X Li1, D A Gabriel. 1. Department of Medicine, University of North Carolina at Chapel Hill 27599, USA.
Abstract
RATIONALE AND OBJECTIVES: The authors evaluated the ability of three x-ray contrast agents--a nonionic monomeric agent (iohexol), a nonionic dimeric agent (iodixanol), and an ionic dimeric agent (ioxaglate)--to either directly activate platelets or inhibit a platelet agonist from activating platelets. METHODS: Fluorescence spectroscopy was used to detect the effect of contrast media on platelet activation. In this method, the platelet is first exposed to a fluorescent probe, which is de-esterified and trapped to Fluo-3 within the platelet. In the presence of calcium, the fluorescence emission from Fluo-3 is increased 80-fold. Thus, the increase in the free platelet calcium associated with platelet activation can be used to indicate platelet activation. RESULTS: None of the agents were shown to directly activate platelets. However, wide differences in the ability of contrast media to inhibit platelet activation by a specific agonist were observed. Activation of platelets by epinephrine or arachidonic acid was not affected by any of the three contrast media studied. All three agents partially inhibited collagen activation of platelets, with ioxaglate the more potent inhibitor. Ioxaglate was the only agent to inhibit thrombin activation of platelets. Inhibition of adenosine diphosphate platelet activation was more extensive with ioxaglate than with iodixanol; iohexol produced no inhibition at all. CONCLUSION: Direct activation of platelets by contrast media was not observed. Of greater importance is the finding that ionic contrast media, but not nonionic contrast media, inhibit thrombin activation of platelets by binding to the anion-binding exosite I, thus preventing thrombin from binding to and activating the platelet.
RATIONALE AND OBJECTIVES: The authors evaluated the ability of three x-ray contrast agents--a nonionic monomeric agent (iohexol), a nonionic dimeric agent (iodixanol), and an ionic dimeric agent (ioxaglate)--to either directly activate platelets or inhibit a platelet agonist from activating platelets. METHODS: Fluorescence spectroscopy was used to detect the effect of contrast media on platelet activation. In this method, the platelet is first exposed to a fluorescent probe, which is de-esterified and trapped to Fluo-3 within the platelet. In the presence of calcium, the fluorescence emission from Fluo-3 is increased 80-fold. Thus, the increase in the free platelet calcium associated with platelet activation can be used to indicate platelet activation. RESULTS: None of the agents were shown to directly activate platelets. However, wide differences in the ability of contrast media to inhibit platelet activation by a specific agonist were observed. Activation of platelets by epinephrine or arachidonic acid was not affected by any of the three contrast media studied. All three agents partially inhibited collagen activation of platelets, with ioxaglate the more potent inhibitor. Ioxaglate was the only agent to inhibit thrombin activation of platelets. Inhibition of adenosine diphosphate platelet activation was more extensive with ioxaglate than with iodixanol; iohexol produced no inhibition at all. CONCLUSION: Direct activation of platelets by contrast media was not observed. Of greater importance is the finding that ionic contrast media, but not nonionic contrast media, inhibit thrombin activation of platelets by binding to the anion-binding exosite I, thus preventing thrombin from binding to and activating the platelet.
Authors: Peter Aspelin; Fulvio Stacul; Henrik S Thomsen; Sameh K Morcos; Aart J van der Molen Journal: Eur Radiol Date: 2006-01-05 Impact factor: 5.315
Authors: Enrique Esplugas; Angel Cequier; Joan A Gomez-Hospital; Bruno García Del Blanco; Francisco Jara Journal: Drug Saf Date: 2002 Impact factor: 5.606
Authors: T A Tomsick; L D Foster; D S Liebeskind; M D Hill; J Carrozella; M Goyal; R von Kummer; A M Demchuk; I Dzialowski; V Puetz; T Jovin; H Morales; Y Y Palesch; J Broderick; P Khatri; S D Yeatts Journal: AJNR Am J Neuroradiol Date: 2015-07-30 Impact factor: 3.825