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Flow dynamics in a drained ureter: Artificial and computer models

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Presentation on theme: "Flow dynamics in a drained ureter: Artificial and computer models"— Presentation transcript:

1 Flow dynamics in a drained ureter: Artificial and computer models
1Haifler M1,2, Weiss D3, Winkler H1, Ramon J1, Einav S 3, Kleinmann N 1 Department of Urology, Chaim Sheba medical center 2 OMNI research group, Department of biomedical engineering, Tel Aviv University 3 Cardiovascular System and Bioengineering Laboratory, Department of biomedical engineering Intro Aim Material and methods Results Conclusions

2 Introduction Ureteral drainage by a double pigtail ureteral stent is used to drain an obstructed upper urinary tract The stent relieves pain and improves renal function by decreasing renal pelvis pressure The stent's function is determined mainly by the urine flow field through and alongside it Intro

3 Introduction In cases of severe obstruction caused by malignant diseases failure of the drainage is common In these cases treatment options include drainage by a stiff stent, two stents (tandem drainage) or a nephrostomy tube Tandem ureteral stents for the decompression of malignant and benign obstructive uropathy. J Endourol Oct;27(10): The double-J ureteral stent: in vivo and in vitro flow studies. J Urol Aug;148(2 Pt 1): The effects of these drainage options on the flow dynamics in the ureter are unknown Intro

4 Aim To examine the ureteral flow dynamics of different types of drainage and degrees of obstruction by way of an artificial and a computational model Intro Aim

5 Material and methods- artificial model
Syringe pump/infusion bag urine production model Infusion needle and water column – Pressure monitor Clamp – Obstruction model 26F foley catheter Ureteral model Intro Aim Material and methods

6 Material and methods- artificial model
Urine output mechanisms: Syringe pump – constant flow Gravitation – variable flow Drainage devices: Single soft stent Tandem soft stents Single stiff stent Tandem stiff stents Intro Aim Material and methods

7 Material and methods- Computational model
Navier-Stokes flow equations Intro Aim Material and methods

8 Material and methods Outcomes: Pressure at simulated renal pelvis
Time to drainage of 30cc Statistical analysis ANCOVA Statistical significance was set at p<0.05 Intro Aim Material and methods

9 Results – Artificial model
p <0.001 p <0.001 p =0.03 Intro Aim Material and methods Results

10 Results – Computer model
Intro Aim Material and methods Results

11 Conclusions The artificial model was found to be in complete agreement with the computer model Renal drainage with tandem stiff stents provide the lowest pressure level compared with single stiff or tandem soft stents Maximal renal protection is predicted with this type of drainage according to the models Intro Aim Material and methods Results Conclusions

12 THANK YOU! Intro Aim Material and methods Results Conclusions

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