Se Ik Park scite author profile

Se Ik Park

5Publications

93Citation Statements Received

49Citation Statements Given

How they've been cited

194

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Affiliations

Seoul National University

Publications

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A Suprachoroidal Electrical Retinal Stimulator Design for Long‐Term Animal Experiments and In Vivo Assessment of Its Feasibility and Biocompatibility in Rabbits

Zhou

Woo

Park

et al. 2008

BioMed Research International

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This article reports on a retinal stimulation system for long-term use in animal electrical stimulation experiments. The presented system consisted of an implantable stimulator which provided continuous electrical stimulation, and an external component which provided preset stimulation patterns and power to the implanted stimulator via a paired radio frequency (RF) coil. A rechargeable internal battery and a parameter memory component were introduced to the implanted retinal stimulator. As a result, the external component was not necessary during the stimulation mode. The inductive coil pair was used to pass the parameter data and to recharge the battery. A switch circuit was used to separate the stimulation mode from the battery recharging mode. The implantable stimulator was implemented with IC chips and the electronics, except for the stimulation electrodes, were hermetically packaged in a biocompatible metal case. A polyimide-based gold electrode array was used. Surgical implantation into rabbits was performed to verify the functionality and safety of this newly designed system. The electrodes were implanted in the suprachoroidal space. Evoked cortical potentials were recorded during electrical stimulation of the retina. Long-term follow-up using OCT showed no chorioretinal abnormality after implantation of the electrodes.

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A micromachined silicon depth probe for multichannel neural recording

Yoon

Hwang

Shin

et al. 2000

IEEE Trans. Biomed. Eng.

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A process of making a new type of silicon depth-probe microelectrode array is described using a combination of plasma and wet etch. The plasma etch, which is done using a low temperature oxide (LTO) mask, enables probe thickness to be controlled over a range from 5 to 90 mu. Bending tests show that the probe's mechanical strength depends largely on shank thickness. More force can be applied to thicker shanks while thinner shanks are more flexible. One can then choose a thickness and corresponding mechanical strength using the process developed. The entire probe shaping process is performed only at low temperature, and thus is consistent with the standard CMOS fabrication. Using the probe in recording from rat's somatosensory cortex, we obtained four channel simultaneous recordings which showed clear independence among channels with a signal-to-noise ratio performance comparable with that obtained using other devices.

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Electrical stimulation of the anterior cingulate cortex in a rat neuropathic pain model

Park

Hwang

et al.

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Modiolus-Hugging Intracochlear Electrode Array with Shape Memory Alloy

Min

Jun

Lim

et al. 2013

Computational and Mathematical Methods in Medicine

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In the cochlear implant system, the distance between spiral ganglia and the electrodes within the volume of the scala tympani cavity significantly affects the efficiency of the electrical stimulation in terms of the threshold current level and spatial selectivity. Because the spiral ganglia are situated inside the modiolus, the central axis of the cochlea, it is desirable that the electrode array hugs the modiolus to minimize the distance between the electrodes and the ganglia. In the present study, we propose a shape-memory-alloy-(SMA-) embedded intracochlear electrode which gives a straight electrode a curved modiolus-hugging shape using the restoration force of the SMA as triggered by resistive heating after insertion into the cochlea. An eight-channel ball-type electrode array is fabricated with an embedded titanium-nickel SMA backbone wire. It is demonstrated that the electrode array changes its shape in a transparent plastic human cochlear model. To verify the safe insertion of the electrode array into the human cochlea, the contact pressures during insertion at the electrode tip and the contact pressures over the electrode length after insertion were calculated using a 3D finite element analysis. The results indicate that the SMA-embedded electrode is functionally and mechanically feasible for clinical applications.

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A Neurostimulator Design for Long-term Animal Experiments

Zhou

Woo

Park

et al. 2007

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Se Ik Park

A Suprachoroidal Electrical Retinal Stimulator Design for Long‐Term Animal Experiments and In Vivo Assessment of Its Feasibility and Biocompatibility in Rabbits

A micromachined silicon depth probe for multichannel neural recording

Electrical stimulation of the anterior cingulate cortex in a rat neuropathic pain model

Modiolus-Hugging Intracochlear Electrode Array with Shape Memory Alloy

A Neurostimulator Design for Long-term Animal Experiments

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