Percutaneous Therapy for Deep Vein Reflux

Dusan Pavcnik; John Kaufman; Lindsay Machan; Barry Uchida; Frederick S. Keller; Josef Rösch

doi:10.1055/s-2005-921956

Seminars in Interventional Radiology, Table of Contents

Semin intervent Radiol 2005; 22(3): 225-232
DOI: 10.1055/s-2005-921956

Percutaneous Therapy for Deep Vein Reflux

Dusan Pavcnik¹ , John Kaufman¹ , Lindsay Machan² , Barry Uchida¹ , Frederick S. Keller¹ , Josef Rösch¹

¹Dotter Interventional Institute, Oregon Health Sciences University, Portland, Oregon
²Department of Radiology, University of British Columbia Hospital, Vancouver, British Columbia

Abstract

ABSTRACT

At present, there are no widely accepted surgical or percutaneous treatment options for chronic venous insufficiency of the deep venous system. The small intestinal submucosa square stent bicuspid venous valve (BVV) has shown the most promising results of artificial venous valves developed to date. In experimental long-term studies in sheep jugular veins, 88% of implanted valves exhibited good function; 12% had decreased function related to valve tilting, of which only 4% had partial thrombosis. BVVs were also placed in three patients and have remained patent without thrombosis or other complications since 2002. At present, 3 years after BVV placement, symptoms in two patients are decreased. Proper sizing and proper placement of the valves were critical to their function. To eliminate occasional tilting of the original BVV, a second-generation BVV has been developed and tested.

KEYWORDS

Venous valve - deep venous insufficiency - stents and prostheses - biomaterial - interventional procedures - experimental

Full Text

References

REFERENCES

1 Dotter C T. Interventional radiology: review of an emerging field. Semin Roentgenol. 1981; 16 7-12
2 Uflacker R. Percutaneously introduced artificial venous valve: experimental use in pigs. The 1993 Annual Meeting of the Western Angiographic & Interventional Society; September 29-October 3, 1993 Portland, Oregon; 1993 30
3 Thorpe P E, Osse F J, Correa L O. The valve-stent: development of a percutaneous prosthesis for treatment of valvular insufficiency. The 12th Annual meeting of the American Venous Forum; February 3-6, 2000 Phoenix, Arizona; 2000 82
4 Pavcnik D, Uchida B T, Timmermans H A, Keller F S, Rösch J, Keller F S. Aortic and venous valve for percutaneous placement. Min Invas Ther Allied Technol. 2000; 9 287-292
5 Gomez-Jorge J, Venbrux A C, Magee C. Percutaneous development of a valved bovine jugular vein in the swine venous system: a potential treatment for venous insufficiency. J Vasc Interv Radiol. 2000; 11 931-936
6 Pavcnik D, Uchida B T, Timmermans H A et al.. Percutaneous bioprosthetic venous valve: a long-term study in sheep. J Vasc Surg. 2002; 35 598-602
7 de Borst G J, Teijink J A, Patterson M, Quijano T C, Moll F. A percutaneous approach to deep venous valve insufficiency with a new self-expanding venous frame valve. J Endovasc Ther. 2003; 10 341-349
8 Pavcnik D, Machan L, Uchida B, Kaufman J, Keller F S, Rösch J. Percutaneous prosthetic venous valves: current state and possible applications. Tech Vasc Interv Radiol. 2003; 6 137-142
9 Badylak S F. Xenogeneic extracellular matrix as a scaffold for tissue reconstruction. Transpl Immunol. 2004; 12 367-377
10 Brountzos E, Pavcnik D, Timmermans H A et al.. Remodeling of the suspended small intestinal submucosa venous valve: an experimental study in sheep to asses the host cells' origin. J Vasc Interv Radiol. 2003; 14 349-356
11 Pavcnik D, Uchida B, Timmermans H A, Keller F S, Rösch J. Square stent: a new self-expandable endoluminal device and its applications. Cardiovasc Intervent Radiol. 2001; 24 207-217
12 Pavcnik D, Kaufman J, Uchida B et al.. Second-generation percutaneous bioprosthetic valve: a short-term study in sheep. J Vasc Surg. 2004; 40 1223-1227
13 Raju S. Venous insufficiency of the lower limb and stasis ulceration: changing concept and management. Ann Surg. 1983; 197 688-697
14 Zeitler E, Jecht E, Richter E I, Seyferth W. The treatment of male infertility by selective catheterization of the spermatic vein: technique, indications, complications, results. ROFO Fortschr Geb Rontgenstr Nuklearmed. 1980; 132 294-300
15 Machan L, Mowatt J, Hurwitz T, Doyle L, Fry P. Clinical outcome of women with chronic pelvic pain treated by ovarian vein embolization. J Vasc Interv Radiol. 1998; 9(suppl) 185
16 Venbrux A C, Chang A H, Kim H S et al.. Pelvic congestion syndrome (pelvic venous incompetence): impact of ovarian and internal iliac vein embolotherapy on menstrual cycle and chronic pelvic pain. J Vasc Interv Radiol. 2002; 13 171-178
17 Boudjemline Y, Bonhoeffer P. Percutaneous replacement of the pulmonary valve. In: Rao PS, Kern MJ Catheter Based Devices. Philadelphia; Lippincott Williams & Wilkins 2003: 511-514

D. PavcnikM.D. Ph.D.

Dotter Interventional Institute, Oregon Health Sciences University

L342, 630 SW Gaines, Portland, OR 97239