe cification.
  • http://terms.naver.com/entry.nhn?docId=607729&cid=42420&categoryId= 42420 and http://terms.naver.com/entry.nhn?docId=869652&cid=42 388 & categoryId=42388.
  • Yuan, Y., X.-H. Yue, and X.-F. Tao, The diagnostic value of dynamiccontrast-enhanced MRI for thyroid tumors. European journal ofradiology, 2012. 81(11): p. 3313-3318.
  • Yamashita, K., et al., Detection of middle ear cholesteatoma bydiffusion-weighted MR imaging: multishot echo-planar imagingcompared with single-shot echo-planar imaging. American Journal ofNeuroradiology, 2011. 32(10): p. 1915-1918.
  • Vaughan, J.T., et al., 7T vs. 4T: RF power, homogeneity, and signal?tonoisecomparison in head images. Magnetic resonance in medicine, 2001. 46(1): p. 24-30.
  • Tofts, P., Quantitative MRI of the Brain. p. 111-141.
  • Taviani, V., et al., 3T diffusion-weighted MRI of the thyroid gland withreduced distortion: preliminary results. The British journal of radiology,2013. 86(1028).
  • Taha, M.S., et al., Diffusion-weighted MRI in diagnosing thyroidcartilage invasion in laryngeal carcinoma. European Archives of Oto-Rhino-Laryngology, 2013: p. 1-6.
  • Taeymans, O., D.G. Penninck, and R.M. Peters, Comparison betweenclinical, ultrasound, CT, MRI, and pathology findings in dogs presentedfor suspected thyroid carcinoma. Veterinary Radiology & Ultrasound,2013. 54(1): p. 61-70.
  • Sprinkart, A.M., et al., Ultrafast volumetric B1+ mapping for improvedradiofrequency shimming in 3 tesla body MRI. Journal of MagneticResonance Imaging, 2013.
  • Schueller-Weidekamm, C., et al., Can quantitative diffusion-weightedMR imaging differentiate benign and malignant cold thyroid nodules?Initial results in 25 patients. American Journal of Neuroradiology, 2009. 30(2): p. 417-422.
  • Saritas, E.U., et al., DWI of the spinal cord with reduced FOV single?shotEPI. Magnetic Resonance in Medicine, 2008. 60(2): p. 468-473.
  • Ross DS. Nonpalpable thyroid nodules: managing an epidemic. J ClinEndocrinol Metab 2002, 87: p.1938-40
  • Roemer, P., et al., The NMR phased array. Magnetic resonance inmedicine, 1990. 16(2): p. 192-225.
  • Rice CO: Incidence of nodules in thyroid: Comparative study ofsymptomless thyroid gland removed at autopsy and hyperfunctioninggoiters operatively removed. Arch Surg 1932, 24: p. 505-508.
  • Razek, A.A., et al., Role of apparent diffusion coefficient values indifferentiation between malignant and benign solitary thyroid nodules. American Journal of Neuroradiology, 2008. 29(3): p. 563-568.
  • Pfeuffer, J., et al., Perfusion?based high?resolution functional imaging inthe human brain at 7 Tesla. Magnetic resonance in medicine, 2002. 47(5): p. 903-911.
  • Mutlu, H., et al., Role of apparent diffusion coefficient values anddiffusion-weighted magnetic resonance imaging in differentiationbetween benign and malignant thyroid nodules. Clinical imaging, 2012. 36(1): p. 1-7.
  • Mortensen JD, Woolner LB, Bennett WA: Gross and microscopicfindings in clinically normal thyroid glands. J Clin Endocrinol Metab 1955,15: p. 1270-1280.
  • Moriya, S., et al., Rice pads: novel devices for homogeneous fatsuppression in the knee. Acta Radiologica, 2010. 51(2): p. 175-178.
  • Miyakoshi, A., R.W. Dalley, and Y. Anzai, Magnetic resonance imaging ofthyroid cancer. Topics in Magnetic Resonance Imaging, 2007. 18(4): p. 293-302.
  • Mazzaferri EL: Thyroid cancer in thyroid nodules: Finding a needle inthe haystack. Am J Med 1992, 93: p. 359-362.
  • Kouvaraki, M.A., et al., RET proto-oncogene: a review and update ofgenotype-phenotype correlations in hereditary medullary thyroidcancer and associated endocrine tumors. Thyroid, 2005. 15(6): p. 531-544.
  • Keeler, J., Understanding NMR spectroscopy. 2013: John Wiley & Sons.
  • Kato, H., et al., Head and neck squamous cell carcinoma: usefulness ofdiffusion-weighted MR imaging in the prediction of a neoadjuvanttherapeutic effect. European radiology, 2009. 19(1): p. 103-109.
  • Juan, C.-J., et al., Salivary Glands: Echo-Planar versus PROPELLERDiffusion-weighted MR Imaging for Assessment of ADCs 1. Radiology,2009. 253(1): p. 144-152.
  • Ishizaka, K., et al., Bilateral breast MRI by use of dual-source parallelradiofrequency excitation and image-based shimming at 3 Tesla:improvement in homogeneity on fat-suppression imaging. Radiologicalphysics and technology, 2014: p. 1-9.
  • Ikeguchi, H., et al., [Evaluation of prototype for additional pad packing(polystyrene ball bullet) for homogenously fat suppressed magneticresonance imaging]. Nihon Hoshasen Gijutsu Gakkai zasshi, 2013. 69(1):p. 71-79.
  • Hellwig CA: Thyroid gland in Kansas. Am J Clin Pathol 1935, 5:103-106,
  • Heid, O., Robust EPI phase correction. Proceedings of the ISMRM,Vancouver, 1997.
  • Hegedus, L., The thyroid nodule. New England Journal of Medicine,2004. 351(17): p. 1764-1771.
  • Hashemi, R.H., MRI The Basics. p. 47 - 48.
  • Hashemi, R.H., MRI The Basics. p. 45 - 47.
  • Hashemi, R.H., MRI The Basics. p. 42 - 45.
  • Hashemi, R.H., MRI The Basics. p. 20 - 22.
  • Hashemi, R.H., MRI The Basics. p. 143 ? 201.
  • Guan, Y., et al., [Diagnosis of thyroid carcinoma by magnetic resonanceimaging (MRI)]. Ai zheng= Aizheng= Chinese journal of cancer, 2003. 22(7): p. 739-744.
  • Gizewski, E.R., et al., fMRI at 7 T: whole-brain coverage and signaladvantages even infratentorially? Neuroimage, 2007. 37(3): p. 761-768.
  • Erdem, G., et al., Diffusion?weighted images differentiate benign frommalignant thyroid nodules. Journal of Magnetic Resonance Imaging, 2010. 31(1): p. 94-100.
  • Cho, Z. and Y. Ro, Reduction of susceptibility artifact in gradient echoimaging. Magnetic resonance in medicine, 1992. 23(1): p. 193-200.
  • Carcangiu, M.L., et al., Papillary carcinoma of the thyroid. Cancer, 1985. 55(4): p. 805-828.
  • Buonocore, M.H. and L. Gao, Ghost artifact reduction for echo planarimaging using image phase correction. Magnetic resonance in medicine,1997. 38(1): p. 89-100.
  • Bozgeyik, Z., et al., Diffusion-weighted MR imaging of thyroid nodules. Neuroradiology, 2009. 51(3): p. 193-198.
  • Bobrov, E. and W. Punchard, A general method of design of axial andradial shim coils for NMR and MRI magnets. Magnetics, IEEETransactions on, 1988. 24(1): p. 533-536.
  • Batsakis, J., Laryngeal involvement by thyroid disease. The Annals ofotology, rhinology, and laryngology, 1986. 96(6): p. 718-719.