2MRI 1Computer Tomography References

1 Computer Tomography

1.1 Radon J

Über die Bestimmung von Funktionen durch ihre Integralwerte längs gewisser Mannigfaltigkeiten.

Reprinted with permission. Ber. Sächs. Akad. Wiss 69: 262-277, 1917.

© 1917 Saxon Academy of Science

1.2

Cormack AM

Representation of a function by its line integrals, with some radiological applications.

Reprinted with permission. Journal Applied Physics 34: 2722-2727, 1964.

© 1964 American Institute of Physics

1.3

Hounsfield GN

Computerized transverse axial scanning (tomography). Part I. Description of system.

Reprinted with permission. British Journal of Radiology 46: 1016-1022, 1973.

© 1973 British Institute of Radiology

1.4 Ambrose J

Computerized transverse axial scanning (tomography). Part II.

Clinical application.

Reprinted with permission. British Journal of Radiology 46: 1023-1047: 1973.

© 1973 British Institute of Radiology

1.5

Kalender WA, Seißler W, Klotz E, Vock P

Spiral volumetric CT with single-breathhold technique, continuous transport, and continuous scanner rotation.

Reprinted with permission. Radiology 176: 181-183, 1990.

© 1990 Radiological Society of North America

2 MRI

2.1

Rabi II, Cohen VW

Measurement of nuclear spin by the method of molecular beams.

The nuclear spin of sodium.

Reprinted with permission. Physical Review 46: 707-712, 1934.

© 1934 American Physical Society

References

2.2

Bloch F, Hansen WW, Packard ME Nuclear Induction.

Reprinted with permission. Physical Review 69: 127, 1946.

© 1946 American Physical Society

2.3

Purcell EM, Torrey HC, Pound RV

Resonance absorption by nuclear magnetic moments in a solid.

Reprinted with permission. Physical Review 69: 37-38, 1946.

© 1946 American Physical Society

2.4

Damadian RV

Tumor detection by nuclear magnetic resonance.

Reprinted with permission. Science 171: 1151-1153, 1971.

© 1971 AAAS

2.5

Lauterbur PC

Image Foundation by induced local interactions: Example employing nuclear magnetic resonance.

Reprinted with permission. Nature 242: 190-191, 1973.

© 1973 NPG

2.6

Mansfield P, Maudsley AA Planar spin imaging by NMR.

Reprinted with permission.

J. Phys. C: Solid State Phys. 9 No 15: L409-L412, 1976.

© 1976 Institute of Physics and IOP Publishing Limited

2.7

Mansfield P, Maudsley AA Medical imaging by NMR.

Reprinted with permission. Brit Jour of Radiol 50: 188-194, 1977.

© 1977 British Institute of Radiology

2.8

Mansfield P, Pykett IL, Morris PG, Coupland RE Human whole body line scan imaging by NMR.

Reprinted with permission. Brit Jour Radiol 51: 921-922, 1978.

© 1978 British Institute of Radiology

2.9

Young IR, Hall AS, Pallis CA et al.

NMR imaging of the brain in multiple sclerosis.

Reprinted with permission. The Lancet ii: 1063-1066, 1981.

© 1981 Lancet Publishing Group (Elsevier)

2.10

Bydder GM, Young IR

MRI: Clinical use of the inversion recovery sequence.

Reprinted with permission. J Computer Assisted Tomography 9: 659-75, 1985.

© 1985 Lippincott Williams & Wilkins

3 Ultrasound

3.1 Dussik KT

Über die Möglichkeit, hochfrequente mechanische Schwingungen als diagnostisches Mittel zu verwerten.

Reprinted with permission. Zeitschrift gesamte Neurologie und Psychiatrie 174: 153-168, 1942.

© Springer-Verlag, Berlin Heidelberg

3.2

Wild JJ, Reid JM

Application of echo-ranging techniques to the determination of structure of biological tissues.

Reprinted with permission. Science 115: 226-230, 1952.

© 1952 AAAS

3.3

Edler I, Hertz CH

The use of ultrasonic Reflectoscope for the continuous recording of the movements of heart walls.

Reprinted with permission. Kungl. Fysiografiska Sällskapet I Lund Förhand-lingar 24: 1-19, 1954.

© 1954 Kungl. Fysiografiska Sällskapets I Lund

3.4

Holmes JH, Howry DH, Posakony GJ, Cushman CR

The ultrasonic visualization of soft tissue structures in the human body.

Reprinted with permission. Trans. Am. Clin. Climatol. Assoc. 66: 208-223, 1954.

© 1954 ACCA

3.5

Donald I, MacVicar J, Brown TG

Investigation of Abdominal Masses by Pulsed Ultrasound.

Reprinted with permission. The Lancet i: 1188-1195, 1958.

© 1958 Lancet Publishing Group (Elsevier)

3.6 Satomura S

Ultrasonic Doppler method for the inspection of cardiac functions.

Reprinted with permission. J. Acoust Soc. Amer. 29: 1181–1185, 1957.

© 1957 Acoustical Society Of America

3.7

Hofmann D, Holländer H-J, Weiser P

Neue Möglichkeiten der Ultraschalldiagnostik in der Gynäkologie und Geburtshilfe.

Reprinted with permission. Fortschritte der Medizin 84,18: 689-693, 1966.

© 1966 MMW

3.8 Campbell S

The prediction of fetal maturity by ultra-sonic measurement of the biparietal diameter.

Reprinted with permission. J Obstet Gynecol Br Cwlth 76: 603–609, 1969.

© 1969 BJOG The Royal College of Obstetricians and Gynaecologists

3.9

Baba K, Satoh K, Sakamoto S, Okai T, Ishii S

Development of an ultrasonic system for three-dimensional reconstruction of the fetus.

Reprinted with permission. J Perinat. Med. 17: 19-24, 1989.

© 1989 Walter De Gruyter

4 Digital Imaging

4.1

Brennecke R, Brown TK, Bürsch JH, Heintzen PH

Digital Processing of Videoangiocardiographic Image Series.

Reprinted with permission. Computers in Cardiology: 255-260, 1976.

© IEEE Computer Sciences

4.2

Kruger RA, Mistretta CA, Riederer SJ, Shaw CG et al.

Computerized fluoroscopy in real time for noninvasive visualization of the cardiovascular system. Preliminary studies.

Reprinted with permission. Radiology 130: 49-57, 1979.

© 1979 Radiological Society of North America

4.3

Ovitt TW, Christenson PC, Fisher HD 3rd, Frost MM, Nudelman S, Roehrig H Intravenous angiography using digital video subtraction:

x-ray imaging system.

Reprinted with permission. Am J Roentgenol 135(6): 379-386, 1980.

© 1980 American Roentgen Ray Society

4.4

Sonoda M, Takano M, Miyahara J, Kato H

Computed radiography utilizing scanning laser stimulated luminescence.

Reprinted with permission. Radiology 148: 833-838, 1983.

© 1983 Radiological Society of North America

4.5

Fraser RG, Breatnach E, Barnes GT

Digital radiography of the chest: clinical experiences with a prototype unit.

Reprinted with permission. Radiology 148: 1-5, 1983.

© 1983 Radiological Society of North America

4.6

Lee DL, Cheung LK, Jeromin LS

A new digital detector for projection radiography.

Reprinted with permission. Proc SPIE 2432: 237-247, 1995.

© 1995 The International Society for Optical Engineering

4.7

Zhao W, Rowlands JA

X-ray imaging using amorphous selenium: Feasibility of a flat panel self-scanned detector for digital radiology.

Reprinted with permission. Medical Physics 22: 1595-1604, 1995.

© 1995 American Association of Physicists in Medicine

5 PACS

5.1

Lemke HU, Stiehl HS, Scharnweber H, Jackél D

Applications of Picture Processing, Image Analysis Computer Graphics Techniques to Cranial CT Scans. Proceedings of the Sixth Conf.

on Computer Applications in Radiology and Computer Aided Analysis of Radiological Images.

Reprinted with permission. IEEE Computer Society Press 341-354, 1979.

© 1979 Institute of Electrical and Electronics Engineers

5.2

Parker JA, Royal HD, Uren RF, Front D, Bliss JG, Rabussi M, Jansons D, Kolodny MS, Kolodny GM

An All-digital Nuclear Medicine Department.

Reprinted with permission. Radiology 147: 237-240, 1983.

© 1983 Radiological Society of North America

5.3

Huang HK, Barbaric Z, Mankovich NJ, Moler C

Digital Radiology at the University of California, Los Angeles:

A Feasibility Study.

Reprinted with permission. Proc. SPIE 418: 259-265, 1983.

© The International Society for Optical Engineering

5.4

Levine BA, Mun SK, Benson HR, Horii SC

Assessment of the Integration of HIS/RIS with a PACS.

Reprinted with permission. Proc SPIE 1234: 391-397, 1990.

© 1990 The International Society for Optical Engineering

5.5

Horii SC et al.

Environmental Designs for Reading. Imaging Workstations:

Ergonomic and Architectural Features.

Reprinted with permission Proc. SPIE 1091: 172-178, 1989.

© 1989 The International Society for Optical Engineering

6 Contrast Agents

6.1 Almén T

Contrast agent design. Some aspects on the synthesis of water-soluble contrast agents of low osmolality.

Reprinted with permission. Journal of Theoretical Biology 24: 216-226, 1969.

© 1969 Elsevier

6.2 Almén T

Development of nonionic contrast media.

Reprinted with permission. Investigative Radiology 20: S2-S9, 1985.

© 1985 Lippincott Williams & Wilkins

6.3

Carr DH, Brown J, Bydder GM, Weinmann H-J, Speck U, Thomas DJ, Young IR Intravenous chelated gadolinium as a contrast agent in NMR imaging of cerebral tumours.

Reprinted with permission. The Lancet i: 484-486, 1984.

© 1984 Lancet Publishing Group (Elsevier)

6.4

Weinmann HJ, Brasch RC, Press WR, Wesbey GE

Characteristics of gadolinium-DTPA complex: a potential NMR contrast agent.

Reprinted with permission. AJR 142: 619-624, 1984.

© 1984 American Roentgen Ray Society

6.5

Brasch RC, Weinmann HJ, Wesbey GE

Contrast-enhanced NMR imaging: animal studies using gadolinium-DTPA complex.

Reprinted with permission. AJR 142: 625-630, 1984.

© 1984 American Roentgen Ray Society

7 Interventional Radiology

7.1

Seldinger SI

Catheter replacement of the needle in percutaneous arteriography:

A new technique.

Reprinted with permission. Acta radiol. 39: 368-376, 1953.

© 1953 Taylor & Francis Group

7.2

Goodwin WE, Casey WC, Woolf W

Percutaneous trocar (needle) nephrostomy in hydronephrosis.

Reprinted with permission. JAMA 157: 891-894, 1955.

© 1955 American Medical Association

7.3

Sones FM, Shirey EK, Proudfit WL, Westcott R Cine coronary arteriography.

Reprinted with permission. Circulation 20: 773-774, 1959.

© 1959 American Heart Association

7.4

Margulis AR, Heinbecker P Mesenteric Arteriography.

Reprinted with permission. AJR 86: 103-113, 1961.

© 1961 American Roentgen Ray Society

7.5

Dotter CT, Judkins MP

Transluminal treatment of arteriosclerotic obstruction:

description of a new technique and a preliminary report of its application.

Reprinted with permission. Circulation 30: 654-670, 1964.

© 1964 American Heart Association

7.6 Judkins MP

Selective coronary arteriography.

Reprinted with permission. Radiology 89: 815-824, 1967.

© 1967 Radiological Society of North America

7.7

Burhenne HJ

Non-operative retained biliary tract stone extraction.

A new roentgenologic technique.

Reprinted with permission. AJR 117 (2): 388-399, 1973.

© 1973 American Roentgen Ray Society

7.8

Grüntzig AR, Hopff H

Perkutane Rekanalisation chronischer arterieller Verschlüsse mit einem neuen Dilatationskatheter.

Reprinted with permission. Dtsch. Med. Wschr. 99: 2502-2505, 1974.

© 1974 Georg Thieme Verlag

7.9

Grüntzig AR

Transluminal dilatation of coronary-artery stenosis.

Reprinted with permission. The Lancet ii: 263, 1978.

© 1978 Lancet Publishing Group (Elsevier)

7.10

Müller PR, van Sonnenberg E, Ferrucci JT

Percutaneous biliary drainage, technical and catheter - related problems in 200 procedures.

Reprinted with permission. AJR 138 (1): 17-23, 1982.

© 1982 American Roentgen Ray Society

7.11

Palmaz JC, Sibbitt RR, Reuter SR et al.

Expandable intrahepatic portacaval shunt stents: early experience in the dog.

Reprinted with permission. AJR 145: 821-825, 1985.

© 1985 American Roentgen Ray Society

7.12

Sigwart U, Puel J et al.

Intra vascular stents to prevent occlusions and restenosis after transluminal angioplasty

Reprinted with permission. NEJM 316: 701-706, 1987.

© 1987 Massachusetts Medical Society

8 Mammography

8.1 Leborgne R

Diagnóstico de los tumores de la mama por la radiografia simple.

Reprinted with permission. Boletin de la Sociedad de Cirugia del Uruguay 20: 407-422, 1949.

© 1949 Sociedad de Cirugia del Uruguay

8.2

Gros CM, Sigrist R

La radiographie de la glande mammaire.

Reprinted with permission. J Belge Radiologie 35: 226-268, 1952.

© 1952 M Pacquet

8.3 Egan RL

Experience with mammography in tumor institution:

evaluation of 1000 studies.

Reprinted with permission. Radiology 75: 894-900, 1960.

© 1960 Radiological Society of North America

8.4

Shapiro S, Strax P, Venet L

Evaluation of periodic breast cancer screening with mammography.

Methodology and early observations.

Reprinted with permission. JAMA 195 (9) (1966): 731–738

© 1966 JAMA

8.5 Wolfe JN

Xerography of the breast.

Reprinted with permission. Radiology 91: 231-240, 1968.

© 1968 Radiological Society of North America

8.6

Tabár L, Fagerberg CJG, Gad A, Baldetorp L, Holmberg LH, Gröntoft O et al.

Reduction in mortality. breast cancer after mass screening with mammography.

Reprinted with permission. The Lancet i: 829-832, 1985.

© 1985 Lancet Publishing Group (Elsevier)

8.7

Smathers RL et al.

Mammographic Microcalcifications: Detection with Xerography, Screen-Film, and Digitized Film Display.

Reprinted with permission. Radiology 159: 673-677, 1986.

© 1986 Radiological Society of North America

8.8

Asaga T, Chiyasu S, Matsuda S, Mastuura H, Kato H, Ishida M, Komaki T Breast imaging: Dual-energy projection radiography with digital radiography.

Reprinted with permission. Radiology 164: 869-870, 1987.

© 1987 Radiological Society of North America

8.9

Parker SH, Lovin JD, Jobe WE, Luethke JM, Hopper KD, Yakes WF, Burke BJ Stereotactic breast biopsy with a biopsy gun.

Reprinted with permission. Radiology 176: 741-747, 1990.

© 1990 Radiological Society of North America