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Encrustation of the ureteral double-J Stents made of styrene/ethylene/butylene and polyurethane before and after implantation

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The aim of this study was to determine the affinity to crystal, calculi and biofilm deposition on ureteral double-J stents (DJ stents) after ureterorenoscopic–lithotripsy procedure (URS-L). The analysis was performed in two aspects: to determine which material used for fabricating ureteral stents promotes encrustation and which part of the DJ stents is the most vulnerable for blockage. Methods: One hundred and twenty patients with an indwelling DJ stent duration between 7 and 78 days were included in this study. The encrustation of DJ stents was characterized by scanning electron microscopy (SEM), and the mechanical properties of DJ stents were examined using the standard MTS Micro Bionix tensile test. Results: This study showed that polyurethane catheters have a much higher affinity for encrustation than styrene/ethylene/butylene block copolymer. Obtained results indicated the proximal (renal pelvis) and distal (urinary bladder) part is the most susceptible to post-URS-L fragments and urea salt deposition. Both the DJ ureteral stents’ outer and inner surfaces were completely covered even after 7 days of implantation. Conclusions: Performed analysis pointed out that polyurethane DJ stents have a much higher affinity for encrustation of calculi and NaCl crystals compared to the silicone-based copolymer. The surface of the ureteral stents needs improvement to minimize salt and kidney stone deposition, causing pre-biofilm formation and the occurrence of defects and cracks.
Rocznik
Strony
109--117
Opis fizyczny
Bibliogr. 37 poz., rys., tab., wykr.
Twórcy
  • Department of Clinical Genetics and Pathology, University of Zielona Góra, Zielona Góra, Poland.
autor
  • Department of Biomedical Engineering, University of Zielona Góra, Zielona Góra, Poland.
  • Department of Paediatric Urology, “Klinika Wisniowa”, “Cherry Clinic”, Zielona Góra, Poland.
  • Department of Paediatric Urology, “Klinika Wisniowa”, “Cherry Clinic”, Zielona Góra, Poland.
  • Scientific Office, U-merge Ltd., London-Athens-Dubai, Athens, Greece.
  • Scientific Office, U-merge Ltd., London-Athens-Dubai, Athens, Greece.
  • Department of Biomedical Engineering, University of Zielona Góra, Zielona Góra, Poland.
Bibliografia
  • [1] AHALLAL Y., KHALLOUK A., JAMAL EL FASSI M., FARIH M.H., Risk Factor Analysis and Management of Ureteral Double-J Stent Complications, Rev. Urol., 2011, 12 (2–3), 147–151.
  • [2] AKRAM M., IDREES M., Progress and prospects in the management of kidney stones and developments in phyto-therapeutic modalities, Int. J. Immunopathol. Pharmacol., 2019, 33, 1–5.
  • [3] ARKUSZ K., KRASICKA-CYDZIK E., The effect of phosphates and fluorides, included in TiO2 nanotubes layers on the performance of hydrogen, Arch. Metall. Mater., 2018, 63 (2), 1–8.
  • [4] ARKUSZ K., NYCZ M., PARADOWSKA E., PIJANOWSKA D.G., Electrochemical stability of TiO2 nanotubes deposited with silver and gold nanoparticles in aqueous environment, Environ. Nanotechnol. Monit. Manag., 2021, 15, 1–12.
  • [5] ARKUSZ K., PARADOWSKA E., NYCZ M., MAZUREK-POPCZYK J., BALDY-CHUDZIK K., Evaluation of the Antibacterial Activity of Ag- and Au-Nanoparticles Loaded TiO2 Nanotubes, J. Biomed. Nanotech., 2020, 16 (9), 1416–1425.
  • [6] ARKUSZ K., PASIK K., HALIŃSKI A., HALIŃSKI A., Surface analysis of ureteral stent before and after implantation in the bodies of child patients, Urolithiasis, 2020, 1–10.
  • [7] BARTKOWIAK-JOWSA M., BĘDZIŃSKI R., SZARANIEC B., CHŁOPEK J., Mechanical, biological and microstructural properties of biodegradable models of polymeric stents made of PLLA and alginate fibers, Acta Bioeng. Biomech., 2011, 13 (4), 21–8.
  • [8] BUHMANN M.T., ABT D., NOLTE O., Encrustations on ureteral stents from patients without urinary tract infection reveal distinct urotypes and a low bacterial load, Microbiome, 2019, 7 (60), 1–17.
  • [9] DAVENPORT K., KUMAR V., COLLINS J., MELOTTI R., TIMONEY A.G., KEELEY F.X., New Ureteral Stent Design Does Not Improve Patient Quality of Life: A Randomized, Controlled Trial, J. Urol., 2011, 185 (1), 175–178.
  • [10] GORMAN S.P., JONES D.S., BONNER M.C., AKAY M., KEANE P.F., Mechanical performance of polyurethane ureteral stents in vitro and ex vivo, Biomaterials, 1997, 18 (20), 1379–1383.
  • [11] HALIŃSKI A., HALIŃSKI A.H., Stone located in proximal part of the ureter – ESWL, URS-L, flexible URS, MicroPerc? Which approach should we choose in children-prospective study, Eur. Urol. Suppl., 2017, 16 (7), 2549.
  • [12] HENDLIN K., DOCKENDORF K., HORN C., PSHON N., LUND B., MONGA M., Ureteral stents: Coil strength and durometer, Urology, 2006, 68 (1), 42–45.
  • [13] KIM K., KIM H., CHOI Y.H., LEE S.B., BABA Y., Urine flow analysis using double J stents of various sizes in in vitro ureter models, Int. J. Numer. Method., 2020, 36 (6), 1–12.
  • [14] KIM K.W., KIM H.H., CHOI Y.H., LEE S.B., BABA Y., SUH S.H., Arrangement of side holes in a double J stent for high urine flow in a stented ureter, J. Mech. Sci., 2020, 34 (2), 949–954.
  • [15] KLOSKOWSKI T., JUNDZIŁ A., KOWALCZYK T., Ureter Regeneration–The Proper Scaffold Has to Be Defined, PLoS One, 2014, 9 (8), 1–13.
  • [16] KOTASKOVA I., OBRUCOVA H., MALISOVA B., VIDENSKA P., ZWINSOVA B., PEROUTKOVA T., FREIBERGER T., Molecular techniques complement culture-based assessment of bacteria composition in mixed biofilms of urinary tract catheterrelated samples, Front. Microbiol., 2019, 10, 462.
  • [17] KUROWIAK J., KACZMAREK-PAWELSKA A., MACKIEWICZ A.G., BĘDZIŃSKI R., Analysis of the Degradation Process of Alginate-Based Hydrogels in Artificial Urine for Use as a Bioresorbable Material in the Treatment of Urethral Injuries, Processes, 2020, 8 (3), 304.
  • [18] LAWRENCE E.L., TURNER I.G., Materials for urinary catheters: a review of their history and development in the UK, Med. Eng. Phys., 2005, 27 (6), 443–453. Encrustation of the ureteral double-J Stents made of styrene/ethylene/butylene and polyurethane before and after implantation 117
  • [19] LO J., LANGE D., CHEW B., Ureteral stents and foley cathetersassociated urinary tract infections: the role of coatings and materials in infection prevention, Antibiotics, 2014, 3 (1), 87–97.
  • [20] MILICEVIC S., BIJELIC R., JAKOVLJEVIC B., Encrustation of the Ureteral Double J Stent in Patients with a Solitary Functional Kidney – a Case Report, Med. Arh., 2015, 69 (4), 265–268.
  • [21] MILLER K.S., EDELSTEIN L., CONNIZZO B.K., SOSLOWSKY L.J., Effect of Preconditioning and Stress Relaxation on Local Collagen Fiber Re-Alignment: Inhomogeneous Properties of Rat Supraspinatus Tendon, J. Biomech. Eng., 2012, 134 (3), 031007.
  • [22] MOSAYYEBI A., MANES C., CARUGO D., Advances in Ureteral Stent Design and Materials, Curr. Urol. Rep., 2018, 19 (35), 1–9.
  • [23] MOSAYYEBI A., VIJAYAKUMAR A., YUE Q.Y., BRES-NIEWADA E., MANES C., CARUGO D., SOMANI B.K., Engineering solutions to ureteral stents: material, coating and design, Cent. European J. Urol., 2017, 70, 270–274.
  • [24] NESTLER S., WITTE B., SCHILCHEGGER L., JONES J., Size does matter: ureteral stents with a smaller diameter show advantages regarding urinary symptoms, pain levels and general health, World J. Urol., 2019, 38 (4), 1059–106.
  • [25] NYCZ M., PARADOWSKA E., ARKUSZ K., KUDLIŃSKI B., KRASICKA-CYDZIK E., Surface analysis of long-term hemodialysis catheters made of carbothane (poly(carbonate)urethane) before and after implantation in the patients’ bodies, Acta Bioeng. Biomech., 2018, 20 (2), 47–53.
  • [26] NYCZ M., PARADOWSKA E., ARKUSZ K., PIJANOWSKA D.G., Influence of geometry and annealing temperature in argon atmosphere of TiO2 nanotubes on their electrochemical properties, Acta Bioeng. Biomech., 2020, 22 (1), 165–177.
  • [27] OZGUR B.C., EKICI M., YUCETURK C.N., BAYRAK O., Bacterial colonization of double J stents and bacteriuria frequency, Kaohsiung J. Med. Sci., 2013, 29 (12), 658–661.
  • [28] PAWLIKOWSKI M., SKALSKI K., SOWIŃSKI T., Hyper-elastic modelling of intervertebral disc polyurethane implant, Acta Bioeng. Biomech., 2013, 15 (2), 1–8.
  • [29] PEDRO R.N., HENDLIN K., KRIEDBERG C., MONGA M., Wire-Based Ureteral Stents: Impact on Tensile Strength and Compression, Urology, 2007, 70 (6), 1057–1059.
  • [30] ROUPRÊT M., DAUDON M., HUPERTAN V., GATTEGNO B., THIBAULT P., TRAXER O., Can ureteral stent encrustation analysis predict urinary stone composition?, Urology, 2005, 66 (2), 246–251.
  • [31] SALI G.M., JOSHI H.B., Ureteric stents: Overview of current clinical applications and economic implications, Int. J. Urol., 2019, 27 (1), 7–15.
  • [32] SCARNECIU I., BRATU O.G., COBELSCHI C.P., The Risk Factors and Chemical Composition of Encrustation of Ureteral Double J Stents in Patients with Urolithiasis, Rev. Chim., 2018, 69 (12), 3406–3409.
  • [33] SIGHINOLFI M.C., SIGHINOLFI G.P., GALLI E., MICALI S., FERRARI N., MOFFERDIN A., BIANCHI G., Chemical and Mineralogical Analysis of Ureteral Stent Encrustation and Associated Risk Factors, Urology, 2015, 86 (4), 703– 706.
  • [34] SINGHA P., LOCKLI J., HANDA H., A review of the recent advances in antimicrobial coatings for urinary catheters, Acta Biomater., 2017, 50, 20–40.
  • [35] WANG Y., ZHONG B., YANG X., WANG G., HOU P., MENG J., Comparison of the efficacy and safety of URSL, RPLU, and MPCNL for treatment of large upper impacted ureteral stones: a randomized controlled trial, BMC Urol., 2017, 17 (1), 1–7.
  • [36] WARTY Y., HARYANTO F., FITRI L., HAEKAL M., HERMAN H., A Spatial Distribution Analysis on the Deposition Mechanism Complexity of the Organic Material of Kidney Stone, J. Biomed. Phys. Eng., 2020, 10 (3), 273–282.
  • [37] ZELICHENKO G., STEINBERG D., LORBER G., FRIEDMAN M., ZAKS B., LAVY E., DUVDEVANI M., Prevention of initial bioflm formation on ureteral stents using a sustained releasing varnish containing chlorhexidine. Vitro study, J. Endourol., 2013, 27 (3), 333–337.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ceb86583-b6bc-49c3-8db6-40770e0bc38c
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