A Novel Ureteric Stent in Kidney Stone Patients and Oncology Patients Compared to a Conventional JJ Stent
NCT ID: NCT06815120
Last Updated: 2025-02-07
Study Results
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Basic Information
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NOT_YET_RECRUITING
NA
50 participants
INTERVENTIONAL
2025-02-28
2026-05-15
Brief Summary
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Detailed Description
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UTIs are a significant cause of morbidity, especially among the elderly population, with 4,835 deaths in England and Wales reported in 2012. The National Institute for Health Research reported that 1-3% of all primary care consultations concern UTI-related symptoms, leading to 13.7% of antibiotic prescriptions globally. The report also revealed that \>92m people globally are diagnosed with UTIs annually.
Urological-device-associated infections significantly compromise patient' quality of life and the effectiveness of services, imposing a £2.5b annual burden on the NHS. Patients' exposure to hospital environment and general anaesthetic use impact on Quality-of-Life (QoL), resulting in unnecessary hospital bed-nights. We have developed a novel urological stent associated with significantly reduced particle deposition , potentially extending the stent's lifetime, resulting in reduced hospitalisation and improved QoL.
Urological stents and catheters often lead to inflammation, causing pain and infection in the urinary tract. Moreover, 80% of stents are associated with pain, negatively impacting on QoL and mental health. Offering novel designs with significantly lower E\&B leads to a reduction in UTIs and improves QoL. Reducing hospital admissions (from 3 to 1 per patient, annually) would free \>100,000 bed-nights, allowing the elderly to regain independence. Our proposed research could have a significant impact towards fulfilling the 'healthy-ageing' Grand Challenge. Additionally, the novel stent reduces prevalence of infections and therefore, of antibiotic prescriptions contributing to the Global AMR challenge.
Considering only onco-urological patients, \>30,000 stents are inserted every year across 200 NHS units. Due to stent failures, each patient undergoes 3 to 6 replacements, resulting in \>90,000 stent replacements. Under the current tariff-based system, hospitals are paid for each intervention, costing the NHS \>£3,500, bringing the total cost of replacements to \~£315m annually. Unnecessary replacements increase the number of bed-nights and use of anaesthetics. A longer-lasting stent means that each patient comes to the hospital ideally only once, reducing their exposure to the hospital environment and anaesthetic-associated risks. Additionally, under the current model hospitals would improve their quality of service and save at least 2 bed-nights per patient. The NHS is moving towards a "block contract" model, meaning that hospitals will receive a lump sum for the year and they'll regularly monitor budgets and improve cost efficiency where possible. Improved stents will allow the same urology budget to deliver more healthcare, reducing theatre time for stent insertion-and-replacement. Our innovative stent design offers a potential annual saving of \>£210m for the NHS, allowing hospitals to reallocate their resources. Today E\&B is still a major determinant of stent failure and associated side effects. We aim to address this challenge through our novel stent, and if equivalent safety and improved efficacy are demonstrated, anticipate market launch via third-party suppliers 2-3 years post project.
Solutions to break this pathway (stent presence \>\> inflammation, pain and infection) have been developed, including materials (e.g. metallic alloys, polymers, biodegradable and drug-eluting materials), coatings (e.g. heparin, chitosan, hydrogel, carbon) and shapes (e.g. double-J, loop, mesh, string, expandable) to improve the efficacy and safety of stents. Despite all these advances, there is still a significant prevalence of E\&B. This is also due to the lack of studies correlating fluid dynamic metrics with deposition of particles causing E\&B. The lead applicant's PhD investigated the mechanisms of particle deposition in urological stents, and successfully determined fluid dynamic parameters governing particle deposition on ureteric stents and catheters. His research led to developing a stent with specially shaped side-holes that prevent stagnation points (i.e., areas of low flow that cause particles to settle and E\&B). These developments demonstrated \>80% reduction in particle deposition at side-holes, in-vitro. Their innovative architecture can be implemented on stents and catheters. The technology, including the stent design and manufacturing process, is protectable - Patent# WO2019048860A1, WIPO(PCT). These results were further validated in an animal study (6 pigs: 3 novel-design-stent vs 3 conventional-design-stent for a 4-weeks period) at Stone-Centre at Vancouver-General-Hospital (VGH), a centre of excellence in animal studies on urological products. The study (available upon request) concluded that the functionality of stents with novel side-holes is the same as that of standard stents in terms of safety. Specifically, the novel stent does not result in increased risk of irritation, inflammation and hydronephrosis. Furthermore, SEM/EDX imaging showed that the novel design decreased the build-up of particles on the stent surface. Thus, it demonstrated significant potential for the new side-hole configuration to change patterns of particle deposition on the stent's surface, decreasing encrustation
Conditions
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Study Design
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NON_RANDOMIZED
SINGLE_GROUP
TREATMENT
NONE
Study Groups
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Kidney Stone cohort
Experimental ureteric stent with specially shaped side-holes that prevent stagnation points (i.e., areas of low flow that cause particles to settle and E\&B)
Experimental ureteric stent with specially shaped side-holes that prevent stagnation points (i.e., areas of low flow that cause particles to settle and E&B)
Kidney stone patients and Oncology patients admitted to either the University Hospital Southampton (UHS) or University College London Hospital (UCLH) for management of kidney stones or for the management of urine drainage in ureter will have a novel ureteric stent instead of their planned conventional stent. The novel stent will be removed after 4 weeks (kidney stone patients) or 25 weeks (oncology patients). Recruitment to the cohort of oncology patients will only commence once the results for kidney stones patients have been reviewed.
Qualitative interview
Kidney stone patients, Oncology patients and doctors will be interviewed about their experience of having a stent, or their experience in managing patients with a stent.
Oncology cohort
Experimental ureteric stent with specially shaped side-holes that prevent stagnation points (i.e., areas of low flow that cause particles to settle and E\&B)
Experimental ureteric stent with specially shaped side-holes that prevent stagnation points (i.e., areas of low flow that cause particles to settle and E&B)
Kidney stone patients and Oncology patients admitted to either the University Hospital Southampton (UHS) or University College London Hospital (UCLH) for management of kidney stones or for the management of urine drainage in ureter will have a novel ureteric stent instead of their planned conventional stent. The novel stent will be removed after 4 weeks (kidney stone patients) or 25 weeks (oncology patients). Recruitment to the cohort of oncology patients will only commence once the results for kidney stones patients have been reviewed.
Qualitative interview
Kidney stone patients, Oncology patients and doctors will be interviewed about their experience of having a stent, or their experience in managing patients with a stent.
Interventions
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Experimental ureteric stent with specially shaped side-holes that prevent stagnation points (i.e., areas of low flow that cause particles to settle and E&B)
Kidney stone patients and Oncology patients admitted to either the University Hospital Southampton (UHS) or University College London Hospital (UCLH) for management of kidney stones or for the management of urine drainage in ureter will have a novel ureteric stent instead of their planned conventional stent. The novel stent will be removed after 4 weeks (kidney stone patients) or 25 weeks (oncology patients). Recruitment to the cohort of oncology patients will only commence once the results for kidney stones patients have been reviewed.
Qualitative interview
Kidney stone patients, Oncology patients and doctors will be interviewed about their experience of having a stent, or their experience in managing patients with a stent.
Eligibility Criteria
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Inclusion Criteria
2. Ureteric stents clinically indicated either due to kidney stones or abdominal/pelvic cancers compressing ureters
3. Previous experience with ureteric stents
4. Awaiting insersion/replacement of stents
5. Ability to give consent
6. Ability to interact with study documentation
7. Sufficient English to complete study documentations and questionnaires
Exclusion Criteria
2. Unfit for stent insertion
3. Unable to comply with study processes Pregnancy
18 Years
99 Years
ALL
No
Sponsors
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University Hospital Southampton NHS Foundation Trust
OTHER
National Institute for Health Research, United Kingdom
OTHER_GOV
University College London Hospitals
OTHER
University of Southampton
OTHER
Responsible Party
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Principal Investigators
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Ali Mosayyebi
Role: PRINCIPAL_INVESTIGATOR
University of Southampton
Central Contacts
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References
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Prattley S, Voss J, Cheung S, Geraghty R, Jones P, Somani BK. Ureteroscopy and stone treatment in the elderly (>/=70 years): prospective outcomes over 5- years with a review of literature. Int Braz J Urol. 2018 Jul-Aug;44(4):750-757. doi: 10.1590/S1677-5538.IBJU.2017.0516.
Heers H, Turney BW. Trends in urological stone disease: a 5-year update of hospital episode statistics. BJU Int. 2016 Nov;118(5):785-789. doi: 10.1111/bju.13520. Epub 2016 May 26.
Z. Chen, M. Prosperi, and V. Y. Bird, "Prevalence of kidney stones in the USA: The National Health and Nutrition Evaluation Survey," J Clin Urol, vol. 12, no. 4, pp. 296-302, Jul. 2019, doi: 10.1177/2051415818813820
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Kehinde EO, Rotimi VO, Al-Hunayan A, Abdul-Halim H, Boland F, Al-Awadi KA. Bacteriology of urinary tract infection associated with indwelling J ureteral stents. J Endourol. 2004 Nov;18(9):891-6. doi: 10.1089/end.2004.18.891.
S. T. Thomas, C. Heneghan, C. P. Price, A. van den Bruel, and A. Plüddemann, "Point-of-care testing for urinary tract infections - NIHR Community Healthcare MIC," NIHR, Jun. 2016. https://www.community.healthcare.mic.nihr.ac.uk/reports-and-resources/horizon-scanning-reports/point-of-care-testing-for-urinary-tract-infections (accessed Feb. 01, 2023)
Zumstein V, Betschart P, Albrich WC, Buhmann MT, Ren Q, Schmid HP, Abt D. Biofilm formation on ureteral stents - Incidence, clinical impact, and prevention. Swiss Med Wkly. 2017 Feb 3;147:w14408. doi: 10.4414/smw.2017.14408. eCollection 2017.
Feneley RC, Hopley IB, Wells PN. Urinary catheters: history, current status, adverse events and research agenda. J Med Eng Technol. 2015;39(8):459-70. doi: 10.3109/03091902.2015.1085600. Epub 2015 Sep 18.
Joshi HB, Stainthorpe A, MacDonagh RP, Keeley FX Jr, Timoney AG, Barry MJ. Indwelling ureteral stents: evaluation of symptoms, quality of life and utility. J Urol. 2003 Mar;169(3):1065-9; discussion 1069. doi: 10.1097/01.ju.0000048980.33855.90.
Ramachandra M, Mosayyebi A, Carugo D, Somani BK. Strategies to Improve Patient Outcomes and QOL: Current Complications of the Design and Placements of Ureteric Stents. Res Rep Urol. 2020 Jul 31;12:303-314. doi: 10.2147/RRU.S233981. eCollection 2020.
Mosayyebi A, Manes C, Carugo D, Somani BK. Advances in Ureteral Stent Design and Materials. Curr Urol Rep. 2018 Apr 10;19(5):35. doi: 10.1007/s11934-018-0779-y.
Mosayyebi A, Vijayakumar A, Yue QY, Bres-Niewada E, Manes C, Carugo D, Somani BK. Engineering solutions to ureteral stents: material, coating and design. Cent European J Urol. 2017;70(3):270-274. doi: 10.5173/ceju.2017.1520. Epub 2017 Aug 28.
Liatsikos EN, Kallidonis P, Kyriazis I, Karnabatidis D, Tsamandas A, Sakellaropoulos G, Flaris N, Rigopoulos C, Toronidis C, Efthimiou I, Filos K, Siablis D, Perimenis P. Metallic double pigtail ureteral stent usage during extracorporeal shock wave lithotripsy in the swine model: is there any effect on the ureter? J Endourol. 2009 Apr;23(4):685-91. doi: 10.1089/end.2008.0569.
S. Zheng et al., "Quantitative Evaluation of Encrustations in Double-J Ureteral Stents With Micro-Computed Tomography and Semantic Segmentation," Frontiers in Urology, vol. 2, 2022, [Online]. Available: https://www.frontiersin.org/articles/10.3389/fruro.2022.836563
Tomer N, Garden E, Small A, Palese M. Ureteral Stent Encrustation: Epidemiology, Pathophysiology, Management and Current Technology. J Urol. 2021 Jan;205(1):68-77. doi: 10.1097/JU.0000000000001343. Epub 2020 Aug 28.
Mosayyebi A, Lange D, Yann Yue Q, Somani BK, Zhang X, Manes C, Carugo D. Reducing deposition of encrustation in ureteric stents by changing the stent architecture: A microfluidic-based investigation. Biomicrofluidics. 2019 Jan 4;13(1):014101. doi: 10.1063/1.5059370. eCollection 2019 Jan.
Mosayyebi A, Yue QY, Somani BK, Zhang X, Manes C, Carugo D. Particle Accumulation in Ureteral Stents Is Governed by Fluid Dynamics: In Vitro Study Using a "Stent-on-Chip" Model. J Endourol. 2018 Jul;32(7):639-646. doi: 10.1089/end.2017.0946. Epub 2018 Jun 12.
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Related Links
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NHS, "Overview - Hydronephrosis," NHS website, 2018
Other Identifiers
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63246
Identifier Type: -
Identifier Source: org_study_id
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