Improving biliary stent patency by the use of stent coating – a prospective randomized porcine study

U. Weickert; S. Weddeling; T. Subkowski; A. Eickhoff; G. Reiss

doi:10.1055/s-0042-101771

Zeitschrift für Gastroenterologie, Table of Contents

Z Gastroenterol 2016; 54(07): 629-633
DOI: 10.1055/s-0042-101771

Originalarbeit

Improving biliary stent patency by the use of stent coating – a prospective randomized porcine study

Beschichtung von Gallengangsstents zur Verbesserung der Offenheitsrate – eine prospektive randomisierte Studie am Schweinemodell

U. Weickert

¹Department of Medicine II, SLK-Kliniken Heilbronn, Germany

,

S. Weddeling

²Institute of Anatomy and Clinical Morphology, University of Witten/Herdecke, Witten, Germany

,

T. Subkowski

³BASF SE, Ludwigshafen, Germany

,

A. Eickhoff

⁴Department of Medicine II, Klinikum Hanau, Germany

,

G. Reiss

²Institute of Anatomy and Clinical Morphology, University of Witten/Herdecke, Witten, Germany

› Author Affiliations

Abstract

Background: Endoscopic stenting of the bile duct is a standard procedure for almost 35 years. In the case of long-term stenting occlusion of the stent is a major concern. Therefore optimizing biliary stents with respect to their patency is of great importance. We tested in an in animal study if coating of self-expanding metal stents with hydrophobin alone or hydrophobin with heparin reduces stent clogging as there were promising results in an in vitro study with this approach.

Material and methods: In a randomized prospective animal study we implanted self-expanding metal stents either native or coated with hydrophobin alone or coated with hydrophobin and heparin into the bile duct of 15 pigs. After a survival period of 6 weeks we measured which part of the stent surface (%) was covered with clogging material using a commercially available image editing program on scanning electron microscopic images.

Results: We found no differences between the native self-expanding metals stents and those coated with hydrophobin alone or hydrophobin and heparin.

Conclusion: There are important differences in the clogging process between in vitro and in vivo models. Coating with hydrophobin with or without heparin is not able to inhibit the clogging process in an animal model.

Zusammenfassung

Hintergrund: Die endoskopische Stentimplantation in den Gallengang ist seit mittlerweile 35 Jahren ein Routineeingriff. Bei längerer Liegedauer eines Gallengangsstents stellt der langfristig unvermeidliche Stentverschluss ein Problem dar. Daher ist die Verbesserung der Offenheitsdauer von Gallengangsstents ein wichtiges Ziel. Aufgrund vielversprechender Ergebnisse in einer In-vitro-Studie überprüften wir in einer Tierstudie, ob ein Beschichten von selbstexpandierenden Metallstents mit Hydrophobin oder mit einer Kombination aus Hydrophobin und Heparin die Offenheitsdauer verbessern kann.

Methoden: In einer randomisierten prospektiven Tierstudie implantierten wir in jeweils 5 Schweine native oder mit Hydrophobin beschichtete oder mit einer Kombination aus Hydrophobin und Heparin beschichtete selbstexpandierende Metallstents. Nach einer Überlebensphase von 6 Wochen führten wir eine Nekropsie durch und erfassten den Anteil der Stentoberfläche (%), der von angelagertem Verschlussmaterial bedeckt war. Die Messung erfolgte mit einer kommerziell erhältlichen Bildverarbeitungssoftware an rasterelektronischen Bildern der Stentoberfläche.

Ergebnisse: Wir fanden keinen Unterschied in dem Anteil der Oberfläche der selbstexpandierenden Metallstents, der frei von Verschlussmaterial war, zwischen den unbeschichteten und den beschichteten selbstexpandierenden Metallstents.

Schlussfolgerung: Das Beschichten von selbstexpandierenden Metallstents mit Hydrophobin oder einer Kombination aus Hydrophobin und Heparin führt im Schweinemodell nicht zu einer Reduktion von an der Stentoberfläche nachweisbarem Verschlussmaterial. Der Verschlussprozess von Gallengangsstents in einem In-vitro-Modell unterscheidet sich von dem in einem In-vivo-Modell.

Schlüsselwörter

Gallengangsstents - Nanotechnologie - Rasterelektronenmikroskopie

Key words

biliary stents - nanotechnology - scanning electron microscopy

Full Text

References

References
1 Soehendra N, Reynders-Frederix V. Palliative bile duct drainage – a new endoscopic method of introducing a transpapillary drain. Endoscopy 1980; 12: 8-11
2 Smith AC, Dowsett JF, Russell RC et al. Randomized trial of endoscopic stenting versus surgical bypass in malignant low bileduct obstruction. Lancet 1994; 344: 1655-1660
3 Andersen JR, Sorensen SM, Kruse A et al. Randomised trial of endoscopic endoprosthesis versus operative bypass in malignant obstructive jaundice. Gut 1989; 30: 1132-1135
4 Costamagna G, Pandolif M. Endoscopic stenting for biliary and pancreatic malignancies. J Clin Gastroenterol 2004; 38: 59-67
5 Knyrim K, Wagner HJ, Pausch J et al. A prospective, randomized, controlled trial of metal stents for malignant obstruction of the common bile duct. Endoscopy 1993; 25: 207-212
6 Yoon WJ, Lee JK, Lee KH et al. A comparison of covered and uncovered Wallstents for the management of distal malignant biliary obstruction. Gastrointest Endosc 2006; 63: 996-1000
7 Weickert U, Wiesend F, Subkowski T et al. Optimizing biliary stent patency by coating with hydrophobin alone or hydrophobin and antibiotics or heparin: an in vitro proof of principle study. Adv Med Sci 2011; 56: 138-144
8 Weickert U, Zimmerling S, Eickhoff A et al. A comparative scanning electron study of biliary and pancreatic stents. Z Gastroenterol 2009; 47: 347-350
9 Prat F, Cosson C, Domingo N et al. Study of the mechanisms of biliary stent occlusion: an analysis of occluded and nonoccluded stents, with emphasis on the role of antinucleating biliary anionic peptide factor. Endoscopy 2004; 36: 322-328
10 Pescatore P, Heubner C, Heine M et al. The value of histological analysis of occluded biliary endoprostheses. Endoscopy 1995; 27: 597-600
11 Van Berkel AM, van Marle J, Groen AK et al. Mechanisms of biliary stent clogging: confocal laser scanning and scanning electron microscopy. Endoscopy 2005; 37: 729-734
12 Weickert U, Venzke T, König J et al. Why do bilioduodenal plastic stents become occluded? A clinical and pathological investigation on 100 consecutive patients. Endoscopy 2001; 33: 786-790
13 Costerton JA, Geeseay GG, Cheng KJ. How bacteria stick. Sci Am 1978; 238: 86-95
14 Dowidar N, Kolmos HJ, Matzen P. Experimental clogging of biliary endoprosthesis. Role of bacteria, endoprosthesis material, and design. Scand J Gastroenterol 1992; 27: 77-80
15 Leung JWC, Ling TK, Kung JL et al. The role of bacteria in the blockage of biliary stents. Gastrointest Endosc 1988; 34: 19-22
16 Leung JW, Liu YI, Chan RCY et al. Early attachment of anaerobic bacteria may play an important role in biliary stent blockage. Gastrointest Endosc 2000; 52: 725-729
17 Swidsinski A, Schlien P, Pernthaler A et al. Bacterial biofilm within diseased pancreatic and biliary tracts. Gut 2005; 54: 388-395
18 Luman W, Ghosh S, Palmer KR. A combination of ciprofloxacin and Rowachol does not prevent biliary stent occlusion. Gastrointest Endosc 1999; 49: 316-321
19 De Ledinghen V, Person B, Legoux JL et al. Prevention of biliary stent occlusion by ursodeoxycholic acid plus norfloxacin: a multicenter randomized trial. Dig Dis Sci 2000; 45: 145-150
20 Barrioz T, Ingrand P, Besson I et al. Randomized trial of prevention of biliary stent occlusion by ursodeoxycholic acid plus norfloxacin. Lancet 1994; 344: 581-582
21 Sung JJY, Sollano JD, Lai CW et al. Long-term ciprofloxacin tratment for the prevention of biliary stent blockage: a prospective randomized study. Am J Gastroenterol 1999; 94: 3197-3201
22 De Ledinghen V, Person B, legoux JL et al. Prevention of biliary stent occlusion by ursodeoxycholic acid plus norfloxacin: a multicenter randomized trial. Dig Dis Sci 2000; 45: 145-150
23 Hu B, Wang TT, Wu J et al. Antireflux stents to reduce the risk of cholangitis in patients with malignant biliary strictures: a randomized trial. Endoscopy 2014; 46: 120-126
24 Reddy DN, Banerjee R, Choung OW. Antireflux biliary stents: are they the solution to stent occlusions?. Curr Gastroenterol Rep 2006; 8: 156-160
25 Speer AG, Cotton PB, MacRae KD. Endoscopic management of malignant biliary obstruction: stents of 10 French gauge are preferable to stents of 8 French gauge. Gastrointest Endosc 1988; 34: 412-417
26 Van Berkel AM, Huibregtse IL, Bergmann JJ et al. A prospective randomized trial of Tannenbaum-type Teflon-coated stents versus polyethylene stents for distal malignant biliary obstruction. Eur J Gastroenterol Hepatol 2004; 16: 213-217
27 Sung JJY, Chung SCS, Tsui CP et al. Omitting side-holes in biliary stents does not improve drainage of the obstructed biliary system: a prospective randomized trial. Gastrointest Endosc 1994; 40: 321-325
28 Terruzzi V, Comin U, De Grazia F et al. Prospective randomized trial comparing Tannenbaum Teflon and standard polyethylene stents in distal malignant biliary stenosis. Gastrointest Endosc 2000; 51: 23-27
29 Raju GS, Sud R, Elfert AA et al. Biliary drainage by using stents without a central lumen: a pilot study. Gastrointest Endosc 2006; 63: 317-320
30 Kaassis M, Boyer J, Dumas R et al. Plastic or metal stents for malignant stricture of the common bile duct? Results of a randomized prospective study. Gastrointest Endosc 2003; 57: 178-182
31 Katsinelos P, Paikos D, Kountouras J et al. Tannenbaum and metal stents in the palliative treatment of malignant distal bile duct obstruction: a comparative study of patency and cost effectiveness. Surg Endosc 2006; 20: 1587-1593
32 Isayama H, Komatsu Y, Tsuijino T et al. A prospective randomised study of “covered” versus “uncovered” diamond stents for the management of distal malignant biliary obstruction. Gut 2004; 53: 729-734
33 Kahaleh M, Tokar J, Conaway MR et al. Efficacy and complications of covered Wallstents in malignant distal biliary obstruction. Gastrointest Endosc 2005; 61: 528-533
34 van Berkel AM, Bruno MJ, Bergman JJ et al. A prospective randomized study of hydrophilic polymer-coated polyurethane versus polyethylene stents in distal malignant biliary obstruction. Endoscopy 2003; 35: 478-482
35 Schilling D, Rink G, Arnold JC et al. Prospective, randomized, singlecenter trial comparing 3 different 10F plastic stents in malignant mid and distal bile duct stricutres. Gastrointest Endosc 2003; 58: 54-58
36 Costamagna G, Mutignani M, Rotandano G et al. Hydrophilic hydromer-coated polyurethane stents versus uncoated stents in malignant biliary obstruction: a randomized trial. Gastrointest Endosc 2000; 51: 8-11
37 Seitz U, Block A, Schaefer AC et al. Biliary stent clogging solved by nanotechnology? In vitro study of inorganic-organic sol-gel coatings for Teflon stents. Gastroenterology 2007; 133: 65-71
38 Eickhoff A, Herzog J, Subkowski T et al. Prevention of biliary stent occlusion by the use of a hydrophobin coated device—a porcine pilot study. Submitted for publication.