Bone-to-Bone, Joint-to-Bone and Joint-to-Joint Ratios in Normal and Diseased Skeletal States Using Region-of-Interest Technique and Bone-Seeking Radiopharmaceuticals

 

 Artikel einzeln kaufen Lizenzen und Reprints

Summary

Bone-to-bone, iliosacral joints-to-os sacrum and joint-to-joint ratios were computed using the regionof-interest technique 2 to 3 hrs. after injection of ^99mTc Sn-methylene-diphosphonate or ^99mTc Sn-pyrophosphate in 139 patients with skeletal diseases (bone tumours, degenerative changes of the spine and joints, inflammatory changes of joints) as well as in 123 patients with normal skeletal states. In the latter group, iliosacral joints-to-os sacrum ratios decreased with increasing age of the patients. In patients with osseous metastases of the spine ratios of 0.80 to 4.0 occurred (reference area second vertebra below or above the affected vertebra). In degenerative changes of the spine values of 0.80 to 1.69 were computed. These results show, that 74% of the spine metastases could not be differentiated from benign changes of the spine by determining their relative amounts of bone uptake. In bone tumours of the extremities and rheumatoid or gouty arthritis of the small joints (hands and feet) the highest ratios, i.e. contrasts, occured referring to a contralateral reference area. Osteoarthritic and inflammatory alterations of the big joints could not be differentiated because the percentual distribution of the increased joint-to-joint ratios turned out to be nearly identical.

• References

• 1 Anger K. Quantitative Ganzkörper-Skelettszintigraphie, Kinetik und klinische Bedeutung. Thesis, Univ.; Tübingen: 1975
  Google Scholar
• 2 Asnis S E, Blau L M, Bohne W H. A comparison of ¹⁸F and ⁸⁵Sr scintimetric patterns by computerized data analysis and display. Radiology 1973; 85: 607
  Google Scholar
• 3 Bauer G. H. C, Wendeberg G. External counting of ⁴⁷Ca and ⁸⁵Sr in studies of localized skeletal lesions in man. J. Bone Jt. Surg 1959; 41B: 558
  Google Scholar
• 4 Bauer G. H. C, Smith E M. ⁸⁵Sr scintimetry of osteoarthritis of the knee. J. nucl. Med 1969; 10: 109
  PubMedGoogle Scholar
• 5 Bekerman C, Genant H K, Hoffer P B, Kozin F, Ginsberg M. Radionuclide imaging of the bones and joints of the hand. Radiology 1975; 118: 653
  Google Scholar
• 6 Bergmann H, Höfer R, Kolarz G, Thumb N. Quantitative Messung des ^87mSr-Uptake im Knochen bei Patienten mit P.C.P.. In: Pabst H W. (Ed.): Radionuklide in der Hämatolo-gie Schattauer; Stuttgart: S. 326 1973
  Google Scholar
• 7 Büll U. Nuklearmedizinische Diagnostik entzündlicher und degenerativer Erkrankungen der Hüft- und Kniegelenke sowie der Wirbelsäule. Thesis; Univ. München: 1975
  Google Scholar
• 8 Büll U, Schultz M.A, Rothe R. Wertigkeit der Knochen-szintigraphie bei Gonarthrosen. akt. rheumatol 1976; 1: 77
  Google Scholar
• 9 Büll U. Problematik der Knochenszintigraphie. Med. Welt 1977; 28: 68
  PubMedGoogle Scholar
• 10 Bull U, Pfeifer J P, Niendorf H P, Tongendorff J. A computer assisted comparison of ^99mTc-methylene-diphos-phonate and ^99mTc-pyrophosphate bone imaging. Brit. J. Radiol (in press)
  Google Scholar
• 11 Castronovo F P, Potsaid M S, Pendergrass H P. Effects of radiation therapy on bone lesions as measured by ^99mTc-Di-phosphonate. J. nucl. Med 1973; 14: 604
  PubMedGoogle Scholar
• 12 Citrin D L, Bessent R G, Greig W R. Clinical evaluation of ^99mTc-labeled monofluorophosphate: a comparison with ethane-hydroxy-diphosphonate. J. nucl. Med 1974; 15: 1110
  PubMedGoogle Scholar
• 13 Citrin D L, Bessent R G, Tuohy J B, Elms S T, McGinlay E, Greig W R, Blumgart L H. A comparison of phosphate bone-scanning agents in normal subjects and patients with malignant disease. Brit. J. Radiol 1975; 48: 118
  CrossrefPubMedGoogle Scholar
• 14 Corcoran R J, Thrall J H, Kyle R W, Kaminski R.J, Johnson M C. Solitary abnormalities in bone scans of patients with extraosseous malignancies. Radiology 1976; 121: 663
  CrossrefPubMedGoogle Scholar
• 15 Creutzig H. Vergleichende Untersuchungen mit osteotro-pen Radiopharmaka. III. Szintigraphie mit ¹⁸F und ^99mTc-HEDP bei malignen und nicht-malignen Erkrankungen. Fortschr. Röntgenstr 1975; 123: 560
  Google Scholar
• 16 Crutchlow H P. ⁸⁵Sr scintimetry of the hip in osteoarthritis and osteonecrosis. Amer. J. Roentgenol 1970; 109: 803
  CrossrefPubMedGoogle Scholar
• 17 Desaulniers M, Fuks A, Hawkins D, Lacourciere Y, Rosenthal L. Radiotechnetium polyphosphate joint imaging. J. nucl. Med 1974; 15: 417
  PubMedGoogle Scholar
• 18 Frey K W. Profilmessung und Szintigraphie des Skeletts. In: Glauner R. (Ed.): Angiologie und Szintigraphie bei Knochen- und Gelenkerkrankungen Thieme; Stuttgart: 1971: S. 35
  Google Scholar
• 19 Fueger G F. Nuklearmedizinische Untersuchungen an Frakturen. In: Glauner R. (Ed.): Ergebnisse der medizinischen Radiologie. Vol. IV. Thieme; Stuttgart: 1971
  Google Scholar
• 20 Garnett E S, Bowen B M, Coates G, Nahmias C. An analysis of factors influencing the local accumulation of bone-seeking radiopharmaceuticals. Invest. Radiol 1975; 10: 564
  CrossrefPubMedGoogle Scholar
• 21 Genant H K, Bautovich G J, Singh M, Lathrop K A, Harper P V. Bone-seeking radionuclides: an in vivo study of factors affecting skeletal uptake. Radiology 1974; 113: 373
  CrossrefPubMedGoogle Scholar
• 22 Georgi P, Dreyer J, Lorenz W J, Scheer K E. Untersuchungen zur Computerauswertung von Knochenszintigram-men. In: Pabst H W, Oeff K. (Eds.): Nuklearmedizin und Kinetik. Medico-Informat 1975; S. 624
  PubMedGoogle Scholar
• 23 Georgi P, Schlegel W, Knapp W, Lorenz W J, Lammers G, Prager G J. Computeranalyse von Wirbelsäulen-szintigrammen bei der Suche nach Knochenmetastasen. 57th Meeting German Soc. Roentgenol., Essen, May 1975. Germany:
  Google Scholar
• 24 Goergen Th G, Alazraki N P, Halpern S E, Heath V, Ashburn W L. „Cold“ bone lesions: a newly recognized phenomenon of bone imaging. J. nucl. Med 1974; 15: 1120
  PubMedGoogle Scholar
• 25 Hahn K, Eissner D, Holzmann H, Hoede N, Hülse R. Der Wert der Szintigraphie für die Früherfassung von Gelenkbeteiligungen bei der Psoriasis-Krankheit. 11^th internat. Symp. Radioaktive Isotope in Klinik und Forschung, Bad Gastein, Jan. Österreich. 1974
  Google Scholar
• 26 Hör G, Keyl W, Langhammer H, Herzog M, Pabst H W. Ergebnisvergleich der ^99mTc-Polyphosphat-Kamera-(Se-quenz, Funktionsszintigraphie, der ⁸⁵Sr-, ^87mSr-Scanner-Szintigraphie und radiologischer Methoden in der Orthopädie. Nucl.-Med 1975; XIV: 37
  Google Scholar
• 27 Kaye M, Silverton S, Rosenthall L. Technetium-99m-Py-rophosphat: studies in vivo and in vitro. J. nucl. Med 1975; 16: 40
  PubMedGoogle Scholar
• 28 Kolar J, Babicky A. Degenerative Wirbelsäulen- und Gelenkleiden bei der Untersuchung mit 85 Sr. Beitr. Orthop 1967; 14: 398
  Google Scholar
• 29 Kolar J, Babicky A, Bek V, Bibr B, Janko L, Streda A, Susta A. Isotopendiagnostik bei Gelenkerkrankungen. In: Glauner R. (Ed.): Angiologie und Szintigraphie bei Knochen- und Gelenkerkrankungen. Thieme; 1971: S. 69 Stuttgart:
  Google Scholar
• 30 Pfannenstiel P, Semmler U. Stellenwert der Gelenk- und Knochenszintigraphie bei benignen Skeletterkrankungen. Med. Welt 1977; 28: 73
  PubMedGoogle Scholar
• 31 Snow R M, Weber D A. Time-dependent image quality using ^99mTc-Pyrophosphate. J. nucl. Med 1975; 16: 879
  PubMedGoogle Scholar
• 32 Stevenson J S, Bright R W, Dunson G L, Nelson F R. Technetium-99m phosphate bone imaging: a method for assessing bone graft healing. Radiology 1974; 110: 391
  CrossrefPubMedGoogle Scholar
• 33 Subramanian G, McAfee J G, Blair R J, Kallfelz F A, Thomas F D. Technetium-99m-methylene-diphosphonate - a superior agent for skeletal imaging: comparison with other Technetium complexes. J. nucl. Med 1975; 16: 744
  PubMedGoogle Scholar
• 34 Wiegmann T, Kirsh J, Rosenthall L, Kaye M. Relationship between bone uptake of ^99mTc-pyrophosphate and hydroxy-proline in blood and urine. J. nucl. Med 1976; 17: 711
  PubMedGoogle Scholar