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Emerging neural stimulation technologies for bladder dysfunctions.

Jee Woong Lee1, Daejeong Kim1, Sangjin Yoo1

  • 1Department of Bio and Brain Engineering, Korea Advanced Institute of Science and Technology, Daejeon, Korea.

International Neurourology Journal
|April 3, 2015
PubMed
Summary
This summary is machine-generated.

This review explores advanced neural stimulation technologies for treating physiological dysfunctions, focusing on emerging neurotechnologies for bladder control. It highlights innovations like microelectrode arrays and optical stimulation for improved patient outcomes.

Keywords:
Electric stimulationMicroelectrodesUrinary Bladder

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Area of Science:

  • Neural Engineering
  • Biomedical Technology

Background:

  • Physiological dysfunctions are treated by identifying target nerves and applying artificial stimulation.
  • Neural stimulation and recording technologies are crucial for restoring function.
  • Electrical stimulation is a current treatment for bladder control, but new neurotechnologies are emerging.

Purpose of the Study:

  • To review recent advancements in neural stimulation technologies.
  • To highlight emerging techniques for treating physiological dysfunctions, particularly bladder control.
  • To introduce novel neurotechnologies to the medical community.

Main Methods:

  • Review of recent developments in neural stimulation.
  • Discussion of microelectrode array technology.
  • Exploration of closed-loop neural stimulation.
  • Examination of optical stimulation techniques.
  • Analysis of ultrasound stimulation methods.

Main Results:

  • Several advanced neural stimulation technologies are available.
  • Microelectrode arrays offer precise neural interfacing.
  • Closed-loop systems provide adaptive stimulation.
  • Optical and ultrasound stimulation present non-invasive alternatives.

Conclusions:

  • Emerging neural stimulation technologies offer promising new avenues for treating physiological dysfunctions.
  • These advanced techniques, including microelectrode arrays and optical/ultrasound stimulation, have the potential to significantly improve bladder control therapies.
  • Further research and clinical translation of these neurotechnologies are warranted.