Development of a Novel Artificial Urinary Sphincter: A Versatile Automated Device

Lamraoui, Hamid; Bonvilain, Agnès; Robain, G.; Combrisson, Hélène; Basrour, Skandar; Moreau–Gaudry, Alexandre; Cinquin, Philippe; Mozer, Pierre

doi:10.1109/tmech.2010.2056927

Cited by 12 publications

(14 citation statements)

References 18 publications

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“…Indeed, the current AMS800™ device was marketed since 1983 and has never submitted to major improvements since then. A total of nine hydro‐mechanical or purely mechanical AUSs have been reportedly developed at the time of our literature review . Three of them have already been implanted and studied in humans, but none has yet been directly compared to the AMS800™.…”

Section: Resultsmentioning

confidence: 99%

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Artificial Urinary Sphincter: Report of the 2015 Consensus Conference

Biardeau

Aharony

Campeau

et al. 2016

Neurourology and Urodynamics

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Section: Resultsmentioning

confidence: 99%

“…A device, which could be easily manipulated, would allow implantation in less skillful patients who currently cannot benefit from the AMS800™. This could be accomplished by remotely controlled AUSs, as proposed recently . Furthermore, easy AUS deactivation could also improve efficacy and safety.…”

Section: Resultsmentioning

confidence: 99%

Artificial Urinary Sphincter: Report of the 2015 Consensus Conference

Biardeau

Aharony

Campeau

et al. 2016

Neurourology and Urodynamics

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“…Finally, the possibility of adjusting cuff pressure postoperatively and in real-time would allow slight pressure increments in partially improved patients, as well as cuff deflation during the bedtime period to decrease pressure exerted on the urethra and reducing, in theory, the risk of erosion and atrophy. 19 With volume going from 30 to 50 cm 3 , they are currently the smallest devices to incorporate an electronic pumping system [10][11][12][13] with remote control 13 (Table 1), making them easy to insert through the reservoir implantation incision and easily placed at the iliac fossa in a subcutaneous pouch. As pumping systems are currently handmade, device miniaturization is limited, especially because of Y and L suture-tie connectors at the hydraulic unit level.…”

Section: Discussionmentioning

confidence: 99%

“…5,6 Influenced by this rationale, few authors have developed novel AUSs to improve the AMS800. 5,[7][8][9][10][11][12][13] Here, we present three distinct AMS800 retro-compatible pumping systems: the AUS#1, AUS#2, and AUS#3, developed recently as a collaborative work between McGill University and École polytechnique de Montréal. Our approach was to improve the AMS800 by incorporating a remotely controlled electronic pump without modifying the cuff and pressure-regulating balloon (PRB).…”

Section: Introductionmentioning

confidence: 99%

Montreal electronic artificial urinary sphincters: Our futuristic alternatives to the AMS800™

Biardeau

Hached

Loutochin

et al. 2017

CUAJ

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Introduction: We aimed to present three novel remotely controlled hydromechanical artificial urinary sphincters (AUSs) and report their in-vitro and ex-vivo results. Methods: We successively developed three distinct hydromechanical AUSs on the basis of the existing AMS800 ™ device by incorporating an electronic pump. No changes were made to the cuff and balloon. The AUS#1 was designed as an electromagnetically controlled device. The AUS#2 and AUS#3 were conceived as Bluetooth 2.1 remotely controlled and Bluetooth 4.0 remotelycontrolled, adaptive devices, respectively. In-vitro experiments profiled occlusive cuff pressure (OCP) during a complete device cycle, with different predetermined OCP. Ex-vivo experiments were performed on a fresh pig bladder with 4 cm cuff placed around the urethra. Leak point pressure with different predetermined OCP values was successively measured during cystometry via a catheter at the bladder dome. Results: Our in-vitro and ex-vivo experiments demonstrated that these three novel AUSs provided stable and predetermined OCP -within the physiological range -and completely deflated the cuff, when required, in a limited time compatible with physiological voiding cycles. Conclusions: Our three novel, remotely controlled AUSs showed promising results that should be confirmed by in-vivo experiments focusing on efficacy and safety.

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“…Mechatronic hydraulic system: (d) Hached et al's device . (e) Lamraoui et al's device . EAP: (f) AUS with a cuff based on a dielectric elastomer .…”

Section: Artificial Urinary Sphinctersmentioning

confidence: 99%

Artificial Sphincters to Manage Urinary Incontinence: A Review

et al. 2018

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Urinary incontinence affects more than 300 million people worldwide. The implantation of a medical device called an artificial urinary sphincter (AUS) is the gold standard treatment when conservative and minimally invasive therapies fail. In this article, the AUSs (extra-urethral and endo-urethral sphincters) available on the market, both presented at the research level and filed as patents, are reviewed. The ability of the different solutions to effectively replace the natural sphincter are discussed, together with advantages and some possible side effects, such as tissue atrophy, overall invasiveness of the implant, and so forth. Finally, future research priorities are discussed for both endo-urethral and extra-urethral approaches considering key engineering aspects, such as materials, compression and closure mechanisms, and implantation methods, with the long-term aim of developing an effective, reliable, durable, and minimally invasive AUS capable of restoring a normal quality of life for incontinent patients.

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Development of a Novel Artificial Urinary Sphincter: A Versatile Automated Device

Cited by 12 publications

References 18 publications

Artificial Urinary Sphincter: Report of the 2015 Consensus Conference

Artificial Urinary Sphincter: Report of the 2015 Consensus Conference

Montreal electronic artificial urinary sphincters: Our futuristic alternatives to the AMS800™

Artificial Sphincters to Manage Urinary Incontinence: A Review

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