Myocardial Uptake of Iodinated Free Fatty Acids and ²⁰¹T1 in Experimental Ischemia

 

 Artikel einzeln kaufen Lizenzen und Reprints

Summary

In an experimental study, we evaluated the uptake of (¹³¹I)-17-iodo heptadecanoic acid (¹³¹I-HDA), (¹²⁵I)-15-4 (4-iodophenyl) pentadecanoic acid (¹²⁵I-PPA) and thallium-201 (²⁰¹T1) in the dog heart. Twenty dogs were studied and divided into 3 groups: in group A, 10 dogs (4 normal, 6 with coronary artery occlusion) were studied with ¹³¹I-HDA and ²⁰¹T1; in group B, 5 dogs (with occlusion) received ¹²⁵I-PPA and ²⁰¹T1; and in group C, 5 dogs (with occlusion) were studied with ¹²⁵I-PPA and ¹³¹I-HDA. Two min after administration of the compounds the hearts were excised and stored in formaldehyde. After sectioning of the left ventricle, total uptake was counted and expressed in percentage of injected dose. Uptake in the normal myocardium (group A) was 4.2 ±0.6% for ¹³¹I-HDA and 4.6 ±0.7% for ²⁰¹T1; in the occluded dog hearts (group A) we measured values of 2.6 ±0.4% for ¹³¹I-HDA (p<0.001) and 3.4 ±0.6% for ²⁰¹T1 (p<0.01). Uptake of ¹³¹I-HDA, ¹²⁵IPPA and ²⁰¹T1 in groups B and C was not significantly different: group B, ¹²⁵I-PPA 2.8 ±0.8% and ²⁰¹T1 ± 0.5%; group C, ¹²⁵I-PPA 1.9 ±0.7% and ¹³¹I-HDA 1.6 ±0.6%. Moreover, regional distribution of both iodinated fatty acids was quite comparable with the distribution of ²⁰¹T1. We conclude that ¹³¹I-HDA and ¹²⁵I-PPA show similar uptake as ²⁰¹T1 and are distributed according to coronary artery perfusion, which underscores their value as myocardial imaging agents.

Zusammenfassung

Bei 20 Hunden wurde die Myokardspeicherung der radiojodierten Heptadekansäure (¹³¹IHDA) und Pentadekansäure (¹²⁵IPPA) im Vergleich mit ²⁰¹T1 bestimmt. Drei verschiedene Gruppen wurden untersucht: Gruppe A, 10 Hunde (6 mit Koronararterienverschluß) nach intravenöser Injektion von ¹³¹I-HDA und ²⁰¹T1; Gruppe B, 5 Hunde (mit Verschluß) nach Verabreichung von ¹²⁵I-PPA und ²⁰¹T1; Gruppe C, 5 Hunde (mit Verschluß) nach Verabreichung von ¹²⁵I-PPA und ¹³¹I-HDA. 2 Min. nach Verabreichung der Verbindungen wurden die Herzen entnommen und in Formaldehyd gelagert. Die Aktivitätsanreicherung in Schnitten des linken Ventrikels wurde in Prozent der verabreichten Dosis ausgedrückt. Die Speicherung im normalen Herz (Gruppe A) betrug 4,2 ±0,6% für ¹³¹I-HDA und ±0,7% für ²⁰¹T1. Die Speicherung im betroffenen Myokard (Gruppe A) betrug 2,6 ±0,4% für ¹³¹I-HDA (p<0,001) und 3,4 ±0,6% für ²⁰¹T1 (p<0,01). Die Aktivitätsanreicherung aller 3 Verbindungen in Gruppe B und C ergab keine signifikanten Unterschiede: Gruppe B, ¹²⁵I-PPA 2,8 ±0,8% und ²⁰¹T1 2,5 ±0,5%; Gruppe C, ¹²⁵I-PPA 1,9 ±0,7% und ¹³¹I-HDA 1,6 ±0,6%. Auch die regionale Verteilung der beiden Jodfettsäuren war entsprechend vergleichbar mit der Verteilung der ²⁰¹T1 Aktivität. Wir schließen daraus, daß radiojodierte Hepta-und Pentadekansäure, so wie ²⁰¹T1, gute Tracer für die Beurteilung der myokardialen Perfusion sind.

• References

• 1 Angelberger P, Wagner-Loffler M, Dudczak R. et al.: ¹²³I and ¹³¹I labeled piodophenyl pentadecanoic acid: Simplified preparation, biodistribution in mice, rabbits and patients. In: Progress in Radiopharmacology, Vol. 2. Cox P. H.. [ed.] 61-74 Elsevier/North Holland Biomedical Press; 1981
  Google Scholar
• 2 Aurich D, Reske S. N., Biersack H. J.. et al.: Biplanar sequential scintigraphy of the myocardium by means of ¹²³I-heptadecanoic acid. In: Proc. Third World Congr. Nucl. Med. Biol. Paris. Vol. 2 Raynaud C. ed. 1389-91 Pergamon Press; Oxford: 1982
  Google Scholar
• 3 Dakin H. D. The mode of oxidation in the animal organism of phenyl derivatives of fatty acids. Part V. Studies on the fate of phenyl-valeric acid and its derivatives. J. biol. Chem 1909; 06: 221-33.
  Google Scholar
• 4 Dudczak R, Schmoliner R, Derfler D. K.. et al.: Effect of ischemia and pharmacological intervention on the myocardial elimination of ¹²³I-heptadecanoic acid. J. nucl. Med 1982; 23: 34.
  PubMedGoogle Scholar
• 5 Dudczak R, Schmoliner R, Angelberger P, Kletter K, Frischauf H. Myocardial studies with ¹²³I-p-phenylpentadecanoic acid in patients with CAD and cardiomyopathy. J. nucl. Med 1982; 23: 35.
  Google Scholar
• 6 Elmaleh D, Livni E, Levy S, Schluederberg C. J., Strauss H. W. Radio-iodinated beta methyl omega phenyl tetradecanoic acid (BMPTA): A potential new agent for studies of myocardial fatty acid metabolism. J. nucl. Med 1982; 23: 103.
  PubMedGoogle Scholar
• 7 Freundlieb C, Hoeck A, Vyska K, Feinendegen L. E., Machulla H. J., Stoecklin G. Myocardial imaging and metabolic studies with [17-I-123]iodoheptadecanoic acid. J. nucl. Med 1980; 21: 1043-50.
  PubMedGoogle Scholar
• 8 Freundlieb C, Hoeck A, Vyska K, Erbel R, Feinendegen L. E. Fatty acid uptake and turnover rate in the ischemic heart before and after bypass surgery. In: Proc. Third World Congr. Nucl. Med. Biol. Paris. Vol. 2 Raynaud C. ed. 1392-95 Pergamon Press; Oxford: 1982
  Google Scholar
• 9 Fritzberg A. R., Eshima D. Iodophenylsulfonamide fatty acid analogs as potential myocardial imaging agents. Int. J. Appl. Radiat. Isotopes 1982; 33: 451-3.
  CrossrefPubMedGoogle Scholar
• 10 Goodman M. M., Knapp F. F., Callahan A. P., Ferren L. A. Synthesis and biological evaluation of 17-(¹³¹I)iodo-9-tellura-heptadecanoic acid, a potential myocardial imaging agent. J. med. Chem 1982; 25: 613-8.
  CrossrefPubMedGoogle Scholar
• 11 Goodman M. M., Knapp Jr F. F.. Synthesis of 15-(p-iodophenyl) 6-tellurapentadecanoic acid: A new myocardial imaging agent. J. org. Chem 1982; 47: 3004-6.
  CrossrefGoogle Scholar
• 12 Goodman M. M., Kirsch G, Knapp Jr F. F.. Synthesis of radioiodinated omega-p-iodophenyl-substituted methyl branched long chain fatty acids. Proc. Fourth Int. Symp. Radiopharm. Chem. Juelich August. 1983 J. labeled Comp. Radiopharm. 20.
  PubMedGoogle Scholar
• 13 Lerch R. A., Ambos H. D., Bergmann S. R., Welch M. J., Ter-Pogossian M. M., Sobel B. E. Localization of viable, ischemic myocardium by positron-emission tomography with ¹¹C-palmitate. Circulation 1981; 64: 689-99.
  CrossrefPubMedGoogle Scholar
• 14 Lin T. H., Harris G. E., Baldwin R. M., Wu J. L., Lamb J. F. Myocardial uptake and in vivo distribution of ¹²³Ilabeled long chain fatty acid derivatives in rats. Proc. Fourth Int. Symp. Radiopharm. Chem. Juelich. August 1983 J. labeled Comp. Radiopharm. 20.
  PubMedGoogle Scholar
• 15 Machulla H. J., Stoecklin G, Kupfernagel C. et al.: Comparative evaluation of fatty acids labeled with ¹¹C, ^34mCl, ⁷⁷Br and ¹²³I for metabolic studies of the myocardium. J. nucl. Med 1978; 19: 298-302.
  PubMedGoogle Scholar
• 16 Machulla H. J., Marsmann M, Dutschka K. Radiopharmaceuticals. I. Synthesis of radioiodinated phenylfatty acids for studying myocardial metabolism. J. radional. Chem 1980; 56: 253-61.
  CrossrefGoogle Scholar
• 17 Machulla H. J., Dutschkâ K, Marsmann M, Van Beuningen D. Radiopharmaceuticals. III. Synthesis and myocardial uptake of 5-p-¹²³I-phenyl valeric acid. Radiochem. Radioanal. Letters 1981; 46: 317-22.
  Google Scholar
• 18 Otto C. A., Brown L. E., Wieland D. M., Beierwaltes W. H. Synthesis of ¹²⁵Ilabeled 14-iodo-9-tetradecynoic acid. J. labeled Comp. Radiopharm 1981; 18: 1347-55.
  CrossrefGoogle Scholar
• 19 Otto C. A., Brown L. E., Beierwaltes W. H. Radioiodinated branched chain fatty acids: Substrates for beta oxidation?. Proc. Fourth Int. Symp. Radiopharm. Chem. Juelich. August 1983 J. Labeled Comp. Radiopharm. 20.
  PubMedGoogle Scholar
• 20 Poe N. D., Robinson Jr G. D., MacDonald N. S. Myocardial extraction of labeled long-chain fatty acid analogs. Proc. Soc. exp. Biol, and Med 1975; 148: 215-8.
  CrossrefPubMedGoogle Scholar
• 21 Rabinowitch M. A., Kalff V, Allen R. et al.: Omega¹²³I-hexadecanoic acid probe of metabolic cardiomyopathy. J. nucl. Med 1982; 23: 34.
  PubMedGoogle Scholar
• 22 Reimer K. A., Lowe J. E., Rasmussen M. M., Jennings R. B. The wavefront phenomenon of ischemic cell death. I. Myocardial infarct size vs. duration of coronary artery occlusion in dogs. Circulation 1977; 56: 786-94.
  CrossrefPubMedGoogle Scholar
• 23 Reske S. N., Simon H, Machulla H. J., Biersack H. J., Knopp R, Winkler C. Myocardial turnover of p-(¹²³I-phenyl)pentadecanoic acid in patients with CAD. J. nucl. Med 1982; 23: 34.
  PubMedGoogle Scholar
• 24 Robinson Jr G. D., Lee A. W. Radioiodinated fatty acids for heart imaging: Iodine monochloride addition compared with iodide replacement labeling. J. nucl. Med 1975; 16: 17-21.
  PubMedGoogle Scholar
• 25 Strauss H. W., Harrison K, Langan J. K., Lebowitz E, Pitt B. Thallium-201 for myocardial imaging. Relation of ²⁰¹T1 to regional myocardial perfusion. Circulation 1975; 51: 641-5.
  CrossrefPubMedGoogle Scholar
• 26 Van der Wall E. E., Heidendal G. A. K, Den Hollander W, Westera G, Roos J. P. ¹²³I-labeled hexadecenoic acid in comparison with thallium-201 for myocardial imaging in coronary heart disease. A preliminary study. Eur. J. nucl. Med 1980; 05: 401-5.
  CrossrefPubMedGoogle Scholar
• 27 Van der Wall E. E., Den Hollander W, Heidendal G AK, Westera G, Majid P. A., Roos J. P. Dynamic myocardial scintigraphy with ¹²³I-labeled free fatty acids in patients with myocardial infarction. Eur. J. nucl. Med 1981; 06: 383-9.
  CrossrefPubMedGoogle Scholar
• 28 Van der Wall E. E., Heidendall G. A.K, Den Hollander W, Westera G, Roos J. P. Metabolic myocardial imaging with ¹²³I-labeled heptadecanoic acid in patients with angina pectoris. Eur. J. nucl. Med 1981; 06: 391-6.
  CrossrefPubMedGoogle Scholar
• 29 Van der Wall E. E., Westera G, Den Hollander W, Heidendal G. A.K, Roos J. P. Myocardial scintigraphy with ¹²³Ilabeled free fatty acids. In: Progress in Radiopharmacology. Vol.2 Cox P. H.. ed. 54-60 Elsevier/North Holland Biomedical Press; 1981
  Google Scholar
• 30 Van der Wall E. E., Westera G, Heidendal G. A. K., Roos J. P. A comparison between terminally radioiodinated hexadecenoic acid and heptadecanoic acid in the dog heart. Eur. J. nucl. Med 1981; 06: 581-4.
  CrossrefPubMedGoogle Scholar
• 31 Van der Wall E. E., Westera G, Den Hollander W, Visser F. C. External detection of regional myocardial metabolism with radioiodinated hexadecenoic acid in the dog heart. Eur. J. nucl. Med 1981; 06: 147-51.
  CrossrefPubMedGoogle Scholar
• 32 Westera G, Van der Wall E. E., Heidendal G. A. K., Van den Bos G. C. A comparison between terminally radioiodinated hexadecenoic acid (I-HA) and ²⁰¹Tlthallium chloride in the dog heart. Implications for the use of I-HA for myocardial imaging. Eur. J. nucl. Med 1980; 05: 339-43.
  CrossrefPubMedGoogle Scholar
• 33 Westera G. Labelled fatty acids. Synthesis and biological behaviour. A Review. In: Progress in Radiopharmacology. Vol.2 Cox P. H.. ed. 29-51 Elsevier/North Holland Biomedical Press; 1981
  Google Scholar
• 34 Wieland D. M., Beierwaltes W. H. Synthesis of radioiodinated omega-(pphenyl) substituted fatty acids. J. labeled Comp. Radiopharm 1979; 16: 171.
  Google Scholar