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Chapter 1

No references

Chapter 2

Holland P. The Quantum Theory of Motion: An Account of the de Broglie-Bohm Causal Interpretation of Quantum Mechanics. 1993. Cambridge: Cambridge University Press. doi:10.1017/CBO9780511622687

Chapter 3

Bashir U, Mallia A, Stirling J, Joemon J, MacKewn J, Charles-Edwards G, Goh V, Cook GJ. PET/MRI in oncological imaging: state of the art. Diagnostics 2015; 5: 333-357. doi:10.3390/diagnostics5030333.

Béné GJ. New spin echo techniques in the earth's magnetic field range. Pure and Allied Chemistry 1972; 32: 67-78.

Bud’ko SL, Canfield PC. Superconductivity of magnesium diboride. Physica C 2015; 514: 142–151.

Inglis B, Buckenmaier K, SanGiorgio P, Pedersen AF, Nichols MA, Clarke J. MRI of the human brain at 130 microtesla. PNAS 2013; 110: 19194-19201.

Kraus R, Espy M, Magnelind P, Volegov P. Ultra-low field nuclear magnetic resonance: A new MRI regime. Oxford, New York: Oxford University Press 2014.

Lai C-M, House WV, Lauterbur PC. Nuclear magnetic resonance for medical imaging. In: IEEE/ERA: Technology for non-invasive monitoring of physiological phenomena. Electro/78. Proceedings. Boston, 25 May 1978. 1-15.

Marabotto R, Bertora L, Modica M, Nardelli D, Damiani D, Grasso G, Carrozzi C. Development of a new MgB2 superconducting open MRI magnet. Magn Reson Med 2006, 14: 1376 (conference abstract).

Moser E, Laistler E, Schmitt F, Kontaxis G. ultrahigh field NMR and MRI — the role of magnet technology to increase sensitivity and specificity. Frontiers in Physics 2017; 5: 33 — 1-15.

Pattany PM. 3T MR imaging: The pros and cons. Editorial. AJNR Am J Neuroradiol 2004; 25: 1455-1456.

Rinck P. Smashing the magnetic field strength dogma — MRI: an unexpected change. Rinckside 2021 (ISSN 2364-3889); 32,1: 1-3. [Direct Access].

Roemer PB, Edelstein WA, Hayes CE, Souza SP, Mueller OM. The NMR phased array. Magn Reson Med 1990; 16: 192-225.

Sarracanie M, LaPierre CD, Salameh N, Waddington, Witzel T, Rosen MS. Low-cost high-performance MRI. (Nature) Sci Rep 2015; 15,5:15177. 1-9. doi: 10.1038/srep15177.

Shao Y, Cherry SR, Farahani K, Meadors K, Siegel S, Silverman RW, Marsden PK. Simultaneous PET and MR imaging. Phys Med Biol 1997; 42,10: 1965-1970.

Tkach JA, Li Y, Pratt RG, Baroch KA, Loew W, Daniels BR, Giaquinto RO, Merhar SL, Kline-Fath BM, Dumoulin CL. Characterization of acoustic noise in a neonatal intensive care unit MRI system. Pediatr Radiol 2014; 44: 1011-1019.

Wood R, Bassett K, Foerster V, Spry C, Tong L. 1.5 Tesla magnetic resonance imaging scanners compared with 3.0 Tesla magnetic resonance imaging scanners: Systematic review of clinical effectiveness. Canadian Agency for Drugs and Technologies in Health CADTH Technol Overv. 2012; 2 (2): e2201.

Chapter 4

Anonymous | EEC. Protocols and test objects for the assessment of MRI equipment. EEC Concerted Research Project. Magn Reson Imaging. 1988; 6(2): 195-199.

Auger D, Pennell DJ. Cardiac complications in thalassemia major. Ann N Y Acad Sci 2016; 1368: 56-64 [review].

Barbosa S, Blumhardt LD, Roberts N, Lock T, Edwards RH. Magnetic resonance relaxation time mapping in multiple sclerosis: normal appearing white matter and the ‘invisible’ lesion load. Magn Reson Imaging 1994; 12: 33-42.

Boesiger P, Greiner R, Schoepflin RE, Kann R, Kuenzi U. Tissue characterization of brain tumors during and after pion radiation therapy. Magn Reson Imaging 1990; 8: 491-497.

Bojorquez JZ, Bricq S, Acquitter C, Brunotte F, Walker PM, Lalande A. What are normal relax­ation times of tissues at 3 T? Magn Reson Imag­ing. 2017; 35: 69-80.

Bottomley PA, Foster TH, Argersinger RE, Pfeifer LM. A review of normal tissue hydrogen NMR relaxation times and relaxation mechanisms from 1-100 MHz: dependence on tissue type, NMR frequency, temperature, species, excision, and age. Med Phys 1984; 11: 425-448. [Direct Access]

Bottomley PA, Hardy CJ, Argersinger RE, Allen-Moore G. A review of 1H nuclear magnetic resonance relaxation in pathology: are T1 and T2 diagnostic? Med Phys 1987; 14: 1-37.

Broche LM, Ross PJ, Davies GR, MacLeod M-J, Lurie DJ. A whole-body Fast Field-Cycling scanner for clinical molecular imaging studies. Sci Rep. 2019 Jul 18; 9(1): 10402. doi: 10.1038/s41598-019-46648-0.

Carr HY, Purcell EM. Effects of diffusion on free precession in nuclear magnetic resonance experiments. Phys Rev 1954; 94: 630-638

Damadian R. Tumor detection by nuclear magnetic resonance. Science 1971; 171: 1151-1153.

Deichmann R, Hahn D, Haase A. Fast T1 mapping on a whole-body scanner. Magn Reson Med 1999; 42: 206-209.

Fischer HW, Van Haverbeke Y, Rinck PA, Schmitz-Feuerhake I, Muller RN. The effect of aging and storage conditions on excised tissues as monitored by longitudinal relaxation dispersion profiles. Magn Reson Med 1989; 9: 315-324. [Direct Access].

Fischer HW, Rinck PA, van Haverbeke Y, and Muller RN. Nuclear relaxation of human brain gray and white matter: analysis of field dependence and implications for MRI. Magn Res Med 1990; 16: 317-334. [Direct Access].

Graumann R, Barfuss H, Fischer H, Hentschel D, Oppelt A. TOMROP: a sequence for determining the longitudinal relaxation time T1 in magnetic resonance tomography. Electromedica 1987; 55: 67-72.

Jensen KE, Sorensen PG, Thomsen C, Christoffersen P, Henriksen O, Karle H. Prolonged T1 relaxation of the hemopoietic bone marrow in patients with chronic leukemia. Acta Radiol 1990; 31: 445-448.

Keenan KE, Gimbutas Z, Dienstfrey A, et al. Multi-site, multi-platform comparison of MRI T1 measurement using the system phantom. PloS ONE. 2021; 16(6): e0252966. journal.pone.0252966

Koenig SH Brown III RD. The importance of the motion of water in biomedical NMR. in: Rinck PA, Muller RN, Petersen SB. An introduction to biomedical nuclar magnetic resonance. Stuttgart, New York: Thieme Publishers. 1985; 50-58.

Koenig SH. Theory of relaxation of mobile water protons induce by protein NH moieties, with application to rat heart muscle and calf lens homogenenates. Biophys J. 1988; 53(1): 91-96.

Lacomis D, Osbakken M, Gross G. Spin-lattice relaxation (T1) times of cerebral white matter in multiple sclerosis. Magn Reson Med 1986; 3: 194-202.

Lee JH. PURR-TURBO: a novel pulse sequence for longitudinal relaxographic imaging. Magn Reson Med. 2000; 43:773-777.

Lerski RA, McRobbie DW, Straughan K, Walker PM, de Certaines JD, Bernard AM. Multi-center trial with protocols and prototype test objects for the assessment of MRI equipment. EEC Concerted Research Project. Magn Reson Imaging 1988; 6(2): 201-214.

Look DC, Locker DR. Pulsed NMR by tone-burst generation. J Chem Phys 1969; 50: 2269-2270.

Meiboom S, Gill L. Proton relaxation in water. Rev Sci Instrum 1958; 29: 688

Messroghli DR, Radjenovic A, Kozerke S, Higgins DM, Sivananthan MU, Ridgway JP. Modified Look-Locker inversion recovery (MOLLI) for high-resolution T1 mapping of the heart. Magn Reson Med 2004; 52: 141–146.

Odeblad E, Lindström G. Some preliminary observations on the proton magnetic resonance in biological samples. Acta Radiol 1955; 43: 469-476

Piechnik SK, Ferreira VM, Dall’Armellina E, Cochlin LE, Greiser A, Neubauer S, Robson MD. Shortened modified Look-Locker inversion recovery (ShMOLLI) for clinical myocardial T1-mapping at 1.5 and 3 T within a 9 heartbeat breathhold. J Cardiovasc Magn Reson. 2010; 12: 69.

Rinck PA, Appel B, Moens E. Relaxationszeitmessung der weissen und grauen Substanz bei Patienten mit multipler Sklerose. RöFo - Fortschritte Röntgenstr 1987; 147: 661-663.

Rinck PA, Fischer HW, Vander Elst L, Van Haverbeke Y, Muller RN. Field-cycl­ing re­la­xo­me­try: me­di­cal ap­pli­ca­tions. Radiology 1988; 168: 843-849. [Direct Access].

Rinck PA, Meindl S, Higer HP, Bieler EU, Pfannenstiel P. Brain tumors: detection and typing by use of CPMG sequences and in vivo T2 measurements. Radiology 1985; 157: 103-106.

Skalej M, Higer HP, Meves M, Brückner A, Bielke G, Meindl S, Rinck P, Pfannenstiel P. T2-Analyse normaler und pathologischer Strukturen des Kopfes. Digit Bilddiagn 1985; 5: 112-119.

Springer Jr. CS, Li X, Tudorica LA, Oh KY, Roy N, Chui SYC, Naik AM, Holtorf ML, Afzal A, Rooney WD, Huang W. Intratumor mapping of intracellular water lifetime: metabolic images of breast cancer? NMR Biomed. 2014; 27: 760–773.

Torheim G, Rinck PA, Jones RA, Kværness J. A simulator for teaching MR image contrast behavior. Magn Res Materials 1994; 2: 515-522. [Direct Access/Abstract].

Torheim G, Rinck PA. MR Image Expert - interactively teaching contrast behavior in magnetic resonance imaging. In: Lemke HU, Vannier MW, Inamura K, Farman AG (eds.): Computer Assisted Radiology, CAR '96. Amsterdam: Excerpta Medica 1996, 619.

Zhang X, Zhang F, Lu L, Li H, Wen X, ShenJ. MR imaging and T2 measurements in peripheral nerve repair with activation of Toll-like receptor 4 of neurotmesis. Eur Radiol 2014; 24: 1145–1152.

Zur Y, Wood ML, Neuringer LJ. Spoiling of transverse magnetization in steady-state sequences. Magn Reson Med. 1991; 21: 251–263.