Studies on the Uptake of ⁵¹Cr and ⁶⁴Cu ß-Glycerophosphate Complexes by Tumours

 

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Summary

The distribution of ⁵¹Cr and ⁶⁴Cu chlorides, acetates, and ß-glycerophosphate complexes in normal and tumour-bearing rats has been studied. The ß-glycerophosphates are accumulated by the tumoural tissue, but the blood radioactivity concentration of the ⁶⁴Cu-labelled compound is relatively high.

These experimental results indicate the potential usefulness of the ⁵¹Cr-ßglycerophosphate as a tumour-localizing agent.

Résumé

La distribution dans le corp des chlorures, citrates et ß-glycerinphosphates du cuivre (⁶⁴Cu) et du chrome (⁵¹Cr) chez des rats normaux et des rats atteints de tumeurs a été étudiée. Les (-)-glycérinphosphates ont montré une accumulation sélective dans les tumeurs, mais le composé du cuivre montrait une concentration radioactive très élevée dans le sang.

Les résultats expérimentaux indiquent l’utilité potentielle du ß-glycérinphosphate du chrome comme un agent pour la localisation des tumeurs.

Zusammenfassung

Es wurde die Verteilung von ⁵¹Cr- und (⁶⁴Cu-Chlorid, -Azetat und -ß-Glyzerophosphat in normalen und Tumor-Ratten untersucht. Die ß-Glyzerophosphate werden im Tumor-Gewebe angereichert, jedoch ist die Konzentration der ⁶⁴Cu- Verbindung im Blut zu hoch.

Die experimentellen Ergebnisse geben einen Hinweis auf die Brauchbarkeit des ⁵¹Cr-ß-Glyzerophosphats als tumorlokalisierendes Reagens.

^* Present address: The Johns Hopkins Medical Institutions Department of Radiological Science Baltimore, Maryland, U.S.A.

• References

• 1 Gerhard W., Mundinger F.. Biochemical study of tumour accumulation of radioisotopes used in brain tumour diagnosis. Acta Radiol. (Stockh.) 5: 118 1966;
  CrossrefSearch in Google Scholar
• 2 Finney J.W., Balla G.A., Collier R.E., Wakley J., Urschel H.C., Mallams J.T.. Differential localization of isotopes in tumours through the use of intraarterial hydrogen peroxide. Amer. J. Roentgenol. 84: 783 1965;
  Search in Google Scholar
• 3 Collier R.E., Balla G.A., Finney J.W., D’Errico A.D., Tomme J.W., Miller J.E., Mallams J.T.. Differential localization of isotopes in tumours through the use of intraarterial hydrogen peroxide — Clinical evaluation. Amer. J. Roentgenol. 94: 789 1965;
  Search in Google Scholar
• 4 McCready V.R.. Clinical radioisotope scanning. Brit. J. Radiol. 40: 401 1967;
  CrossrefSearch in Google Scholar
• 5 Low-Beer B.V.A., Bell F.G., McCorkle H.J., Storn R.. Measurement of radioactive phosphorus in breast tumours in situ: possible diagnostic procedure: Preliminary report. Radiology 47: 492 1946;
  CrossrefSearch in Google Scholar
• 6 Sturgis S.H., DeMuylder E., Meigs J.V.. The uptake of labelled phosphorus by cancer of the cervix, Preliminary report. Ann. Surg. 133: 305 1951;
  CrossrefSearch in Google Scholar
• 7 Cramer H., Pabst H.W.. Tumordiagnostik mit radioaktiven Isotopen. — Bericht über 300 mit ³²P untersuchten Patienten. Z. Krebsforsch. 58: 163 1952;
  CrossrefSearch in Google Scholar
• 8 Warburg O.. On the origin of cancer cells. Science 123: 309 1956;
  CrossrefSearch in Google Scholar
• 9 Boxer G.E., Shonk C.E.. Low levels of soluble DPN-linked-a-glycerophosphate dehydrogenase in tumours. Cancer Res. 20: 85 1960;
  Search in Google Scholar
• 10 Groth D.P., LePage G.A., Heidelberger C., Stoesz P.A.. Metabolism of pyruvate in tumour homogenates. Cancer Res. 12: 529 1952;
  Search in Google Scholar
• 11 Anghileri L.J.. Localization of ⁵¹Cr-Chromic glycerophosphate in Yoshida rat sarcoma. Invest. Radiol. 2: 394 1967;
  CrossrefSearch in Google Scholar
• 12 Anghileri L.J.. The uptake of ⁵¹Cr-chromic-ß-glycerophosphate by Yoshida tumours. Oncology 21: 275 1967;
  CrossrefSearch in Google Scholar