The First Teleautomatic Low‐Voltage Prosthesis With Multiple Therapeutic Applications: A New Version of the German Artificial Sphincter System

Ruthmann, O.; Richter, Sabine; Seifert, Gabriel; Karcz, Wojciech Konrad; Goldschmidböing, Frank; Lemke, Thomas; Biancuzzi, Gionvanni; Woias, Peter; Schmidt, Thomas; Schwarzbqch, Stefan; Vodermayer, Bernhard; Hopt, Ulrich T.; Schrag, H. J.

doi:10.1111/j.1525-1594.2010.01004.x

Cited by 28 publications

(24 citation statements)

References 10 publications

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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%

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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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Section: Discussionmentioning

confidence: 99%

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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“…The redesign comprises the aggregation of all electric and mechanical components into one central unit (Fig. 2b) (Ruthmann et al, 2010).…”

Section: German Artificial Sphincter Systemmentioning

confidence: 99%

Challenges faced in the clinical application of artificial anal sphincters

Wang

Zhou

Luo

2015

J. Zhejiang Univ. Sci. B

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Abstract:Fecal incontinence is an unresolved problem, which has a serious effect on patients, both physically and psychologically. For patients with severe symptoms, treatment with an artificial anal sphincter could be a potential option to restore continence. Currently, the Acticon Neosphincter is the only device certified by the US Food and Drug Administration. In this paper, the clinical safety and efficacy of the Acticon Neosphincter are evaluated and discussed. Furthermore, some other key studies on artificial anal sphincters are presented and summarized. In particular, this paper highlights that the crucial problem in this technology is to maintain long-term biomechanical compatibility between implants and surrounding tissues. Compatibility is affected by changes in both the morphology and mechanical properties of the tissues surrounding the implants. A new approach for enhancing the long-term biomechanical compatibility of implantable artificial sphincters is proposed based on the use of smart materials.

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“…Prostheses with different structures similar to an inflatable circular cuff or an elliptical ring fitted around the anorectal bowel have been developed and studied in both animal experiments and clinical trials. These sphincter prostheses have improved incontinence, but to date they have been associated with many complications and have not gained acceptance [2][3][4][5][6].…”

Section: Introductionmentioning

confidence: 98%

Design and assessment of novel artificial anal sphincter with adaptive transcutaneous energy transfer system

Yan

Wang

et al. 2015

Journal of Medical Engineering & Technology

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This paper presents the in vitro assessment of a novel elastic scaling artificial anal sphincter system (ES-AASS) with an adaptive transcutaneous energy transfer system (TETS) for treatment of severe faecal incontinence (FI). The proposed adaptive TETS has a phase control, which can maintain the output voltage at ∼7 V across the full range of the coupling coefficient variation (from 0.09-0.31) during the whole process of charging with a phase shift of 177.5° to 79.1°. A maximum surface temperature of 42.2 °C was measured above the secondary coil during an energy transmission of 3.5 W in air. The specific absorption rate (SAR) and current density analysis of the biological three-layers structure, including the skin, fat and muscle) surrounding the coil pair were analysed and the results of simulation analysis showed that the value of SAR and current density were very small at any given transmission condition compared with the basic restrictions of the International Commission on Non-Ionizing Radiation Protection (ICNIRP). In conclusion, in vitro experimental results showed that the ES-AASS can control simulated faecal behaviour effectively and the performance of TETS was validated.

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The First Teleautomatic Low‐Voltage Prosthesis With Multiple Therapeutic Applications: A New Version of the German Artificial Sphincter System

Cited by 28 publications

References 10 publications

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

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

Challenges faced in the clinical application of artificial anal sphincters

Design and assessment of novel artificial anal sphincter with adaptive transcutaneous energy transfer system

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