Abstract
The camera described has an optical system consisting of a lead grid collimator with 649 cylindrical channels 130 mm long and 5.5 mm in diameter; a detector consisting of a mosaic of 700 NaI(Tl) crystals with an effective diameter of 5.5 mm, length 20 mm, and a distance of 7.5 mm between the axes; and a light amplification device consisting of an initial image amplifier (No. 9463 of the French Thomson-Houston Company), the photocathode of which is in optical contact with the detector and is itself optically coupled to a second, high-gain light amplifier (P 829A, from English Electric Valve). In accordance with a principle first laid down during the preceding Conference on Medical Isotope Scanning organized by the International Atomic Energy Agency, this second amplifier may also be used as an electronic shutter operated by a photomultiplier which selects the light originating in the radio active source under examination. This device very effectively suppresses the background from the first amplifier tube. With reference to applications, the camera is used for two types of operation: firstly for the activation of the electronic shutter device, the rate of whose opening and shutting may reach 10 kHz; the background is almost entirely
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Kellershohn, C.;
Vernejoul, P. de;
Desgrez, A.;
[1]
Lequais, J.;
Roux, G.;
Lansiart, A.
[2]
- CEA, Service Hospitalier Frederic Joliot, Orsay (France)
- CEA, Centre d'Etudes Nucleaires de Saclay, Gif-Sur-Yvette (France)
Citation Formats
Kellershohn, C., Vernejoul, P. de, Desgrez, A., Lequais, J., Roux, G., and Lansiart, A.
Gamma Camera with Image Amplifier: Application in Nuclear Medicine; Camera Gamma a Amplificateur d'Image: Application en Medecine Nucleaire.
IAEA: N. p.,
1969.
Web.
Kellershohn, C., Vernejoul, P. de, Desgrez, A., Lequais, J., Roux, G., & Lansiart, A.
Gamma Camera with Image Amplifier: Application in Nuclear Medicine; Camera Gamma a Amplificateur d'Image: Application en Medecine Nucleaire.
IAEA.
Kellershohn, C., Vernejoul, P. de, Desgrez, A., Lequais, J., Roux, G., and Lansiart, A.
1969.
"Gamma Camera with Image Amplifier: Application in Nuclear Medicine; Camera Gamma a Amplificateur d'Image: Application en Medecine Nucleaire."
IAEA.
@misc{etde_22116125,
title = {Gamma Camera with Image Amplifier: Application in Nuclear Medicine; Camera Gamma a Amplificateur d'Image: Application en Medecine Nucleaire}
author = {Kellershohn, C., Vernejoul, P. de, Desgrez, A., Lequais, J., Roux, G., and Lansiart, A.}
abstractNote = {The camera described has an optical system consisting of a lead grid collimator with 649 cylindrical channels 130 mm long and 5.5 mm in diameter; a detector consisting of a mosaic of 700 NaI(Tl) crystals with an effective diameter of 5.5 mm, length 20 mm, and a distance of 7.5 mm between the axes; and a light amplification device consisting of an initial image amplifier (No. 9463 of the French Thomson-Houston Company), the photocathode of which is in optical contact with the detector and is itself optically coupled to a second, high-gain light amplifier (P 829A, from English Electric Valve). In accordance with a principle first laid down during the preceding Conference on Medical Isotope Scanning organized by the International Atomic Energy Agency, this second amplifier may also be used as an electronic shutter operated by a photomultiplier which selects the light originating in the radio active source under examination. This device very effectively suppresses the background from the first amplifier tube. With reference to applications, the camera is used for two types of operation: firstly for the activation of the electronic shutter device, the rate of whose opening and shutting may reach 10 kHz; the background is almost entirely eliminated and it is possible with trace doses of conventional radionuclides to obtain images of such organs as the thyroid, liver, kidney, etc., in very short exposure times by comparison with customary scanning; secondly, by utilizing radionuclides of very short half-life with very high activities (of the order of several mCi), it is no longer necessary to effect suppression of the background whose repetition frequency is limited to 10 kHz. One can thus obtain ultrashort exposure times, e.g., about 1/20th of a second for an amount of 10 mCi of {sup 99m}Tc; such exposure times make cinematography possible. Various examples are supplied of applications making use of {sup 99m}Tc, {sup 137m}Ba and {sup 133}Xe in the field of vascular and cardiac haemodynamics as well as pulmonary ventilation. (author) [French] La camera decrite comprend une optique constituee par une grille de plomb collimatrice a 649 canaux cylindriques de 130 mm de longueur et 5,5 mm de diametre, un detecteur constitue par une mosaieque de 700 cristaux de Nal(Tl) d'un diametre utile de 5, 5 mm et d'une longueur de 20 mm avec une distance entre les axes de 7,5 mm, et un dispositif d'amplification de lumiere constitue par un premier amplificateur d'image n Ring-Operator 9463 de la Compagnie francaise Thomson-Houston dont la photocathode est en contact optique avec le detecteur et qui est lui-meme couple optiquement a un deuxieme amplificateur a grand gain de lumiere P829A de English Electric Valve. Suivant un principe expose pour la premiere fois durant la precedente conference organisee par l'Agence internationale de l'energie atomique sur l'exploration medicale (scanning) ce deuxieme amplificateur peut etre egalement utilise comme un obturateur electronique dont l'ouverture est commandee par un photomultiplicateur selectionnant la lumiere ayant pour origine la source radioactive examinee. Ce dispositif elimine tres efficacement le bruit de fond du premier tube amplificateur. Sur le plan des applications la camera est utilisee sous deux regimes de fonctionnement: d'une part,en mettant en jeu le dispositif d'obturation electronique dont la cadence d'ouverture et de fermeture peut atteindre 10 kHz, le bruit de fond est pratiquement elimine et il est possible de realiser avec des doses traceuses de radioelements conventionnels des images d'organes tels que la thyroiede, le foie, le rein, etc. en des temps de pose tres courts par rapport a la scintigraphie habituelle; d'autre part,en utilisant des radioelements a demi-vie effective tres courte a de tres hautes activites, de l'ordre de plusieurs millicuries Inverted-Question-Mark il n'est plus necessaire de mettre en jeu la suppression du bruit de fond et sa frequence de repetition limitee a 10 kHz; on peut alors realiser des temps de pose ultra-courts, de l'ordre de 1/20{sup e} de seconde pour un embol radioactif de 10 mCide {sup 99m}Tc par exemple; de tels temps de pose permettent la cinematographie. Divers exemples d'applications sont presentes utilisant le {sup 99m}Tc, le {sup 137m}Ba et le {sup 133}Xe dans le domaine de l'hemodynamique vasculaire et cardiaque ainsi quede la ventilation pulmonaire. (author)}
place = {IAEA}
year = {1969}
month = {May}
}
title = {Gamma Camera with Image Amplifier: Application in Nuclear Medicine; Camera Gamma a Amplificateur d'Image: Application en Medecine Nucleaire}
author = {Kellershohn, C., Vernejoul, P. de, Desgrez, A., Lequais, J., Roux, G., and Lansiart, A.}
abstractNote = {The camera described has an optical system consisting of a lead grid collimator with 649 cylindrical channels 130 mm long and 5.5 mm in diameter; a detector consisting of a mosaic of 700 NaI(Tl) crystals with an effective diameter of 5.5 mm, length 20 mm, and a distance of 7.5 mm between the axes; and a light amplification device consisting of an initial image amplifier (No. 9463 of the French Thomson-Houston Company), the photocathode of which is in optical contact with the detector and is itself optically coupled to a second, high-gain light amplifier (P 829A, from English Electric Valve). In accordance with a principle first laid down during the preceding Conference on Medical Isotope Scanning organized by the International Atomic Energy Agency, this second amplifier may also be used as an electronic shutter operated by a photomultiplier which selects the light originating in the radio active source under examination. This device very effectively suppresses the background from the first amplifier tube. With reference to applications, the camera is used for two types of operation: firstly for the activation of the electronic shutter device, the rate of whose opening and shutting may reach 10 kHz; the background is almost entirely eliminated and it is possible with trace doses of conventional radionuclides to obtain images of such organs as the thyroid, liver, kidney, etc., in very short exposure times by comparison with customary scanning; secondly, by utilizing radionuclides of very short half-life with very high activities (of the order of several mCi), it is no longer necessary to effect suppression of the background whose repetition frequency is limited to 10 kHz. One can thus obtain ultrashort exposure times, e.g., about 1/20th of a second for an amount of 10 mCi of {sup 99m}Tc; such exposure times make cinematography possible. Various examples are supplied of applications making use of {sup 99m}Tc, {sup 137m}Ba and {sup 133}Xe in the field of vascular and cardiac haemodynamics as well as pulmonary ventilation. (author) [French] La camera decrite comprend une optique constituee par une grille de plomb collimatrice a 649 canaux cylindriques de 130 mm de longueur et 5,5 mm de diametre, un detecteur constitue par une mosaieque de 700 cristaux de Nal(Tl) d'un diametre utile de 5, 5 mm et d'une longueur de 20 mm avec une distance entre les axes de 7,5 mm, et un dispositif d'amplification de lumiere constitue par un premier amplificateur d'image n Ring-Operator 9463 de la Compagnie francaise Thomson-Houston dont la photocathode est en contact optique avec le detecteur et qui est lui-meme couple optiquement a un deuxieme amplificateur a grand gain de lumiere P829A de English Electric Valve. Suivant un principe expose pour la premiere fois durant la precedente conference organisee par l'Agence internationale de l'energie atomique sur l'exploration medicale (scanning) ce deuxieme amplificateur peut etre egalement utilise comme un obturateur electronique dont l'ouverture est commandee par un photomultiplicateur selectionnant la lumiere ayant pour origine la source radioactive examinee. Ce dispositif elimine tres efficacement le bruit de fond du premier tube amplificateur. Sur le plan des applications la camera est utilisee sous deux regimes de fonctionnement: d'une part,en mettant en jeu le dispositif d'obturation electronique dont la cadence d'ouverture et de fermeture peut atteindre 10 kHz, le bruit de fond est pratiquement elimine et il est possible de realiser avec des doses traceuses de radioelements conventionnels des images d'organes tels que la thyroiede, le foie, le rein, etc. en des temps de pose tres courts par rapport a la scintigraphie habituelle; d'autre part,en utilisant des radioelements a demi-vie effective tres courte a de tres hautes activites, de l'ordre de plusieurs millicuries Inverted-Question-Mark il n'est plus necessaire de mettre en jeu la suppression du bruit de fond et sa frequence de repetition limitee a 10 kHz; on peut alors realiser des temps de pose ultra-courts, de l'ordre de 1/20{sup e} de seconde pour un embol radioactif de 10 mCide {sup 99m}Tc par exemple; de tels temps de pose permettent la cinematographie. Divers exemples d'applications sont presentes utilisant le {sup 99m}Tc, le {sup 137m}Ba et le {sup 133}Xe dans le domaine de l'hemodynamique vasculaire et cardiaque ainsi quede la ventilation pulmonaire. (author)}
place = {IAEA}
year = {1969}
month = {May}
}