Валеология: Здоровье, Болезнь, Выздоровление. 2020; : 60-71
ИСТОРИЯ РАЗВИТИЯ ЛУЧЕВЫХ МЕТОДОВ ИССЛЕДОВАНИЯ, СПОСОБСТВОВАВШИХ ДИАГНОСТИКЕ ЛЕГОЧНОЙ ГИПЕРТЕНЗИИ
Аннотация
В обзорной статье изучены открытие и развитие основных радиологических методов исследования, применяющихся в диагностике легочной гипертензии. Полученные данные демонстрируют преимущества тех или иных методов диагностике и применение их в клинической практике.
Список литературы
1. «2015 ESC/ERS Guidelines for the diagnosis and treatment of pulmonary hypertension: The Joint Task Force for the Diagnosis and Treatment of Pulmonary Hypertension of the European Society of Cardiology (ESC) and the European Respiratory Society (ERS)Endorsed by: Association for European Paediatric and Congenital Cardiology (AEPC), International Society for Heart and Lung Transplantation (ISHLT)», Eur. Heart J., с. ehv 317, 2015.
2. Freed B. H., Collins J. D., François C. J., Barker A. J., Cuttica M. J., Chesler N. C., Markl M., Shah S. J. MR and CT Imaging for the Evaluation of Pulmonary Hypertension. JACC Cardiovasc Imaging. 2016 Jun; 9; (6): 715-32.
3. Meyer J. A. Werner Forssmann and catheterization of the heart, 1929. Ann Thorac Surg. 1990 Mar; 49 (3): 497-9.
4. Cournand A. F. Ranges H. S. Catheterization of the right auricle in men // Proc. Soc. Exp. Med. 1941. Vol 46. P. 462.
5. Richards D. W. Cardiac output by the catheterization technique in various clinical conditions // Fed. Proc. 1945. - Vol. 4. P. 215.
6. Röntgen W. C. On a new kind of rays. Science 1896; 3 (59): 227–231.
7. Ludwig G. D., Struthers F. W. Considerations underlying the use of ultrasound to detect gallstones and foreign bodies in tissue. Naval Medical Research Institute Reports, Project #004 001, Report No. 4, June 1949.
8. Richmond C. Obituary. Sir Godfrey Hounsfield. BMJ 2004; 329 (7467): 687.
9. Damadian R. V. Tumor detection by nuclear magnetic resonance. Science 1971; 171 (3976): 1151–1153.
10. Lauterbur P. C. Image formation by induced local interactions: examples of employing nuclear magnetic resonance. Nature 1973; 242 (5394): 190–191.
11. Swartz H. M., Wiesner J. Radiation effects on plasma electron-spin-resonance (ESR) spectra of cancer patients. Radiology 1972; 104 (1): 209–210.
12. Wolff S., Crooks L. E., Brown P., Howard R., Painter R. B. Tests for DNA and chromosomal damage induced by nuclear magnetic resonance imaging. Radiology 1980; 136 (3): 707–710.
13. Hansen G., Crooks L. E., Davis P., et al. In vivo imaging of the rat anatomy with nuclear magnetic resonance. Radiology 1980; 136 (3): 695–700.
14. Crooks L., Hoenninger J., Arakawa M., et al. Tomography of hydrogen with nuclear magnetic resonance. Radiology 1980; 136 (3): 701–706.
15. Evens R. G. Nuclear magnetic resonance: another new frontier for radiology? Radiology 1980; 136 (3): 795–796.
16. Brant-Zawadzki M. MR imaging of the brain. Radiology 1988; 166 (1 Pt 1): 1–10.
17. Felix R., Schörner W., Laniado M., et al. Brain tumors: MR imaging with gadolinium-DTPA. Radiology 1985; 156 (3): 681–688.
18. Gomori J. M., Grossman R. I., Goldberg H. I., Zimmerman R. A., Bilaniuk L. T. Intracranial hematomas: imaging by high-field MR. Radiology 1985; 157 (1): 87–93.
19. Lee B. C., Deck M. D. Sellar and juxtasellar lesion detection with MR. Radiology 1985; 157 (1): 143–147.
20. Modic M. T., Weinstein M. A., Pavlicek W., et al. Nuclear magnetic resonance imaging of the spine. Radiology 1983; 148 (3): 757–762.
21. Ross J. S., O’Donovan P. B., Novoa R., et al. Magnetic resonance of the chest: initial experience with imaging and in vivo T 1 and T 2 calculations. Radiology 1984; 152 (1): 95–101.
22. Heywang S. H., Wolf A., Pruss E., Hilbertz T., Eiermann W., Permanetter W. MR imaging of the breast with Gd-DTPA: use and limitations. Radiology 1989; 171 (1): 95–103.
23. Chezmar J. L., Rumancik W. M., Megibow A. J., Hulnick D. H., Nelson R. C., Bernardino M. E. Liver and abdominal screening in patients with cancer: CT versus MR imaging. Radiology 1988; 168 (1): 43–47.
24. Heiken J. P., Lee J. K.. MR imaging of the pelvis. Radiology 1988; 166 (1 Pt 1): 11–16.
25. Lee J. K., Gersell D. J., Balfe D. M., Worthington J. L., Picus D., Gapp G. The uterus: in vitro MR-anatomic correlation of normal and abnormal specimens. Radiology 1985; 157 (1): 175–179.
26. Today’s MRI market. Magnetica Ltd. http://www.magnetica.com/page/innovation/todays-mri-market/. Published 2011. Accessed March 1, 2014.
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29. Alfidi R. J., Haaga J. R., El-Yousef S. J., et al. Preliminary experimental results in humans and animals with a superconducting, wholebody, nuclear magnetic resonance scanner. Radiology 1982; 143 (1): 175–181.
30. Hendrick R. E. The AAPM/RSNA physics tutorial for residents. Basic physics of MR imaging: an introduction. Radiographics 1994; 14: 829-46.
31. Pennell D. J., Sechtem U. P., Higgins C. B., et al. Clinical indications for cardiovascular magnetic resonance (CMR): Consensus Panel report. Eur Heart J 2004; 25: 1940-65.
32. Feigenbaum H. History of echocardiography [monograph on the Internet; cited 2005 Jul. 21].
33. Curie P., Curie J. Developpement, par pression de l'electricite polaire dans les cristaux hemiedres a faces inclinees. Comptes Rendus 1880; 91: 291–5.
34. Sokolov S. Y., inventor. Means for indicating flaws in materials. United States patent US 2164125. 1937.
35. Firestone F. A., inventor. Flaw detecting device and measuring instrument. United States patent US 1280226. 1942.
36. Edler I., Lindstrom K. The history of echocardiography. Ultrasound Med Biol 2004; 30: 1565–644.
37. Dussik K. T. On the possibility of using ultrasound waves as a diagnostic aid. Neurol Psychiat 1942; 174: 153–68.
38. Nilsson J., Westling H. Ultrasound in Lund–three world premieres. Clin Physiol Funct Imaging 2004; 24: 137–40.
39. Feigenbaum H. Evolution of echocardiography. Circulation 1996; 93: 1321–7.
40. Siemens celebrates 50th anniversary of echocardiography [news release on the Internet]. PR Newswire Association LLC; c 1996-2007 [2003 Mar 30; cited 2005 Jul 23].
41. Woo J. S. K. A short history of the development of ultrasound in obstetrics and gynecology [homepage on the Internet]. c 1998-2002 [updated 2006 Nov; cited 2005 Jul 23].
42. Edler I., Hertz C. H. The use of ultrasonic reflectoscope for the continuous recording of the movements of heart walls. 1954. Clin Physiol Funct Imaging 2004; 24: 118–36.
Valeology: Health - Illnes - recovery. 2020; : 60-71
THE HISTORY OF THE DEVELOPMENT OF RADIATION RESEARCH METHODS THAT CONTRIBUTED TO THE DIAGNOSIS OF PULMONARY HYPERTENSION
Abstract
The review article, the discovery and development of the main radiological research methods used in the diagnosis of pulmonary hypertension. The data obtained demonstrate the advantages of various diagnostic methods and their application in clinical practice.
References
1. «2015 ESC/ERS Guidelines for the diagnosis and treatment of pulmonary hypertension: The Joint Task Force for the Diagnosis and Treatment of Pulmonary Hypertension of the European Society of Cardiology (ESC) and the European Respiratory Society (ERS)Endorsed by: Association for European Paediatric and Congenital Cardiology (AEPC), International Society for Heart and Lung Transplantation (ISHLT)», Eur. Heart J., s. ehv 317, 2015.
2. Freed B. H., Collins J. D., François C. J., Barker A. J., Cuttica M. J., Chesler N. C., Markl M., Shah S. J. MR and CT Imaging for the Evaluation of Pulmonary Hypertension. JACC Cardiovasc Imaging. 2016 Jun; 9; (6): 715-32.
3. Meyer J. A. Werner Forssmann and catheterization of the heart, 1929. Ann Thorac Surg. 1990 Mar; 49 (3): 497-9.
4. Cournand A. F. Ranges H. S. Catheterization of the right auricle in men // Proc. Soc. Exp. Med. 1941. Vol 46. P. 462.
5. Richards D. W. Cardiac output by the catheterization technique in various clinical conditions // Fed. Proc. 1945. - Vol. 4. P. 215.
6. Röntgen W. C. On a new kind of rays. Science 1896; 3 (59): 227–231.
7. Ludwig G. D., Struthers F. W. Considerations underlying the use of ultrasound to detect gallstones and foreign bodies in tissue. Naval Medical Research Institute Reports, Project #004 001, Report No. 4, June 1949.
8. Richmond C. Obituary. Sir Godfrey Hounsfield. BMJ 2004; 329 (7467): 687.
9. Damadian R. V. Tumor detection by nuclear magnetic resonance. Science 1971; 171 (3976): 1151–1153.
10. Lauterbur P. C. Image formation by induced local interactions: examples of employing nuclear magnetic resonance. Nature 1973; 242 (5394): 190–191.
11. Swartz H. M., Wiesner J. Radiation effects on plasma electron-spin-resonance (ESR) spectra of cancer patients. Radiology 1972; 104 (1): 209–210.
12. Wolff S., Crooks L. E., Brown P., Howard R., Painter R. B. Tests for DNA and chromosomal damage induced by nuclear magnetic resonance imaging. Radiology 1980; 136 (3): 707–710.
13. Hansen G., Crooks L. E., Davis P., et al. In vivo imaging of the rat anatomy with nuclear magnetic resonance. Radiology 1980; 136 (3): 695–700.
14. Crooks L., Hoenninger J., Arakawa M., et al. Tomography of hydrogen with nuclear magnetic resonance. Radiology 1980; 136 (3): 701–706.
15. Evens R. G. Nuclear magnetic resonance: another new frontier for radiology? Radiology 1980; 136 (3): 795–796.
16. Brant-Zawadzki M. MR imaging of the brain. Radiology 1988; 166 (1 Pt 1): 1–10.
17. Felix R., Schörner W., Laniado M., et al. Brain tumors: MR imaging with gadolinium-DTPA. Radiology 1985; 156 (3): 681–688.
18. Gomori J. M., Grossman R. I., Goldberg H. I., Zimmerman R. A., Bilaniuk L. T. Intracranial hematomas: imaging by high-field MR. Radiology 1985; 157 (1): 87–93.
19. Lee B. C., Deck M. D. Sellar and juxtasellar lesion detection with MR. Radiology 1985; 157 (1): 143–147.
20. Modic M. T., Weinstein M. A., Pavlicek W., et al. Nuclear magnetic resonance imaging of the spine. Radiology 1983; 148 (3): 757–762.
21. Ross J. S., O’Donovan P. B., Novoa R., et al. Magnetic resonance of the chest: initial experience with imaging and in vivo T 1 and T 2 calculations. Radiology 1984; 152 (1): 95–101.
22. Heywang S. H., Wolf A., Pruss E., Hilbertz T., Eiermann W., Permanetter W. MR imaging of the breast with Gd-DTPA: use and limitations. Radiology 1989; 171 (1): 95–103.
23. Chezmar J. L., Rumancik W. M., Megibow A. J., Hulnick D. H., Nelson R. C., Bernardino M. E. Liver and abdominal screening in patients with cancer: CT versus MR imaging. Radiology 1988; 168 (1): 43–47.
24. Heiken J. P., Lee J. K.. MR imaging of the pelvis. Radiology 1988; 166 (1 Pt 1): 11–16.
25. Lee J. K., Gersell D. J., Balfe D. M., Worthington J. L., Picus D., Gapp G. The uterus: in vitro MR-anatomic correlation of normal and abnormal specimens. Radiology 1985; 157 (1): 175–179.
26. Today’s MRI market. Magnetica Ltd. http://www.magnetica.com/page/innovation/todays-mri-market/. Published 2011. Accessed March 1, 2014.
27. Chapter twenty-one: facts and figures. European Magnetic Resonance Forum. http://www.magnetic-resonance.org/ch/21-01. html. Published 2014. Accessed DATE.
28. Blamire A. M. The technology of MRI: the next 10 y. Br J Radiol 2008; 81 (968): 601–617.
29. Alfidi R. J., Haaga J. R., El-Yousef S. J., et al. Preliminary experimental results in humans and animals with a superconducting, wholebody, nuclear magnetic resonance scanner. Radiology 1982; 143 (1): 175–181.
30. Hendrick R. E. The AAPM/RSNA physics tutorial for residents. Basic physics of MR imaging: an introduction. Radiographics 1994; 14: 829-46.
31. Pennell D. J., Sechtem U. P., Higgins C. B., et al. Clinical indications for cardiovascular magnetic resonance (CMR): Consensus Panel report. Eur Heart J 2004; 25: 1940-65.
32. Feigenbaum H. History of echocardiography [monograph on the Internet; cited 2005 Jul. 21].
33. Curie P., Curie J. Developpement, par pression de l'electricite polaire dans les cristaux hemiedres a faces inclinees. Comptes Rendus 1880; 91: 291–5.
34. Sokolov S. Y., inventor. Means for indicating flaws in materials. United States patent US 2164125. 1937.
35. Firestone F. A., inventor. Flaw detecting device and measuring instrument. United States patent US 1280226. 1942.
36. Edler I., Lindstrom K. The history of echocardiography. Ultrasound Med Biol 2004; 30: 1565–644.
37. Dussik K. T. On the possibility of using ultrasound waves as a diagnostic aid. Neurol Psychiat 1942; 174: 153–68.
38. Nilsson J., Westling H. Ultrasound in Lund–three world premieres. Clin Physiol Funct Imaging 2004; 24: 137–40.
39. Feigenbaum H. Evolution of echocardiography. Circulation 1996; 93: 1321–7.
40. Siemens celebrates 50th anniversary of echocardiography [news release on the Internet]. PR Newswire Association LLC; c 1996-2007 [2003 Mar 30; cited 2005 Jul 23].
41. Woo J. S. K. A short history of the development of ultrasound in obstetrics and gynecology [homepage on the Internet]. c 1998-2002 [updated 2006 Nov; cited 2005 Jul 23].
42. Edler I., Hertz C. H. The use of ultrasonic reflectoscope for the continuous recording of the movements of heart walls. 1954. Clin Physiol Funct Imaging 2004; 24: 118–36.
