Collagen-coated acrylic microspheres for embolotherapy: in vivo and in vitro characteristics.

PURPOSE To evaluate the in vivo and in vitro properties of collagen-coated acrylic microspheres and to compare them with polyvinyl alcohol (PVA) particles. METHODS Samples of 100- to 300-microns, 300- to 500-microns, 500- to 700-microns, and 700- to 900-microns collagen-coated acrylic microspheres and 200- to 300-microns PVA particles were suspended in solutions of 50% saline and 50% contrast material. The samples were evaluated for quantitative and qualitative microscopic characteristics (shape, size, deformability); injectability via standardized microcatheters; degree of particulate penetration in the pig rete mirabile; and reaction of tissue to the particles in 48-hour- and 4-week-old specimens. RESULTS The acrylic microspheres were spherical and deformable. The sample of 100- to 300-microns microspheres (n = 202) had a mean diameter of 210 microns (standard deviation, 43 microns). Hub accumulation, particle aggregation, and catheter occlusion were not observed with the microspheres (all sizes) but were noted with the PVA particles. The 200- to 300-microns PVA particles formed aggregates in the proximal rete. The 100- to 300-microns microspheres were found throughout the rete and beyond. Chronic transmural and perivascular inflammation was observed with the microspheres and the PVA particles. CONCLUSIONS Particle aggregation and catheter occlusion do not complicate the transcatheter delivery of collagen-coated acrylic microspheres as they do with PVA particles. For a given particle and vessel size, acrylic microspheres penetrate to a much greater extent than the PVA particles. Tissue reaction to acrylic microspheres and PVA particles is similar.

[1]  D. Rüfenacht,et al.  Trisacryl gelatin microspheres for therapeutic embolization, I: development and in vitro evaluation. , 1996, AJNR. American journal of neuroradiology.

[2]  J J Merland,et al.  Trisacryl gelatin microspheres for therapeutic embolization, II: preliminary clinical evaluation in tumors and arteriovenous malformations. , 1996, AJNR. American journal of neuroradiology.

[3]  C. Derdeyn,et al.  Polyvinyl alcohol particle size and suspension characteristics. , 1995, AJNR. American journal of neuroradiology.

[4]  H. Vinters,et al.  Collagen microbeads: experimental evaluation of an embolic agent in the rete mirabile of the swine. , 1995, AJNR. American journal of neuroradiology.

[5]  A. Fox,et al.  Dextran microsphere embolization: experimental and clinical experience with radiologic-pathologic correlation. Work in progress. , 1986, Radiology.

[6]  G. Scotti,et al.  Superselective injection of polyvinyl alcohol microemboli for the treatment of cerebral arteriovenous malformations. , 1985, AJNR. American journal of neuroradiology.

[7]  G. Forbes,et al.  Polyvinyl alcohol sponge for embolotherapy: particle size and morphology. , 1985, AJNR. American journal of neuroradiology.

[8]  B. Kaplan,et al.  Histopathologic analysis of intraarterial polyvinyl alcohol microemboli in rat cerebral cortex. , 1984, AJNR. American journal of neuroradiology.

[9]  C. Charnsangavej,et al.  Experimental canine hepatic artery embolization with polyvinyl alcohol foam particles. , 1982, Radiology.

[10]  K. Amplatz,et al.  Experimental observations on short and long-term effects of arterial occlusion with Ivalon. , 1978, Radiology.

[11]  R. White,et al.  Therapeutic embolization with long-term occluding agents and their effects on embolized tissues. , 1977, Radiology.

[12]  J. Moller,et al.  Polyvinyl alcohol (Ivalon)--a new embolic material. , 1975, The American journal of roentgenology, radium therapy, and nuclear medicine.

[13]  Gillanders La Blood supply to brains of ungulates with and without a rete mirabile caroticum. , 1974 .

[14]  P. Daniel,et al.  Studies of the carotid rete and its associated arteries , 1953, Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences.

[15]  L. A. Gillilan,et al.  Blood supply to brains of ungulates with and without a rete mirabile caroticum , 2022 .