Dynamic human cadaver model for testing the feasibility of new endovascular techniques and tools.

Endovascular device specifications and technical improvements are strongly required, especially in particular anatomical locations such as the aortic arch and the thoracoabdominal aorta. We present a new technique for total endovascular repair of the aortic arch and an experimental design of a circulation model in the human cadaver in order to evaluate the feasibility of this technique.

Total endovascular aortic arch reconstruction via fenestration in situ with cerebral circulatory support: an acute experimental study.

The aim of this experimental study is to evaluate the feasibility of endovascular repair of the complete aortic arch by using novel fenestration devices with simultaneous support of the cerebral circulation. Two fresh human cadavers and five Yorkshire pigs were used for the experiments. In human cadavers the thoracic aorta was pressurized using a roller pump to simulate the circulation.

Strategies to improve electrode positioning and safety in cochlear implants.

An injection-molded internal supporting rib has been produced to control the flexibility of silicone rubber encapsulated electrodes designed to electrically stimulate the auditory nerve in human subjects with severe to profound hearing loss. The rib molding dies, and molds for silicone rubber encapsulation of the electrode, were designed and machined using AutoCad and MasterCam software packages in a PC environment. After molding, the prototype plastic ribs were iteratively modified based on observations of the performance of the rib/silicone composite insert in a clear plastic model of the human scala tympani cavity.

Segment by segment linear ablation with an articulated bilimb catheter: initial experimental results.

Transcatheter radiofrequency (RF) ablation of atrial fibrillation or flutter requires the creation of linear lesions. However, conventional catheters are not predictably effective because of poor endocardial contact, and limited lesion size and penetration. The purpose of the study was to assess in the right atrium, the efficacy and safety of a new catheter designed to create long myocardial tissue lesions using RF energy.

A transparent model of the human scala tympani cavity.

A dimensionally accurate clear model of the human scala tympani has been produced to evaluate the insertion and position of clinically applied intracochlear electrodes for electrical stimulation. Replicates of the human scala tympani were made from low melting point metal alloy (LMA) and from polymethylmeth-acrylate (PMMA) resin. The LMA metal casts were embedded in blocks of epoxy and in clear silicone rubber.