Carmen Godfraind scite author profile

Carmen Godfraind

5Publications

14Citation Statements Received

73Citation Statements Given

How they've been cited

How they cite others

Affiliations

Université Libre de Bruxelles, Synergia (United States)

Publications

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In Vivo Validation of a Less Invasive Gastrostimulator

et al. 2017

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Gastrointestinal stimulator implants have recently shown promising results in helping obese patients lose weight. However, to place the implant, the patient currently needs to undergo an invasive surgical procedure. We report a less invasive procedure to stimulate the stomach with a gastrostimulator. After attempting fully endoscopic implantation, we more recently focused on a single incision percutaneous procedure. In both cases, the challenges in electronic design of the implant are largely similar. This article covers the work achieved to meet these and details the in vivo validation of a gastrostimulator aimed to be endoscopically placed and anchored to the stomach.

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Design and implementation of a less invasive gastrostimulator

et al. 2016

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Gastrointestinal stimulator implants have recently shown positive results in helping obese patients lose weight. However, to place the implant, the patient currently needs to undergo an invasive surgical procedure. Our team is aiming for a less invasive procedure to stimulate the stomach with a gastrostimulator. Attempts covered fully endoscopic implantation and, more recently, we have focussed on a single incision laparoscopic procedure. Whatever the chosen implantation solution, the electronic design of the implant system shares many challenges. This paper covers the work achieved to meet these.

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O038 / #899 an Implantable Optoelectronic Neurostimulator Designed for Safe Full Body Mri and Active Stimulation During Mri/Fmri

Nieuwenhuys¹,

Botquin²,

Urruty³

et al. 2022

Neuromodulation: Technology at the Neural Interface

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Po012 / #893 Optimized Inductive Recharge of an Implanted Pulse Generator Using an Automatic Optical Positioning System

Thiebaut¹,

Rueff²,

Godfraind³

et al. 2022

Neuromodulation: Technology at the Neural Interface

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Inductive powering of subcutaneous stimulators: key parameters and their impact on the design methodology

et al. 2016

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Inductive powering of implantable medical devices involves numerous factors acting on the system efficiency and safety in adversarial ways. This paper lightens up their role and identifies a procedure enabling the system design. The latter enables the problem to be decoupled into four principal steps: the frequency choice, the magnetic link optimization, the secondary circuit and then finally the primary circuit designs. The methodology has been tested for the powering system of a device requirering a power of 300mW and implanted at a distance of 15 to 30mm from the outside power source. It allowed the identification of the most critical parameters. A satisfying efficiency of 34% was reached at 21mm and tend to validate the proposed design procedure.

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