Longitudinal and Transverse Uniformity in Clinical Whole Body Counting by an Improved Technique

 

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Eine neue Technik, die einen einzelnen Natrium-Jodid-(Tl)-Detektor (9 cm x 6,3 cm) in zwei Positionen verwendet und auf der Ansprechkurve des Detektors beruht wird beschrieben. Ebenso wird ein anderes Verfahren zur Energiewahl angewendet, das sich als zweckmäßig erwiesen hat, um die Zählratenabhängigkeit von der Quellentiefe zu reduzieren. Verschiedene Teile des Compton-Continuums wurden als Grundlage der Messung verwendet anstelle von Tal und Photo-Peak. Für transversale Uniformität wurde gefunden, daß das Energieband, das einer 50% normalisierten Zählrate der Halbtiefe entspricht zu einer flachen Ansprechkurve mit minimalen Variationen führt. Für die longitudinale Uniformität muß die Lagedifferenz der beiden Positionen des Detektors ungefähr gleich der vollen Weite beim Halbmaximum der Ansprechkurve sein. Die Technik des Bezugs zur Ansprechkurve, die beschrieben wird, ist verschieden von der üblicherweise verwendeten Technik der Iso-Ansprechkurven.

Summary

A new technique using a single Nal(Tl) detector (9 cm × 6.3 cm) in two positions and based on the response curves of the detector has been described. Also a different approach to select the energy band was adopted which is helpful in reducing the dependence of counting efficiency on source depth. Various portions of the compton continuum were taken rather than confining to valley and photopeak. For transverse uniformity it was found that the energy band which gave 50% normalized count rate at half depth would give a resultant flat response with least variation. For longitudinal uniformity the separation between the two positions of the detector need to be nearly equal to the full width at half maximum of the response curve. The response curve coupling technique described here is different from the commonly used technique of iso-response curves.

^* Institute of Nuclear Medicine and Allied Sciences, Delhi-7.

• References

• 1 Anderson E.c. The Los Alamos Human Counter. Brit. J. Radiol. Suppl 1956; 7: 27
  MissingFormLabel

  Search in Google Scholar
• 2 Anderson J. I, Olson D. G. A Rotational Technique for Assessing Quality and Distribution of Body Radioactivity. Hlth. Physics 1967; 13: 719
  MissingFormLabel

  Search in Google Scholar
• 3 Anderson J. I, Olson D. G. Computerised Helical Scanning to Determine the Locatoin of Specific Nuclides in the Human Body. Hlth. Physics 1972; 23: 325
  MissingFormLabel

  Search in Google Scholar
• 4 Andrews H. L, Peterson D. C, Murthy R. E, Myres E. J. An Organic Plastic Localising Whole Body Counter. J. Nucl. Med 1965; 6: 667
  MissingFormLabel

  PubMedSearch in Google Scholar
• 5 Barnaby C. F, Jasani B. M. The Caliberation of a High Sensitivity Large Area Whole Body Counter. Phys. Med. Biol 1968; 13: 561
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 6 Barnaby C. F, Smith T. Caliberation of a Whole Body Counter Suitable for Use in Routine Clinical Investigations. Phys. Med. Biol 1971; 16: 97
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 7 Chhabra A. S. An Improved Whole Body Counting Geometry With a Single Na I (Tl) Detector 8 in x 4 in Thick. Radiology 1964; 82: 816
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 8 Charleston D. B. A Whole Body Counting Facility for Biological and Medical Research. Proc. of Symposium on Whole Body Counting. I.A.E.A; Vienna: 1962: 189
  MissingFormLabel

  Search in Google Scholar
• 9 Delwaide P. A. A Four Pi Plastifluer Body Counter for Clinical Use. Int. J. Appl. Radiat. Isotopes 1969; 20: 623
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 10 Dudley R. A, ben Haim A. Comparison of Techniques for Whole Body Counting of Gamma-Ray Emitting Nuclides with Na I (Tl) Detector. Phys. Med. Biol 1968; 13: 181
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 11 Glass H. I. Design Criteria for Whole Body Counters. Proc. of a Panel Discussion on the Clinical Uses of Whole Body Counting. I.A.E.A; Vienna: 1966: 107
  MissingFormLabel

  Search in Google Scholar
• 12 Gupta M. M, Jain S. C, Shukla K. K, Nagaratnam A. A Preliminary Study of Whole Body Counting in the Buddha Posture. Proc. of National Symposium on Radiation Physics. 1970: 379
  MissingFormLabel

  Search in Google Scholar
• 13 Hukoo R. K, Miller C. E. Some Problems of Accurate Measurement of Potassium in Man. U.S.A.E.C: Rpt. ANL-6839 1965: 63
  MissingFormLabel

  Search in Google Scholar
• 14 Kunkel R, Muth H, Oberhausen E. A Whole Body Counter for Research in Clinical Application and Radiation Protection Measurements. Strahlentherapie 1965; 128: 98
  MissingFormLabel

  Search in Google Scholar
• 15 Marinelli L. D, Miller C. E, Rowland R. E, Rose J. E. The Quantitative Determination of Gamma-Ray Emitting Elements in Living Persons. Amer. J. Roentgenol 1955; 73: 661
  MissingFormLabel

  PubMedSearch in Google Scholar
• 16 Marinelli L. D. The Use of Na I (Tl) Crystal Spectrometers in the Study of Gamma Ray Activity in Vivo: A Summary of Developments at the Argonne National Laboratory. Brit. J. Radiol Suppl 1956; 7: 26
  MissingFormLabel

  Search in Google Scholar
• 17 Miller C. E. An Experimental Evaluation of Multiple Crystal Arrays and Single Crystal Techniques. Proc. of the Symposium on Whole Body Counting. I.A.E.A; Vienna: 1962: 81
  MissingFormLabel

  Search in Google Scholar
• 18 Miller C. E. Retention and Distribution of ¹³⁷Cs after Accidental Inhalation, Hlth. Physics 1964; 10: 1065
  MissingFormLabel

  Search in Google Scholar
• 19 Naverston Y. Some Aspects of Whole Body Counting Geometries. Proc. of a Panel Discussion on the Clinical Uses of Whole Body Counting. I.A.E.A; Vienna: 1966: 64
  MissingFormLabel

  Search in Google Scholar
• 20 Palmer H. E, Roesch W. C. Scanning Counter Rept HW-70050. 1961: 35
  MissingFormLabel

  Search in Google Scholar
• 21 Palmer H. E, Cook J. D, Paitthrop K. G, Finch C. A. A Whole Body Counter for Precision in Vivo Measurement of Radio-Ion. Phys. Med. Biol 1970; 15: 457
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 22 Rundo Body Radioactivity Measurement as an Aid in Assessing Contamination by Radionuclides. Proc. of 2nd United Nations Conference on the Peaceful Uses of Atomic Energy 1958; 23: 101
  MissingFormLabel

  Search in Google Scholar
• 23 Tauxe W. N, Orvis A. L. The Mayo Clinic Whole Body Counter. Mayo Clinic Proc 1966; 41: 18
  MissingFormLabel

  Search in Google Scholar
• 24 Trott N. G, Cottrall M. F. Some Contribution of External Counting Technique to Study of the Metabolism of Radionuclides Used in Tomour Therapy and Diagnosis. Radionuklide in der Klinischen und experimentellen. Onkologie: 1964: 249
  MissingFormLabel

  Search in Google Scholar
• 25 Trott N. G, Cottrall M. F. Multiple Crystal Systems for Whole Body Counting. Proc. of the Panel Discussion on Clincial Uses of Whole Body Counting I.A.E.A. Vienna: 1966: 136
  MissingFormLabel

  Search in Google Scholar
• 26 Trott N. G, Cottrall M. F, Wells D. G, McCready V. R. Investigations of Sequential Distributions Using a Low Background Whole Body Scanner with Digital Output. Proc. of the Symp. on Medical Radioisotope Scintigraphy, I.A.E.A. Vienna: 1973: 1
  MissingFormLabel

  Search in Google Scholar
• 27 Wade F. Preliminary Investigations of Scintillation Counter Techniques for the Measurement of Radioactivity from Human Body. Rept. AERE EL/M-92, 1. 1955
  MissingFormLabel

  Search in Google Scholar
• 28 Warner G. T, Oliver R. A Whole Body Counter for Clinical Measurements Utilising the Shadow Shield Technique. Phys. Med. Biol 1966; 11: 83
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar