CURRICULUM VITAE

DATE PREPARED: March, 2009PART I: General InformationName: Jing YuanCURRICULUM VITAEOffice Address: Brigham and Women’s Hospital, Dept. of Radiology, 75 Francis StBoston, MA 02115 United StatesEmail: jyuanbwh@gmail.com, jyuan@bwh.harvard.eduPhone: (617) 525-3314Education:2006 Ph.D Dept. of Electrical and Electronic Engineering, The University of Hong Kong2002 M.S. Dept. of Electronic Engineering, Tsinghua University, Beijing, China2000 B.S. Department of Electronic Engineering, Tsinghua University, Beijing, ChinaPostdoctoral Training:2007-presentResearch Fellow, Dept. of Radiology, Brigham and Women’s Hospital,Harvard Medical SchoolProfessional Societies:2004-2008 International Society for Magnetic Resonance in Medicine (ISMRM), MemberResearch Interests:• Parallel Imaging and fast imaging algorithm• Pulse sequence design for fast and real-time imaging• Water-fat imaging, cardiac imaging• MR thermometry• High Temperature Superconducting RF coils and gradient coils for MRI• Electromagnetic calculation and analysis• Optoelectronics and its application in MRIRecent research activities:• Focused Ultrasound temperature mapping• Pulse sequence design for image guided therapy• Fat-water separation in dynamic imaging

• Biopsy needle tracking for image-guided therapy• Bi-2223 high temperature superconducting RF and gradient coil for MRI• Optical fiber and wireless links for MR array interconnect• Design of novel RF coils for ultra-high field MRIAwards and Honors:• 2006 Outstanding Ph.D. thesis award of The University of Hong Kong• 2006 Student Stipend Award for 14th ISMRM, Seattle, US, 2006• 2005 Student Stipend Award for 13th ISMRM, Miami, US, 2005• 2004 Student Stipend Award for 12th ISMRM, Kyoto, Japan, 2004• 2002 Academic Excellence Award. Tsinghua University, Beijing, ChinaPart II: Teaching, Lecture, Seminar and PresentationsLocal Presentations2009 NCIGT 2DRF Pulse Library and Its Applications, MIPG, NCIGT2008 Fast fat-water separation for image-guided therapy using a novel spatial andtemporal strategy, NCIGT Research retreat 20082008 Basic Timing in FGRE Sequence, MIPG PSD workshop2008 SSP Packets Introduction and Examples in FGRE Sequence, MIPG PSD workshop2008 Fat-Water Imaging: A Brief Review of Technologies and Trends, MIPG, NCIGT2008 RF Power and SAR using Quasi-static Model, MIPG, NCIGT2008 Data acquisition in SSFSE Sequence, MIPG, PSD workshop2008 Slice Ordering in GE Pulse Sequence Design, MIPG, PSD workshop2007 Ultra-short Echo Planar 2D RF Pulse Excitation for Fast Imaging, NCIGT Researchretreat 20072007 Optical Fiber Links for MRI RF Coil Array, MIPG, NCIGTMIPG: Medical Imaging Physics GroupPSD: pulse sequence design (PSD)NCIGT: National Center for Image-Guided TherapyRegional, national, or international2007 Ultra Fast Echo-Planar 2D RF Pulses with Variable-Rate Selective Excitation,Department of Radiology, Univ of California, San Francisco2006 Gradient coil design using Bi-2223 high temperature superconducting tape formagnetic resonance imaging, Department of Electrical and Electronic Engineering,The University of Hong Kong, Hong KongPart III: BibliographyOriginal Articles

1. Jing Yuan, Juan Wei, Gary X. Shen, A 4-Channel Coil Array Interconnection by AnalogDirect Modulation Optical Link for 1.5T MRI, IEEE Transactions on Medical Imaging,27 (2008) 1432-1438.2. Jing Yuan, Juan Wei, Gary X. Shen, A Direct Modulated Optical Link for MRI RFReceive Coil Interconnection, Journal of Magnetic Resonance, 189 (2007) 130-138.3. Juan Wei, Zhengguang Liu, Zhi Chai, Jing Yuan, Jianyu Lian, Gary X. Shen, ARealization of Digital Wireless Transmission for MRI signals Based on 802.11b, Journalof Magnetic Resonance, 186 (2007) 358-363.4. Jing Yuan, G.X. Shen, Gradient coil design using Bi-2223 high temperaturesuperconducting tape for magnetic resonance imaging, Medical Engineering and Physics,29 (2007) 442-448.5. Bing Wu, Peng Qu, Chunsheng Wang, Jing Yuan, Gary X. Shen. Interconnecting L/CComponents for Decoupling and Its Application to the Low-field Open MRI Array.Concepts in Magnetic Resonance, Part B: Magnetic Resonance Engineering. 31B (2007)116-126.6. Jing Yuan, M.L. Rohan, G.X. Shen, Investigation of Bi-2223 high temperaturesuperconducting tape as the material for gradient coil in MRI. Journal of MagneticResonance, 182 (2006) 298-307.7. Juan Wei, Jing Yuan, G.X. Shen, Effect of Tuning Capacitor Placement on MutualCoupling for MRI Array Coils. Concepts in Magnetic Resonance Part B (MagneticResonance Engineering), 29B (2006) 50-54.8. Jing Yuan, Jin Fang, Peng Qu, Gary X. Shen, Z.-H. Han, Study of frequency dependentAC loss in Bi-2223 tapes used for gradient coils in Magnetic Resonance Imaging. PhysicaC, 424 (2005) 72-78.9. Peng Qu, Gary X. Shen, Chunsheng Wang, Bing Wu, Jing Yuan, Tailored utilization ofacquired k-space points for GRAPPA reconstruction, Journal of Magnetic Resonance,174, (2005), 60-67.10. Chunsheng Wang, Gary. X. Shen, Jing Yuan, Peng Qu, Bing Wu, Theoretical andExperimental Investigation of the Relationship among SAR, Tissues and RadioFrequencies in MRI. Physica Medica, XXI (2005) 61-64.11. Jing Yuan, G. X. Shen, Quality factor of Bi(2223) high-temperature superconductor tapecoils at radio frequency. Superconductor Science and Technology, 17 (2004) 333-336.12. Jing Yuan, G. X. Shen, Chunsheng Wang, Bing Wu, Peng Qu, Use of Bi-2223multifilamentary tapes as RF coils for 1.5T MRI application. Physica C, 415 (2004) 189-196.13. Jing Yuan, Li De-jie, Du Bing-chu. Investigation of the degradation mechanism of fieldemitterarrays. Surface Review and Letters, 8 (2001) 699.14. Jing Yuan, Du Bingchu, Li Dejie. Usage of Getter in Field Emission Display. VacuumScience and Technology, 22 (2002) 135-138.

15. Jing Yuan, Zhang Jun, Li Dejie, Du Bingchu. Calculation and Analysis of MechanicalStrength of Spacers in Filed Emission Display. Vacuum Science and Technology, 22(2002) 205-208.16. Zhang Jun, Jing Yuan, Du Bingchu, Li Dejie. Improvement in Vacuum Pumping andMaintaining of Field Emission Display Device. Vacuum Science and Technology, 22(2002) 447-449.Papers in preparation1. Jing Yuan, Lawrence Panych, Bruno Madore. Fat and Water Separation in BalancedSteady-State Free Precession with Two-Dimensional Spatially-Selective RF Pulse, to besubmitted to Magnetic Resonance in Medicine.2. Jing Yuan, Lawrence Panych, Robert Mulkern. Reduced field-of-view single-shot fastspin echo imaging using two-dimensional spatially-selective RF pulses with blurringreduction, to be submitted to Magnetic Resonance in Medicine.3. Chang-sheng Mei, Jing Yuan, Lawrence Panych. Combining 2D RF excitation, parallelimaging and UNFOLD for temperature mapping in Focused Ultrasound therapy, to besubmitted to Magnetic Resonance in Medicine.4. Mohammed Aljallad, Jing Yuan, Lawrence Panych. Temperature monitoring withMURPS with reduced field-of-view imaging, to be submitted to Journal of MagneticResonance Imaging.5. Jing Yuan, Bruno Madore, Real-time SSFP Imaging with UNFOLD-based Fat WaterSeparation, to be submitted to Magnetic Resonance in Medicine.Proceedings of Meetings1. Jing Yuan, Tzu-Cheng Chao, Yi Tang, Lawrence P. Panych, High resolution reduced-FOV single-shot FSE imaging using 2DRF pulses with less blurring and low SAR, Proc.ISMRM 17, Honolulu USA, 4504, (2009).2. Jing Yuan, Bruno Madore, Lawrence P. Panych, Spatially variable fat-water separationusing short 2DRF pulses for fast imaging, Proc. ISMRM 17, Honolulu USA, 2776,(2009).3. Jing Yuan, Tzu-Cheng Chao, Riad S. Ababneh, Yi Tang, Lawrence P. Panych, BrunoMadore, Fast dynamic fat-water separation using shorter spatial-spectral excitation andnovel temporal acquisition, Proc. ISMRM 17, Honolulu USA, Oral Presentation, 460,(2009).4. Chang-Sheng Mei, Jing Yuan, Nathan J. McDannold, Lawrence P. Panych, Fasttemperature measurement using a 2DRF pulse enables both reduced-FOV imaging and fatsuppression, Proc. ISMRM 17, Honolulu USA, 4395, (2009).5. Bruno Madore, Jing Yuan, Chang-Sheng Mei, Lawrence P. Panych, Fast imagingsequence for temperature monitoring in moving objects, Proc. ISMRM 17, HonoluluUSA, oral presentation, 441, (2009).

6. Tzu-Cheng Chao, Hsiao-Wen Chung, William Scott Hoge, Jing Yuan, Bruno Madore,2D graphical assessment for fast imaging strategies, Proc. ISMRM 17, Honolulu USA,4566, (2009).7. Tzu-Cheng Chao, William Scott Hoge, Jing Yuan, Hsiao-Wen Chung, Bruno Madore,Reconstruction of retrospectively-gated cardiac data using a combination of GRAPPA,SPACE-RIP, UNFOLD and an adaptive regularization scheme, Proc. ISMRM 17,Honolulu USA, 2837, (2009).8. Onur Afacan, William Scott Hoge, Daniel H. Brooks, Jing Yuan, Ming-Long Wu,Lawrence P. Panych, I.A. Morocz, A method to increase temporal resolution in 3D-EPIfMRI using UNFOLD, Proc. ISMRM 17, Honolulu USA, 1545, (2009).9. Jing Yuan, Chang-Sheng Mei, Lawrence P. Panych, Ultra-short 2D RF pulse for reducedfield-of-view SSFP imaging, Proc. ISMRM 16, Toronto Canada, 3137, (2008).10. Jing Yuan, Bruno Madore, Lawrence P. Panych, Comparison of Fat-Water Separation by2D RF Pulse and Dixon method in Balanced Steady-State Free Precession, Proc. ISMRM16, Toronto Canada, 1388, (2008).11. Chang-sheng Mei, Jing Yuan, Lawrence P. Panych, Combining 2D RF excitation,parallel imaging and UNFOLD in Focused Ultrasound heating, Proc. ISMRM 16,Toronto Canada, 1234, (2008).12. Mohammed Aljallad, Jing Yuan, Lawrence P. Panych, Temperature monitoring withMURPS in a reduced field-of-view, Proc. ISMRM 16, Toronto Canada, 1230, (2008).13. Gary X. Shen, Juan Wei, Jing Yuan, Yong Pang, Digital Transmission using SingleOptical Fiber for Multi-channel MRI, Oral Presentation, Proc. ISMRM 16, TorontoCanada, 683, (2008).14. Jing Yuan, Juan Wei, Gary X. Shen, A Direct Modulated Optical Fiber Link for 0.3TMRI, Proc. ISMRM 15, Berlin Germany, E-poster Oral Discussion, 322, (2007).15. Jing Yuan, Juan Wei, Chenpeng Du, Gary X. Shen, Investigation of Dynamic RangeRequirementfor MRI Signal Transmission by Optical Fiber Link, Proc. ISMRM 15,Berlin Germany, 995, (2007).16. Jing Yuan, Juan Wei, Guang Cao, Yong Pang, Chenpeng Du, Gary X. Shen, A 4-channelOptical Link Transmission for RF Coil Array at 1.5T, Proc. ISMRM 15, Berlin Germany,1036, (2007).17. Chenpeng Du, Jing Yuan, Gary X. Shen, Comparison of FP, VCSEL and DFB LaserDiode in Optical Transmission for MR RF Coil Array, Proc. ISMRM 15, Berlin Germany,1041, (2007).18. Juan Wei, Zhengguang Liu, Jing Yuan, Yong Pang, Gary X. Shen, Digital WirelessTransmission for MRI Signals, Proc. ISMRM 15, Berlin Germany, 1001, (2007).19. Bing Wu, Yong Pang, Juan Wei, Peng Qu, Chunsheng Wang, Jing Yuan, Gary X. Shen,Comparison Between Broadband Decoupling Methods for Microstirp Array, Proc.ISMRM 15, Berlin Germany, 1041, (2007).20. Chunsheng Wang, Peng Qu, Jing Yuan, Gary X. Shen, Evaluation of a DegeneratedBirdcage Coil for Parallel Imaging, Proc. ISMRM 15, Berlin Germany, 1039, (2007).

21. Peng Qu, Bing Wu, Chunsheng Wang, Jing Yuan, Juan Wei, Yong Pang, Gary X. Shen,Iterative Back-Projection Reconstruction for Radial SENSE, Proc. ISMRM 15, BerlinGermany, 1745, (2007).22. Jing Yuan, Gary X. Shen, Comparison of Optical Modulation Methods for RF CoilInterlinks, Proc. ISMRM 14, Seattle USA, Oral Presentation, 784, (2006).23. Jing Yuan, Gary X. Shen, A Direct Modulated Optical Link for MR Coil ArrayInterconnect, Proc. ISMRM 14, Seattle USA, 2617, (2006).24. Jing Yuan, Peng Qu, Juan Wei, Gary X. Shen, Noise Figure and Dynamic RangeOptimization in Optical Links for MRI Applications, Proc. ISMRM 14, Seattle USA,2031, (2006).25. Juan wei, Jing Yuan, Gary X. Shen, Single Cable Transmission for Multi-Channel MRIUsing Frequency Division Multiplexing, Proc. ISMRM 14, Seattle USA, OralPresentation, 220, (2006).26. Chunsheng Wang, Jing Yuan, Peng Qu, Gary X. Shen, Comparison of three AppliedVolume Coils at 7T, Proc. ISMRM 14, Seattle USA, 3533, (2006).27. Juan wei, Bing Wu, Jing Yuan, Gary X. Shen, Digital Wireless Transmission for MRI,Proc. ISMRM 14, Seattle USA, 3542, (2006).28. Peng Qu, Jing Yuan, Bing Wu, Gary X. Shen. Optimization of Regularization Parameterfor GRAPPA Reconstruction. Proc. ISMRM 14, Seattle USA, 2474 (2006).29. Jing Yuan, Peng Qu, Bing Wu, Juan Wei, Gary X. Shen, Investigation of Power Loss ofBi-2223 HTS Tapes Used for MRI Gradient Coil, Proc. ISMRM 13, Miami USA, OralPresentation; 405, (2005).30. Jing Yuan, Michael L. Rohan, Juan Wei, Chunsheng Wang, Gary X. Shen, A PrototypeBi-2223 HTS Tape Gradient Coil for MRI, Proc. ISMRM 13, Miami USA; 856 (2005)31. Jing Yuan, Chunsheng Wang, Peng Qu, Juan Wei, Gary X. Shen, Use of Bi-2223 HTSTapes as RF Coils for 1.5T MRI, Proc. ISMRM 13, Miami USA; 935 (2005).32. Peng Qu, Jing Yuan, Juan Wei, Gary X. Shen, Improved SENSE Reconstruction by Pre-Scaled TLS Method, Proc. ISMRM 13, Miami USA; 2440 (2005).33. Peng Qu, Jing Yuan, Juan Wei, Gary X. Shen, Mixed LS-TLS Method for OptimalSENSE Reconstruction, Proc. ISMRM 13, Miami USA; 2456 (2005).34. Juan Wei, Peng Qu, Jing Yuan, Gary X. Shen, Optimal Driving Configuration and CoilArray Geometry for Parallel Imaging, Proc. ISMRM 13, Miami USA; 915 (2005).35. Bing Wu, Peng Qu, Jing Yuan, Gary X. Shen, Tunable Loop Microstrip (TLM) CoilArray with Decoupling Capacitors, Proc. ISMRM 13, Miami USA; 949 (2005).36. Jing Yuan, Chunsheng Wang, Gary. X. Shen. Optimization of HTS Tape Coil Design.Proc. ISMRM 12, Kyoto Japan; 1579 (2004).37. Chunsheng Wang, Jing Yuan, Bing Wu, Gary. X. Shen. Comparison of B1 FieldHomogeneity for Shielded Birdcage, TEM and Microstrip Volume Coils at 300MHz.Proc. ISMRM 12, Kyoto Japan, Oral Presentation; 487 (2004).

38. Chunsheng Wang, Jing Yuan, Peng Qu, Gary. X. Shen. Theoretical and ExperimentalInvestigation of the Relationship among SAR, Tissues and Resonant Frequencies in MRI.Proc. ISMRM 12, Kyoto Japan; 1668 (2004).39. Bing Wu, Peng Qu, Jing Yuan, Gary X. Shen, A Novel RF Coil: Tunable LoopMicrostrip (TLM) Coil. Proc. ISMRM 12, Kyoto Japan; 487 (2004).